/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2012 Amaury Pouly * * 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 software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef __STMP_SCSI__ #define __STMP_SCSI__ #include #include #include "rbscsi.h" /** * Low-Level SCSI stuff */ #define SCSI_STMP_READ 0xc0 #define SCSI_STMP_WRITE 0xc1 /** STMP: Command */ #define SCSI_STMP_CMD_GET_PROTOCOL_VERSION 0x0 #define SCSI_STMP_CMD_GET_LOGICAL_MEDIA_INFO 0x2 #define SCSI_STMP_CMD_GET_LOGICAL_TABLE 0x5 #define SCSI_STMP_CMD_ALLOCATE_LOGICAL_MEDIA 0x6 #define SCSI_STMP_CMD_ERASE LOGICAL MEDIA 0x7 #define SCSI_STMP_CMD_GET_LOGICAL_DRIVE_INFO 0x12 #define SCSI_STMP_CMD_READ_LOGICAL_DRIVE_SECTOR 0x13 #define SCSI_STMP_CMD_SET_LOGICAL_DRIVE_INFO 0x20 #define SCSI_STMP_CMD_WRITE_LOGICAL_DRIVE_SECTOR 0x23 #define SCSI_STMP_CMD_ERASE_LOGICAL_DRIVE 0x2f #define SCSI_STMP_CMD_GET_CHIP_MAJOR_REV_ID 0x30 #define SCSI_STMP_CMD_CHIP_RESET 0x31 #define SCSI_STMP_CMD_GET_CHIP_SERIAL_NUMBER 0x32 #define SCSI_STMP_CMD_GET_ROM_REV_ID 0x37 #define SCSI_STMP_CMD_GET_JANUS_STATUS 0x40 #define SCSI_STMP_CMD_INITIALIZE_STATUS 0x41 #define SCSI_STMP_CMD_RESET_TO_RECOVERY 0x42 #define SCSI_STMP_CMD_INITIALIZE_DATA_STORE 0x43 #define SCSI_STMP_CMD_RESET_TO_UPDATER 0x44 #define SCSI_STMP_CMD_GET_DEVICE_INFO 0x45 struct scsi_stmp_protocol_version_t { uint8_t major; uint8_t minor; } __attribute__((packed)); struct scsi_stmp_rom_rev_id_t { uint16_t rev; /* big-endian */ } __attribute__((packed)); struct scsi_stmp_chip_major_rev_id_t { uint16_t rev; /* big-endian */ } __attribute__((packed)); struct scsi_stmp_logical_table_entry_t { uint8_t drive_no; uint8_t type; uint8_t tag; uint64_t size; /* big-endian */ } __attribute__((packed)); #define SCSI_STMP_DRIVE_TYPE_USER 0 #define SCSI_STMP_DRIVE_TYPE_SYSTEM 1 #define SCSI_STMP_DRIVE_TYPE_JANUS 2 #define SCSI_STMP_DRIVE_TAG_USER_STORAGE 0xa #define SCSI_STMP_DRIVE_TAG_SYSTEM_BOOT 0x50 struct scsi_stmp_logical_table_header_t { uint16_t count; /* big-endian */ } __attribute__((packed)); #define SCSI_STMP_MEDIA_INFO_NR_DRIVES 0 /** Number of drives (obsolete) */ #define SCSI_STMP_MEDIA_INFO_SIZE 1 /** Total size (bytes) */ #define SCSI_STMP_MEDIA_INFO_ALLOC_UNIT_SIZE 2 /** Allocation unit size (bytes) */ #define SCSI_STMP_MEDIA_INFO_IS_INITIALISED 3 /** Is initialised ? */ #define SCSI_STMP_MEDIA_INFO_STATE 4 /** Media state */ #define SCSI_STMP_MEDIA_INFO_IS_WRITE_PROTECTED 5 /** Is write protected ? */ #define SCSI_STMP_MEDIA_INFO_TYPE 6 /** Physical media type */ #define SCSI_STMP_MEDIA_INFO_SERIAL_NUMBER_SIZE 7 /** Serial number size (bytes) */ #define SCSI_STMP_MEDIA_INFO_SERIAL_NUMBER 8 /** Serial number */ #define SCSI_STMP_MEDIA_INFO_IS_SYSTEM_MEDIA 9 /** Is system media ? */ #define SCSI_STMP_MEDIA_INFO_IS_MEDIA_PRESENT 10 /** Is media present ? */ #define SCSI_STMP_MEDIA_INFO_PAGE_SIZE 11 /** Page size (bytes) */ #define SCSI_STMP_MEDIA_INFO_VENDOR 12 /** Vendor ID */ #define SCSI_STMP_MEDIA_INFO_NAND_ID 13 /** Full NAND ID */ #define SCSI_STMP_MEDIA_INFO_NR_DEVICES 14 /** Number of physical devices */ #define SCSI_STMP_MEDIA_STATE_UNKNOWN 0 #define SCSI_STMP_MEDIA_STATE_ERASED 1 #define SCSI_STMP_MEDIA_STATE_ALLOCATED 2 #define SCSI_STMP_MEDIA_TYPE_NAND 0 #define SCSI_STMP_MEDIA_TYPE_SDMMC 1 #define