/* * Copyright (c) 2008-2018 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ #if !FS_COMPRESSION /* We need these symbols even though compression is turned off */ #define UNUSED_SYMBOL(x) asm(".global _" #x "\n.set _" #x ", 0\n"); UNUSED_SYMBOL(register_decmpfs_decompressor) UNUSED_SYMBOL(unregister_decmpfs_decompressor) UNUSED_SYMBOL(decmpfs_init) UNUSED_SYMBOL(decmpfs_read_compressed) UNUSED_SYMBOL(decmpfs_cnode_cmp_type) UNUSED_SYMBOL(decmpfs_cnode_get_vnode_state) UNUSED_SYMBOL(decmpfs_cnode_get_vnode_cached_size) UNUSED_SYMBOL(decmpfs_cnode_get_vnode_cached_nchildren) UNUSED_SYMBOL(decmpfs_cnode_get_vnode_cached_total_size) UNUSED_SYMBOL(decmpfs_lock_compressed_data) UNUSED_SYMBOL(decmpfs_cnode_free) UNUSED_SYMBOL(decmpfs_cnode_alloc) UNUSED_SYMBOL(decmpfs_cnode_destroy) UNUSED_SYMBOL(decmpfs_decompress_file) UNUSED_SYMBOL(decmpfs_unlock_compressed_data) UNUSED_SYMBOL(decmpfs_cnode_init) UNUSED_SYMBOL(decmpfs_cnode_set_vnode_state) UNUSED_SYMBOL(decmpfs_hides_xattr) UNUSED_SYMBOL(decmpfs_ctx) UNUSED_SYMBOL(decmpfs_file_is_compressed) UNUSED_SYMBOL(decmpfs_update_attributes) UNUSED_SYMBOL(decmpfs_hides_rsrc) UNUSED_SYMBOL(decmpfs_pagein_compressed) UNUSED_SYMBOL(decmpfs_validate_compressed_file) #else /* FS_COMPRESSION */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #pragma mark --- debugging --- #define COMPRESSION_DEBUG 0 #define COMPRESSION_DEBUG_VERBOSE 0 #define MALLOC_DEBUG 0 #if COMPRESSION_DEBUG static char* vnpath(vnode_t vp, char *path, int len) { int origlen = len; path[0] = 0; vn_getpath(vp, path, &len); path[origlen - 1] = 0; return path; } #endif #define ErrorLog(x, args...) \ printf("%s:%d:%s: " x, __FILE_NAME__, __LINE__, __FUNCTION__, ## args) #if COMPRESSION_DEBUG #define ErrorLogWithPath(x, args...) do { \ char *path = zalloc(ZV_NAMEI); \ printf("%s:%d:%s: %s: " x, __FILE_NAME__, __LINE__, __FUNCTION__, \ vnpath(vp, path, PATH_MAX), ## args); \ zfree(ZV_NAMEI, path); \ } while(0) #else #define ErrorLogWithPath(x, args...) do { \ (void*)vp; \ printf("%s:%d:%s: %s: " x, __FILE_NAME__, __LINE__, __FUNCTION__, \ "", ## args); \ } while(0) #endif #if COMPRESSION_DEBUG #define DebugLog ErrorLog #define DebugLogWithPath ErrorLogWithPath #else #define DebugLog(x...) do { } while(0) #define DebugLogWithPath(x...) do { } while(0) #endif #if COMPRESSION_DEBUG_VERBOSE #define VerboseLog ErrorLog #define VerboseLogWithPath ErrorLogWithPath #else #define VerboseLog(x...) do { } while(0) #define VerboseLogWithPath(x...) do { } while(0) #endif #define decmpfs_ktriage_record(code, arg) ktriage_record(thread_tid(current_thread()), KDBG_TRIAGE_EVENTID(KDBG_TRIAGE_SUBSYS_DECMPFS, KDBG_TRIAGE_RESERVED, code), arg); enum ktriage_decmpfs_error_codes { KTRIAGE_DECMPFS_PREFIX = 0, KTRIAGE_DECMPFS_IVALID_OFFSET, KTRIAGE_DECMPFS_COMPRESSOR_NOT_REGISTERED, KTRIAGE_DECMPFS_FETCH_CALLBACK_FAILED, KTRIAGE_DECMPFS_FETCH_HEADER_FAILED, KTRIAGE_DECMPFS_UBC_UPL_MAP_FAILED, KTRIAGE_DECMPFS_FETCH_UNCOMPRESSED_DATA_FAILED, KTRIAGE_DECMPFS_MAX }; const char *ktriage_decmpfs_strings[] = { [KTRIAGE_DECMPFS_PREFIX] = "decmpfs - ", [KTRIAGE_DECMPFS_IVALID_OFFSET] = "pagein offset is invalid\n", [KTRIAGE_DECMPFS_COMPRESSOR_NOT_REGISTERED] = "compressor