// license:BSD-3-Clause // copyright-holders:Raphael Nabet /* smartmed.h: header file for smartmed.c */ #ifndef MAME_MACHINE_SMARTMEDIA_H #define MAME_MACHINE_SMARTMEDIA_H #pragma once #include "formats/imageutl.h" #include "softlist_dev.h" //#define SMARTMEDIA_IMAGE_SAVE #define MCFG_NAND_TYPE(type) \ downcast(*device).set_nand_type((nand_device::chip::type)); #define MCFG_NAND_RNB_CALLBACK(write) \ downcast(*device).set_rnb_wr_callback(DEVCB_##write); /*************************************************************************** TYPE DEFINITIONS ***************************************************************************/ // ======================> nand_device class nand_device : public device_t { public: // "Sequential Row Read is available only on K9F5608U0D_Y,P,V,F or K9F5608D0D_Y,P" enum class chip { K9F5608U0D = 0, // K9F5608U0D K9F5608U0D_J, // K9F5608U0D-Jxxx K9F5608U0B, // K9F5608U0B K9F1G08U0B, // K9F1G08U0B K9LAG08U0M // K9LAG08U0M }; // construction/destruction nand_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); template devcb_base &set_rnb_wr_callback(Object &&cb) { return m_write_rnb.set_callback(std::forward(cb)); } void set_nand_type(chip type) { switch (type) { case chip::K9F5608U0D: m_id_len = 2; m_id[0] = 0xec; m_id[1] = 0x75; m_page_data_size = 512; m_page_total_size = 512 + 16; m_log2_pages_per_block = compute_log2(32); m_num_pages = 32 * 2048; m_col_address_cycles = 1; m_row_address_cycles = 2; m_sequential_row_read = 1; break; case chip::K9F5608U0D_J: case chip::K9F5608U0B: m_id_len = 2; m_id[0] = 0xec; m_id[1] = 0x75; m_page_data_size = 512; m_page_total_size = 512 + 16; m_log2_pages_per_block = compute_log2(32); m_num_pages = 32 * 2048; m_col_address_cycles = 1; m_row_address_cycles = 2; m_sequential_row_read = 0; break; case chip::K9F1G08U0B: m_id_len = 5; m_id[0] = 0xec; m_id[1] = 0xf1; m_id[2] = 0x00; m_id[3] = 0x95; m_id[4] = 0x40; m_page_data_size = 2048; m_page_total_size = 2048 + 64; m_log2_pages_per_block = compute_log2(64); m_num_pages = 64 * 1024; m_col_address_cycles = 2; m_row_address_cycles = 2; m_sequential_row_read = 0; break; case chip::K9LAG08U0M: m_id_len = 5; m_id[0] = 0xec; m_id[1] = 0xd5; m_id[2] = 0x55; m_id[3] = 0x25; m_id[4] = 0x68; m_page_data_size = 2048; m_page_total_size = 2048 + 64; m_log2_pages_per_block = compute_log2(128); m_num_pages = 128 * 8192; m_col_address_cycles = 2; m_row_address_cycles = 3; m_sequential_row_read = 0; break; default: printf("Unknown NAND type!\n"); m_id_len = 0; m_page_data_size = 0; m_page_total_size = 0; m_log2_pages_per_block = 0; m_num_pages = 0; m_col_address_cycles = 0; m_row_address_cycles = 0; m_sequential_row_read = 0; break; } } int is_present(); int is_protected(); int is_busy(); uint8_t data_r(); void command_w(uint8_t data); void address_w(uint8_t data); void data_w(uint8_t data); void set_data_ptr(void *ptr); protected: enum sm_mode_t { SM_M_INIT, // initial state SM_M_READ, // read page data SM_M_PROGRAM, // program page data SM_M_ERASE, // erase block data SM_M_READSTATUS,// read status SM_M_READID, // read ID SM_M_30, SM_M_RANDOM_DATA_INPUT, SM_M_RANDOM_DATA_OUTPUT }; enum pointer_sm_mode_t { SM_PM_A, // accessing first 256-byte half of 512-byte data field SM_PM_B, // accessing second 256-byte half of 512-byte data field SM_PM_C // accessing spare field }; nand_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock); // device-level overrides virtual void device_start() override; virtual void device_reset() override; int m_page_data_size; // 256 for a 2MB card, 512 otherwise int m_page_total_size;// 264 for a 2MB card, 528 otherwise int m_num_pages; // 8192 for a 4MB card, 16184 for 8MB, 32768 for 16MB, // 65536 for 32MB, 131072 for 64MB, 262144 for 128MB... // 0 means no card loaded int m_log2_pages_per_block; // log2 of number of pages per erase block (usually 4 or 5) uint8_t* m_data_ptr; // FEEPROM data area std::unique_ptr m_data_uid_ptr; sm_mode_t m_mode; // current operation mode pointer_sm_mode_t m_pointer_mode; // pointer mode unsigned int m_page_addr; // page address pointer int m_byte_addr; // byte address pointer int m_addr_load_ptr; // address load pointer int m_status; // current status int m_accumulated_status; // accumulated status std::unique_ptr m_pagereg; // page register used by program command uint8_t m_id[5]; // chip ID uint8_t m_mp_opcode; // multi-plane operation code int m_mode_3065; // Palm Z22 NAND has 512 + 16 byte pages but, for some reason, Palm OS writes 512 + 64 bytes when // programming a page, so we need to keep track of the number of bytes written so we can ignore the // last 48 (64 - 16) bytes or else the first 48 bytes get overwritten int m_program_byte_count; int m_id_len; int m_col_address_cycles; int m_row_address_cycles; int m_sequential_row_read; devcb_write_line m_write_rnb; #ifdef SMARTMEDIA_IMAGE_SAVE int m_image_format; #endif }; class smartmedia_image_device : public nand_device, public device_image_interface { public: // construction/destruction smartmedia_image_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); // image-level overrides virtual iodevice_t image_type() const override { return IO_MEMCARD; } virtual bool is_readable() const override { return 1; } virtual bool is_writeable() const override { return 1; } virtual bool is_creatable() const override { return 0; } virtual bool must_be_loaded() const override { return 0; } virtual bool is_reset_on_load() const override { return 0; } virtual const char *image_interface() const override { return "sm_memc"; } virtual const char *file_extensions() const override { return "smc"; } virtual image_init_result call_load() override; virtual void call_unload() override; virtual const software_list_loader &get_software_list_loader() const override { return image_software_list_loader::instance(); } protected: image_init_result smartmedia_format_1(); image_init_result smartmedia_format_2(); int detect_geometry(uint8_t id1, uint8_t id2); }; // device type definition DECLARE_DEVICE_TYPE(NAND, nand_device) DECLARE_DEVICE_TYPE(SMARTMEDIA, smartmedia_image_device) #endif // MAME_MACHINE_SMARTMEDIA_H