SCSI_STMP_MEDIA_TYPE_HDD 2 #define SCSI_STMP_MEDIA_TYPE_RAM 3 #define SCSI_STMP_MEDIA_TYPE_iNAND 4 #define SCSI_STMP_MEDIA_VENDOR_SAMSUNG 0xEC #define SCSI_STMP_MEDIA_VENDOR_STMICRO 0x20 #define SCSI_STMP_MEDIA_VENDOR_HYNIX 0xAD #define SCSI_STMP_MEDIA_VENDOR_MICRON 0x2C #define SCSI_STMP_MEDIA_VENDOR_TOSHIBA 0x98 #define SCSI_STMP_MEDIA_VENDOR_RENESAS 0x07 #define SCSI_STMP_MEDIA_VENDOR_SANDISK 0x45 #define SCSI_STMP_MEDIA_VENDOR_INTEL 0x89 struct scsi_stmp_logical_media_info_type_t { uint8_t type; } __attribute__((packed)); struct scsi_stmp_logical_media_info_manufacturer_t { uint32_t type; /* big-endian */ } __attribute__((packed)); #define SCSI_STMP_DRIVE_INFO_SECTOR_SIZE 0 /** Sector Size (bytes) */ #define SCSI_STMP_DRIVE_INFO_ERASE_SIZE 1 /** Erase Size (bytes) */ #define SCSI_STMP_DRIVE_INFO_SIZE 2 /** Total Size (bytes) */ #define SCSI_STMP_DRIVE_INFO_SIZE_MEGA 3 /** Total Size (mega-bytes) */ #define SCSI_STMP_DRIVE_INFO_SECTOR_COUNT 4 /** Sector Count */ #define SCSI_STMP_DRIVE_INFO_TYPE 5 /** Drive Type */ #define SCSI_STMP_DRIVE_INFO_TAG 6 /** Drive Tag */ #define SCSI_STMP_DRIVE_INFO_COMPONENT_VERSION 7 /** Component Version */ #define SCSI_STMP_DRIVE_INFO_PROJECT_VERSION 8 /** Project Version */ #define SCSI_STMP_DRIVE_INFO_IS_WRITE_PROTETED 9 /** Is Write Protected */ #define SCSI_STMP_DRIVE_INFO_SERIAL_NUMBER_SIZE 10 /** Serial Number Size */ #define SCSI_STMP_DRIVE_INFO_SERIAL_NUMBER 11 /** Serial Number */ #define SCSI_STMP_DRIVE_INFO_MEDIA_PRESENT 12 /** Is Media Present */ #define SCSI_STMP_DRIVE_INFO_MEDIA_CHANGE 13 /** Media Change */ #define SCSI_STMP_DRIVE_INFO_SECTOR_ALLOCATION 14 /** Sector Allocation */ #define SCSI_STMP_DRIVE_TYPE_DATA 0 #define SCSI_STMP_DRIVE_TYPE_SYSTEM 1 #define SCSI_STMP_DRIVE_TYPE_HIDDEN 2 #define SCSI_STMP_DRIVE_TYPE_UNKNOWN 3 #define SCSI_STMP_DRIVE_TAG_STMPSYS_S 0x00 /** Player drive */ #define SCSI_STMP_DRIVE_TAG_HOSTLINK_S 0x01 /** USB MSC/MTP drive */ #define SCSI_STMP_DRIVE_TAG_RESOURCE_BIN 0x02 /** Resource drive */ #define SCSI_STMP_DRIVE_TAG_EXTRA_S 0x03 /** Extra system drive */ #define SCSI_STMP_DRIVE_TAG_RESOURCE1_BIN 0x04 /** Extra resource drive */ #define SCSI_STMP_DRIVE_TAG_OTGHOST_S 0x05 /** OTG drive */ #define SCSI_STMP_DRIVE_TAG_HOSTRSC_BIN 0x06 /** USB MSC/MTP resource drive */ #define SCSI_STMP_DRIVE_TAG_DATA 0x0a /** Data drive */ #define SCSI_STMP_DRIVE_TAG_HIDDEN 0x0b /** Hidden data drive */ #define SCSI_STMP_DRIVE_TAG_BOOTMANAGER_S 0x50 /** Boot manager drive */ #define SCSI_STMP_DRIVE_TAG_UPDATER_S 0xff /** Recovery drive */ struct scsi_stmp_logical_drive_info_sector_t { uint32_t size; /* big-endian */ } __attribute__((packed)); struct scsi_stmp_logical_drive_info_count_t { uint64_t count; /* big-endian */ } __attribute__((packed)); struct scsi_stmp_logical_drive_info_size_t { uint64_t size; /* big-endian */ } __attribute__((packed)); struct scsi_stmp_logical_drive_info_type_t { uint8_t type; } __attribute__((packed)); struct scsi_stmp_logical_drive_info_version_t { uint16_t major; uint16_t minor; uint16_t revision; } __attribute__((packed)); struct stmp_device_t; typedef struct stmp_device_t *stmp_device_t; typedef void (*stmp_printf_t)(void *user, const char *fmt, ...); /* open flags */ #define STMP_DEBUG (1 << 0) /* scsi flags */ #define STMP_READ (1 << 1) #define STMP_WRITE (1 << 2) uint16_t stmp_fix_endian16be(uint16_t w); uint32_t stmp_fix_endian32be(uint32_t w); uint64_t stmp_fix_endian64be(uint64_t w); /* returns NULL on error */ stmp_device_t stmp_open(rb_scsi_device_t dev, unsigned flags, void *user, stmp_printf_t printf); void stmp_close(stmp_device_t dev); /* returns <0 on error and status otherwise */ int stmp_scsi(stmp_device_t dev, uint8_t *cdb, int cdb_size, unsigned flags, void *sense, int *sense_size, void *buffer, int *buf_size); /* returns != 0 on error */ int stmp_sense_analysis(stmp_device_t dev, int status, uint8_t *sense, int sense_size); void stmp_printf(rb_scsi_device_t dev, const char *fmt, ...); void stmp_debugf(rb_scsi_device_t dev, const char *fmt, ...); /** * Mid-level API */ /* returns !=0 on error */ int stmp_scsi_inquiry(stmp_device_t dev, uint8_t *dev_type, char vendor[9], char product[17]); int stmp_scsi_get_protocol_version(stmp_device_t dev, void *buf, int *len); int stmp_scsi_get_chip_major_rev_id(stmp_device_t dev, void *buf, int *len); int stmp_scsi_get_rom_rev_id(stmp_device_t dev, void *buf, int *len); int stmp_scsi_read_logical_drive_sectors(stmp_device_t dev, uint8_t drive, uint64_t address, uint32_t count, void *buffer, int *buffer_size); int stmp_scsi_write_logical_drive_sectors(stmp_device_t dev, uint8_t drive, uint64_t address, uint32_t count, void *buffer, int *buffer_size); /* the following functions *DO NOT* fix the endianness of the structures */ int stmp_scsi_get_logical_table(stmp_device_t dev, int entry_count, void *buf, int *len); int stmp_scsi_get_serial_number(stmp_device_t dev, uint8_t info, void *data, int *len); int stmp_scsi_get_logical_media_info(stmp_device_t dev, uint8_t info, void *data, int *len); int stmp_scsi_get_logical_drive_info(stmp_device_t dev, uint8_t drive, uint8_t info, void *data, int *len); int stmp_scsi_get_device_info(stmp_device_t dev, uint8_t info, void *data, int *len); /* these helper functions fix the endianness for the previous calls, or returns != 0 * if they don't know about this info or the size doesn't match */ int stmp_fix_logical_media_info(uint8_t info, void *data, int len); int stmp_fix_logical_drive_info(uint8_t info, void *data, int len); int stmp_fix_device_info(uint8_t info, void *data, int len); /** * High-Level API */ struct stmp_logical_media_table_t { struct scsi_stmp_logical_table_header_t header; struct scsi_stmp_logical_table_entry_t entry[]; }__attribute__((packed)) table; struct stmp_logical_media_info_t { struct { bool nr_drives; bool size; bool alloc_size; bool initialised; bool state; bool write_protected; bool type; bool serial_len; bool serial; bool system; bool present; bool page_size; bool vendor; bool nand_id; bool nr_devices; }has; uint16_t nr_drives; uint64_t size; uint32_t alloc_size; uint8_t initialised; uint8_t state; uint8_t write_protected; uint8_t type; uint32_t serial_len; uint8_t *serial; /* must be released with free() */ uint8_t system; uint8_t present; uint32_t page_size; uint32_t vendor; uint8_t nand_id[6]; uint32_t nr_devices; }; #define SCSI_STMP_DRIVE_INFO_SECTOR_SIZE 0 /** Sector Size (bytes) */ #define SCSI_STMP_DRIVE_INFO_ERASE_SIZE 1 /** Erase Size (bytes) */ #define SCSI_STMP_DRIVE_INFO_SIZE 2 /** Total Size (bytes) */ #define SCSI_STMP_DRIVE_INFO_SIZE_MEGA 