is not registered\n", [KTRIAGE_DECMPFS_FETCH_CALLBACK_FAILED] = "fetch callback failed\n", [KTRIAGE_DECMPFS_FETCH_HEADER_FAILED] = "fetch decmpfs xattr failed\n", [KTRIAGE_DECMPFS_UBC_UPL_MAP_FAILED] = "failed to map a UBC UPL\n", [KTRIAGE_DECMPFS_FETCH_UNCOMPRESSED_DATA_FAILED] = "failed to fetch uncompressed data\n", }; ktriage_strings_t ktriage_decmpfs_subsystem_strings = {KTRIAGE_DECMPFS_MAX, ktriage_decmpfs_strings}; #pragma mark --- globals --- static LCK_GRP_DECLARE(decmpfs_lockgrp, "VFSCOMP"); static LCK_RW_DECLARE(decompressorsLock, &decmpfs_lockgrp); static LCK_MTX_DECLARE(decompress_channel_mtx, &decmpfs_lockgrp); static const decmpfs_registration *decompressors[CMP_MAX]; /* the registered compressors */ static int decompress_channel; /* channel used by decompress_file to wake up waiters */ vfs_context_t decmpfs_ctx; #pragma mark --- decmp_get_func --- #define offsetof_func(func) ((uintptr_t)offsetof(decmpfs_registration, func)) static void * _func_from_offset(uint32_t type, uintptr_t offset, uint32_t discriminator) { /* get the function at the given offset in the registration for the given type */ const decmpfs_registration *reg = decompressors[type]; switch (reg->decmpfs_registration) { case DECMPFS_REGISTRATION_VERSION_V1: if (offset > offsetof_func(free_data)) { return NULL; } break; case DECMPFS_REGISTRATION_VERSION_V3: if (offset > offsetof_func(get_flags)) { return NULL; } break; default: return NULL; } void *ptr = *(void * const *)((uintptr_t)reg + offset); if (ptr != NULL) { /* Resign as a function-in-void* */ ptr = ptrauth_auth_and_resign(ptr, ptrauth_key_asia, discriminator, ptrauth_key_asia, 0); } return ptr; } extern void IOServicePublishResource( const char * property, boolean_t value ); extern boolean_t IOServiceWaitForMatchingResource( const char * property, uint64_t timeout ); extern boolean_t IOCatalogueMatchingDriversPresent( const char * property ); static void * _decmp_get_func(vnode_t vp, uint32_t type, uintptr_t offset, uint32_t discriminator) { /* * this function should be called while holding a shared lock to decompressorsLock, * and will return with the lock held */ if (type >= CMP_MAX) { return NULL; } if (decompressors[type] != NULL) { // the compressor has already registered but the function might be null return _func_from_offset(type, offset, discriminator); } // does IOKit know about a kext that is supposed to provide this type? char providesName[80]; snprintf(providesName, sizeof(providesName), "com.apple.AppleFSCompression.providesType%u", type); if (IOCatalogueMatchingDriversPresent(providesName)) { // there is a kext that says it will register for this type, so let's wait for it char resourceName[80]; uint64_t delay = 10000000ULL; // 10 milliseconds. snprintf(resourceName, sizeof(resourceName), "com.apple.AppleFSCompression.Type%u", type); ErrorLogWithPath("waiting for %s\n", resourceName); while (decompressors[type] == NULL) { lck_rw_unlock_shared(&decompressorsLock); // we have to unlock to allow the kext to register if (IOServiceWaitForMatchingResource(resourceName, delay)) { lck_rw_lock_shared(&decompressorsLock); break; } if (!IOCatalogueMatchingDriversPresent(providesName)) { // ErrorLogWithPath("the