/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved. */ #ifndef _SYS_LOFI_H #define _SYS_LOFI_H #include #include #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* * /dev names: * /dev/lofictl - master control device * /dev/lofi - block devices, named by minor number * /dev/rlofi - character devices, named by minor number */ #define LOFI_DRIVER_NAME "lofi" #define LOFI_CTL_NODE "ctl" #define LOFI_CTL_NAME LOFI_DRIVER_NAME LOFI_CTL_NODE #define LOFI_BLOCK_NAME LOFI_DRIVER_NAME #define LOFI_CHAR_NAME "r" LOFI_DRIVER_NAME #define SEGHDR 1 #define COMPRESSED 1 #define UNCOMPRESSED 0 #define MAXALGLEN 36 /* * * Use is: * ld = open("/dev/lofictl", O_RDWR | O_EXCL); * * lofi must be opened exclusively. Access is controlled by permissions on * the device, which is 644 by default. Write-access is required for ioctls * that change state, but only read-access is required for the ioctls that * return information. Basically, only root can add and remove files, but * non-root can look at the current lists. * * ioctl usage: * * kernel ioctls * * strcpy(li.li_filename, "somefilename"); * ioctl(ld, LOFI_MAP_FILE, &li); * newminor = li.li_minor; * * strcpy(li.li_filename, "somefilename"); * ioctl(ld, LOFI_UNMAP_FILE, &li); * * strcpy(li.li_filename, "somefilename"); * li.li_minor = minor_number; * ioctl(ld, LOFI_MAP_FILE_MINOR, &li); * * li.li_minor = minor_number; * ioctl(ld, LOFI_UNMAP_FILE_MINOR, &li); * * li.li_minor = minor_number; * ioctl(ld, LOFI_GET_FILENAME, &li); * filename = li.li_filename; * encrypted = li.li_crypto_enabled; * * strcpy(li.li_filename, "somefilename"); * ioctl(ld, LOFI_GET_MINOR, &li); * minor = li.li_minor; * * li.li_minor = 0; * ioctl(ld, LOFI_GET_MAXMINOR, &li); * maxminor = li.li_minor; * * strcpy(li.li_filename, "somefilename"); * li.li_minor = 0; * ioctl(ld, LOFI_CHECK_COMPRESSED, &li); * * If the 'li_force' flag is set for any of the LOFI_UNMAP_* commands, then if * the device is busy, the underlying vnode will be closed, and any subsequent * operations will fail. It will behave as if the device had been forcibly * removed, so the DKIOCSTATE ioctl will return DKIO_DEV_GONE. When the device * is last closed, it will be torn down. * * If the 'li_cleanup' flag is set for any of the LOFI_UNMAP_* commands, then * if the device is busy, it is marked for removal at the next time it is * no longer held open by anybody. When the device is last closed, it will be * torn down. * * Oh, and last but not least: these ioctls are totally private and only * for use by lofiadm(1M). * */ typedef enum iv_method { IVM_NONE, /* no iv needed, iv is null */ IVM_ENC_BLKNO /* iv is logical block no. encrypted */ } iv_method_t; struct lofi_ioctl { uint32_t li_minor; boolean_t li_force; boolean_t li_cleanup; char li_filename[MAXPATHLEN]; /* the following fields are required for compression support */ char li_algorithm[MAXALGLEN]; /* the following fields are required for encryption support */ boolean_t li_crypto_enabled; crypto_mech_name_t li_cipher; /* for data */ uint32_t li_key_len; /* for data */ char li_key[56]; /* for data: max 448-bit Blowfish key */ crypto_mech_name_t li_iv_cipher; /* for iv derivation */ uint32_t li_iv_len; /* for iv derivation */ iv_method_t li_iv_type; /* for iv derivation */ }; #define LOFI_IOC_BASE (('L' << 16) | ('F' << 8)) #define LOFI_MAP_FILE (LOFI_IOC_BASE | 0x01) #define LOFI_MAP_FILE_MINOR (LOFI_IOC_BASE | 0x02) #define LOFI_UNMAP_FILE (LOFI_IOC_BASE | 0x03) #define LOFI_UNMAP_FILE_MINOR (LOFI_IOC_BASE | 0x04) #define LOFI_GET_FILENAME (LOFI_IOC_BASE | 0x05) #define LOFI_GET_MINOR (LOFI_IOC_BASE | 0x06) #define LOFI_GET_MAXMINOR (LOFI_IOC_BASE | 0x07) #define LOFI_CHECK_COMPRESSED (LOFI_IOC_BASE | 0x08) /* * file types that might be usable with lofi, maybe. Only regular * files are documented though. */ #define S_ISLOFIABLE(mode) \ (S_ISREG(mode) || S_ISBLK(mode) || S_ISCHR(mode)) #if defined(_KERNEL) /* * Cache decompressed data segments for the compressed lofi images. * * To avoid that we have to decompress data of a compressed * segment multiple times when accessing parts of the segment's * data we