3 /** Total Size (mega-bytes) */ #define SCSI_STMP_DRIVE_INFO_SECTOR_COUNT 4 /** Sector Count */ #define SCSI_STMP_DRIVE_INFO_TYPE 5 /** Drive Type */ #define SCSI_STMP_DRIVE_INFO_TAG 6 /** Drive Tag */ #define SCSI_STMP_DRIVE_INFO_COMPONENT_VERSION 7 /** Component Version */ #define SCSI_STMP_DRIVE_INFO_PROJECT_VERSION 8 /** Project Version */ #define SCSI_STMP_DRIVE_INFO_IS_WRITE_PROTECTED 9 /** Is Write Protected */ #define SCSI_STMP_DRIVE_INFO_SERIAL_NUMBER_SIZE 10 /** Serial Number Size */ #define SCSI_STMP_DRIVE_INFO_SERIAL_NUMBER 11 /** Serial Number */ #define SCSI_STMP_DRIVE_INFO_MEDIA_PRESENT 12 /** Is Media Present */ #define SCSI_STMP_DRIVE_INFO_MEDIA_CHANGE 13 /** Media Change */ #define SCSI_STMP_DRIVE_INFO_SECTOR_ALLOCATION 14 /** Sector Allocation */ struct stmp_logical_drive_info_t { struct { bool sector_size; bool erase_size; bool size; bool sector_count; bool type; bool tag; bool component_version; bool project_version; bool write_protected; bool serial_len; bool serial; bool present; bool change; bool sector_alloc; }has; uint32_t sector_size; uint32_t erase_size; uint64_t size; uint64_t sector_count; uint32_t type; uint8_t tag; struct scsi_stmp_logical_drive_info_version_t component_version; struct scsi_stmp_logical_drive_info_version_t project_version; uint8_t write_protected; uint32_t serial_len; uint8_t *serial; uint8_t present; uint8_t change; uint32_t sector_alloc; }; int stmp_get_protocol_version(stmp_device_t dev, struct scsi_stmp_protocol_version_t *ver); int stmp_get_chip_major_rev_id(stmp_device_t dev, uint16_t *ver); int stmp_get_rom_rev_id(stmp_device_t dev, uint16_t *ver); /* return 0 on success, buffers must be released with free() */ int stmp_get_device_serial(stmp_device_t dev, uint8_t **buffer, int *len); int stmp_get_logical_media_info(stmp_device_t dev, struct stmp_logical_media_info_t *info); int stmp_get_logical_media_table(stmp_device_t dev, struct stmp_logical_media_table_t **table); int stmp_get_logical_drive_info(stmp_device_t dev, uint8_t drive, struct stmp_logical_drive_info_t *info); int stmp_read_logical_drive_sectors(stmp_device_t dev, uint8_t drive, uint64_t address, uint32_t count, void *buffer, int buffer_size); int stmp_write_logical_drive_sectors(stmp_device_t dev, uint8_t drive, uint64_t address, uint32_t count, void *buffer, int buffer_size); /* return <0 on error, or firmware size in bytes otherwise, * if not NULL, the read/write function will be called as many times as needed to provide * the entire firmware, it should return number of bytes read/written on success or -1 on error * in all cases, the total size of the firmware is based on the header * if NULL for read, return firmware size */ typedef int (*stmp_fw_rw_fn_t)(void *user, void *buf, size_t size); int stmp_read_firmware(stmp_device_t dev, void *user, stmp_fw_rw_fn_t fn); int stmp_write_firmware(stmp_device_t dev, void *user, stmp_fw_rw_fn_t fn); /* string helpers */ const char *stmp_get_logical_media_type_string(uint32_t type); const char *stmp_get_logical_media_vendor_string(uint32_t type); const char *stmp_get_logical_drive_type_string(uint32_t type); const char *stmp_get_logical_drive_tag_string(uint32_t type); const char *stmp_get_logical_media_state_string(uint8_t state); #endif /* __STMP_SCSI__ */