kext with %s is no longer present\n", providesName); lck_rw_lock_shared(&decompressorsLock); break; } ErrorLogWithPath("still waiting for %s\n", resourceName); delay *= 2; lck_rw_lock_shared(&decompressorsLock); } // IOKit says the kext is loaded, so it should be registered too! if (decompressors[type] == NULL) { ErrorLogWithPath("we found %s, but the type still isn't registered\n", providesName); return NULL; } // it's now registered, so let's return the function return _func_from_offset(type, offset, discriminator); } // the compressor hasn't registered, so it never will unless someone manually kextloads it ErrorLogWithPath("tried to access a compressed file of unregistered type %d\n", type); return NULL; } #define decmp_get_func(vp, type, func) (typeof(decompressors[0]->func))_decmp_get_func(vp, type, offsetof_func(func), ptrauth_function_pointer_type_discriminator(typeof(decompressors[0]->func))) #pragma mark --- utilities --- #if COMPRESSION_DEBUG static int vnsize(vnode_t vp, uint64_t *size) { struct vnode_attr va; VATTR_INIT(&va); VATTR_WANTED(&va, va_data_size); int error = vnode_getattr(vp, &va, decmpfs_ctx); if (error != 0) { ErrorLogWithPath("vnode_getattr err %d\n", error); return error; } *size = va.va_data_size; return 0; } #endif /* COMPRESSION_DEBUG */ #pragma mark --- cnode routines --- ZONE_DEFINE(decmpfs_cnode_zone, "decmpfs_cnode", sizeof(struct decmpfs_cnode), ZC_NONE); decmpfs_cnode * decmpfs_cnode_alloc(void) { return zalloc(decmpfs_cnode_zone); } void decmpfs_cnode_free(decmpfs_cnode *dp) { zfree(decmpfs_cnode_zone, dp); } void decmpfs_cnode_init(decmpfs_cnode *cp) { memset(cp, 0, sizeof(*cp)); lck_rw_init(&cp->compressed_data_lock, &decmpfs_lockgrp, NULL); } void decmpfs_cnode_destroy(decmpfs_cnode *cp) { lck_rw_destroy(&cp->compressed_data_lock, &decmpfs_lockgrp); } bool decmpfs_trylock_compressed_data(decmpfs_cnode *cp, int exclusive) { void *thread = current_thread(); bool retval = false; if (cp->lockowner == thread) { /* this thread is already holding an exclusive lock, so bump the count */ cp->lockcount++; retval = true; } else if (exclusive) { if ((retval = lck_rw_try_lock_exclusive(&cp->compressed_data_lock))) { cp->lockowner = thread; cp->lockcount = 1; } } else { if ((retval = lck_rw_try_lock_shared(&cp->compressed_data_lock))) { cp->lockowner = (void *)-1; } } return retval; } void decmpfs_lock_compressed_data(decmpfs_cnode *cp, int exclusive) { void *thread = current_thread(); if (cp->lockowner == thread) { /* this thread is already holding an exclusive lock, so bump the count */ cp->lockcount++; } else if (exclusive) { lck_rw_lock_exclusive(&cp->compressed_data_lock); cp->lockowner = thread; cp->lockcount = 1; } else { lck_rw_lock_shared(&cp->compressed_data_lock); cp->lockowner = (void *)-1; } } void decmpfs_unlock_compressed_data(decmpfs_cnode *cp, __unused int exclusive) { void *thread = current_thread(); if (cp->lockowner == thread) { /* this thread is holding an exclusive lock, so decrement the count */ if ((--cp->lockcount) > 0) { /* the caller still has outstanding locks, so we're done */ return; } cp->lockowner = NULL; } lck_rw_done(&cp->compressed_data_lock); } uint32_t