cache the uncompressed data, using a simple linked list. */ struct lofi_comp_cache { list_node_t lc_list; /* linked list */ uchar_t *lc_data; /* decompressed segment data */ uint64_t lc_index; /* segment index */ }; /* * We limit the maximum number of active lofi devices to 128, which seems very * large. You can tune this by changing lofi_max_files in /etc/system. * If you change it dynamically, which you probably shouldn't do, make sure * to only _increase_ it. */ #define LOFI_MAX_FILES 128 extern uint32_t lofi_max_files; #define V_ISLOFIABLE(vtype) \ ((vtype == VREG) || (vtype == VBLK) || (vtype == VCHR)) /* * Pre-allocated memory buffers for the purpose of compression */ struct compbuf { void *buf; uint32_t bufsize; int inuse; }; /* * Need exactly 6 bytes to identify encrypted lofi image */ extern const char lofi_crypto_magic[6]; #define LOFI_CRYPTO_MAGIC { 'C', 'F', 'L', 'O', 'F', 'I' } #define LOFI_CRYPTO_VERSION ((uint16_t)0) #define LOFI_CRYPTO_DATA_SECTOR ((uint32_t)16) /* for version 0 */ /* * Crypto metadata for encrypted lofi images * The fields here only satisfy initial implementation requirements. */ struct crypto_meta { char magic[6]; /* LOFI_CRYPTO_MAGIC */ uint16_t version; /* version of encrypted lofi */ char reserved1[96]; /* future use */ uint32_t data_sector; /* start of data area */ char pad[404]; /* end on DEV_BSIZE bdry */ /* second header block is not defined at this time */ }; struct lofi_state { char *ls_filename; /* filename to open */ size_t ls_filename_sz; struct vnode *ls_vp; /* open vnode */ kmutex_t ls_vp_lock; /* protects ls_vp */ kcondvar_t ls_vp_cv; /* signal changes to ls_vp */ uint32_t ls_vp_iocount; /* # pending I/O requests */ boolean_t ls_vp_closereq; /* force close requested */ u_offset_t ls_vp_size; uint32_t ls_blk_open; uint32_t ls_chr_open; uint32_t ls_lyr_open_count; int ls_openflag; boolean_t ls_cleanup; /* cleanup on close */ taskq_t *ls_taskq; kstat_t *ls_kstat; kmutex_t ls_kstat_lock; struct dk_geom ls_dkg; struct vtoc ls_vtoc; struct dk_cinfo ls_ci; /* the following fields are required for compression support */ int ls_comp_algorithm_index; /* idx into compress_table */ char ls_comp_algorithm[MAXALGLEN]; uint32_t ls_uncomp_seg_sz; /* sz of uncompressed segment */ uint32_t ls_comp_index_sz; /* number of index entries */ uint32_t ls_comp_seg_shift; /* exponent for byte shift */ uint32_t ls_uncomp_last_seg_sz; /* sz of last uncomp segment */ uint64_t ls_comp_offbase; /* offset of actual compressed data */ uint64_t *ls_comp_seg_index; /* array of index entries */ caddr_t ls_comp_index_data; /* index pages loaded from file */ uint32_t ls_comp_index_data_sz; u_offset_t ls_vp_comp_size; /* actual compressed file size */ /* pre-allocated list of buffers for compressed segment data */ kmutex_t ls_comp_bufs_lock; struct compbuf *ls_comp_bufs; /* lock and anchor for compressed segment caching */ kmutex_t ls_comp_cache_lock; /* protects ls_comp_cache */ list_t ls_comp_cache; /* cached decompressed segs */ uint32_t ls_comp_cache_count; /* the following fields are required for encryption support */ boolean_t ls_crypto_enabled; u_offset_t ls_crypto_offset; /* crypto meta size */ struct crypto_meta ls_crypto; crypto_mechanism_t ls_mech; /* for data encr/decr */ crypto_key_t ls_key; /* for data encr/decr */ crypto_mechanism_t ls_iv_mech; /* for iv derivation */ size_t ls_iv_len; /* for iv derivation */ iv_method_t ls_iv_type; /* for iv derivation */ kmutex_t ls_crypto_lock; crypto_ctx_template_t ls_ctx_tmpl; }; #endif /* _KERNEL */ /* * Common signature for all lofi compress functions */ typedef int lofi_compress_func_t(void *src, size_t srclen, void *dst, size_t *destlen, int level); /* * Information about each compression function */ typedef struct lofi_compress_info { lofi_compress_func_t *l_decompress; lofi_compress_func_t *l_compress; int l_level; char *l_name; /* algorithm name */ } lofi_compress_info_t; enum lofi_compress { LOFI_COMPRESS_GZIP = 0, LOFI_COMPRESS_GZIP_6 = 1, LOFI_COMPRESS_GZIP_9 = 2, LOFI_COMPRESS_LZMA = 3, LOFI_COMPRESS_FUNCTIONS }; #ifdef __cplusplus } #endif #endif /* _SYS_LOFI_H */