decmpfs_cnode_get_vnode_state(decmpfs_cnode *cp) { return cp->cmp_state; } void decmpfs_cnode_set_vnode_state(decmpfs_cnode *cp, uint32_t state, int skiplock) { if (!skiplock) { decmpfs_lock_compressed_data(cp, 1); } cp->cmp_state = (uint8_t)state; if (state == FILE_TYPE_UNKNOWN) { /* clear out the compression type too */ cp->cmp_type = 0; } if (!skiplock) { decmpfs_unlock_compressed_data(cp, 1); } } static void decmpfs_cnode_set_vnode_cmp_type(decmpfs_cnode *cp, uint32_t cmp_type, int skiplock) { if (!skiplock) { decmpfs_lock_compressed_data(cp, 1); } cp->cmp_type = cmp_type; if (!skiplock) { decmpfs_unlock_compressed_data(cp, 1); } } static void decmpfs_cnode_set_vnode_minimal_xattr(decmpfs_cnode *cp, int minimal_xattr, int skiplock) { if (!skiplock) { decmpfs_lock_compressed_data(cp, 1); } cp->cmp_minimal_xattr = !!minimal_xattr; if (!skiplock) { decmpfs_unlock_compressed_data(cp, 1); } } uint64_t decmpfs_cnode_get_vnode_cached_size(decmpfs_cnode *cp) { return cp->uncompressed_size; } uint64_t decmpfs_cnode_get_vnode_cached_nchildren(decmpfs_cnode *cp) { return cp->nchildren; } uint64_t decmpfs_cnode_get_vnode_cached_total_size(decmpfs_cnode *cp) { return cp->total_size; } void decmpfs_cnode_set_vnode_cached_size(decmpfs_cnode *cp, uint64_t size) { while (1) { uint64_t old = cp->uncompressed_size; if (OSCompareAndSwap64(old, size, (UInt64*)&cp->uncompressed_size)) { return; } else { /* failed to write our value, so loop */ } } } void decmpfs_cnode_set_vnode_cached_nchildren(decmpfs_cnode *cp, uint64_t nchildren) { while (1) { uint64_t old = cp->nchildren; if (OSCompareAndSwap64(old, nchildren, (UInt64*)&cp->nchildren)) { return; } else { /* failed to write our value, so loop */ } } } void decmpfs_cnode_set_vnode_cached_total_size(decmpfs_cnode *cp, uint64_t total_sz) { while (1) { uint64_t old = cp->total_size; if (OSCompareAndSwap64(old, total_sz, (UInt64*)&cp->total_size)) { return; } else { /* failed to write our value, so loop */ } } } static uint64_t decmpfs_cnode_get_decompression_flags(decmpfs_cnode *cp) { return cp->decompression_flags; } static void decmpfs_cnode_set_decompression_flags(decmpfs_cnode *cp, uint64_t flags) { while (1) { uint64_t old = cp->decompression_flags; if (OSCompareAndSwap64(old, flags, (UInt64*)&cp->decompression_flags)) { return; } else { /* failed to write our value, so loop */ } } } uint32_t decmpfs_cnode_cmp_type(decmpfs_cnode *cp) { return cp->cmp_type; } #pragma mark --- decmpfs state routines --- static int decmpfs_fetch_compressed_header(vnode_t vp, decmpfs_cnode *cp, decmpfs_header **hdrOut, int returnInvalid, size_t *hdr_size) { /* * fetches vp's compression xattr, converting it into a decmpfs_header; returns 0 or errno * if returnInvalid == 1, returns the header even if the type was invalid (out of range), * and return ERANGE in that case */ size_t read_size = 0; size_t attr_size = 0; size_t alloc_size = 0; uio_t attr_uio = NULL; int err = 0; char *data = NULL; const bool no_additional_data = ((cp != NULL) && (cp->cmp_type != 0) && (cp->cmp_minimal_xattr != 0)); UIO_STACKBUF(uio_buf, 1); decmpfs_header *hdr = NULL; /* * Trace the following parameters on entry with event-id 0x03120004 * * @vp->v_id: vnode-id for which to fetch compressed header. * @no_additional_data: If set true then xattr didn't have any extra data. * @returnInvalid: return the header even though the type is out of range. */ DECMPFS_EMIT_TRACE_ENTRY(DECMPDBG_FETCH_COMPRESSED_HEADER, vp->v_id, no_additional_data, returnInvalid); if (no_additional_data) { /* this file's xattr didn't have any extra data when we fetched it, so we can synthesize a header from the data in the cnode */ alloc_size = sizeof(decmpfs_header); data = kalloc_data(sizeof(decmpfs_header), Z_WAITOK); if (!data) { err = ENOMEM; goto out; } hdr = (decmpfs_header*)data; hdr->attr_size = sizeof(decmpfs_disk_header); hdr->compression_magic = DECMPFS_MAGIC; hdr->compression_type = cp->cmp_type; if (hdr->compression_type == DATALESS_PKG_CMPFS_TYPE) { if (!vnode_isdir(vp)) { err = EINVAL; goto out; } hdr->_size.value = DECMPFS_PKG_VALUE_FROM_SIZE_COUNT( decmpfs_cnode_get_vnode_cached_size(cp), decmpfs_cnode_get_vnode_cached_nchildren(cp)); } else if (vnode_isdir(vp)) { hdr->_size.value = decmpfs_cnode_get_vnode_cached_nchildren(cp); } else { hdr->_size.value = decmpfs_cnode_get_vnode_cached_size(cp); } } else { /* figure out how big the xattr is on disk */ err = vn_getxattr(vp, DECMPFS_XATTR_NAME, NULL, &attr_size, XATTR_NOSECURITY, decmpfs_ctx); if (err != 0) { goto out; } alloc_size = attr_size + sizeof(hdr->attr_size); if (attr_size < sizeof(decmpfs_disk_header) || attr_size > MAX_DECMPFS_XATTR_SIZE) { err = EINVAL; goto out; } /* allocation includes space for the extra attr_size field of a compressed_header */ data = (char *)kalloc_data(alloc_size, Z_WAITOK); if (!data) { err = ENOMEM; goto out; } /* read the xattr into our buffer, skipping over the attr_size field at the beginning */ attr_uio = uio_createwithbuffer(1, 0, UIO_SYSSPACE, UIO_READ, &uio_buf[0], sizeof(uio_buf)); uio_addiov(attr_uio, CAST_USER_ADDR_T(data + sizeof(hdr->attr_size)), attr_size); err = vn_getxattr(vp, DECMPFS_XATTR_NAME, attr_uio, &read_size, XATTR_NOSECURITY, decmpfs_ctx); if (err != 0) { goto out; } if (read_size != attr_size) { err = EINVAL; goto out; } hdr = (decmpfs_header*)data; hdr->attr_size = (uint32_t)attr_size; /* swap the fields to native endian */ hdr->compression_magic = OSSwapLittleToHostInt32(hdr->compression_magic); hdr->compression_type = OSSwapLittleToHostInt32(hdr->compression_type); hdr->uncompressed_size = OSSwapLittleToHostInt64(hdr->uncompressed_size); } if (hdr->compression_magic != DECMPFS_MAGIC) { ErrorLogWithPath("invalid compression_magic 0x%08x, should be 0x%08x\n", hdr->compression_magic, DECMPFS_MAGIC); err = EINVAL; goto out; } /* * Special-case the DATALESS compressor here; that is a valid type, * even through there will never be an entry in the decompressor * handler table for it. If we don't do this, then the cmp_state * for this cnode will end up being marked NOT_COMPRESSED, and * we'll be stuck in limbo. */ if (hdr->compression_type >= CMP_MAX && !decmpfs_type_is_dataless(hdr->compression_type)) { if (returnInvalid) { /* return the header even though the type is out of range */ err = ERANGE; } else { ErrorLogWithPath("compression_type %d out of range\n", hdr->compression_type); err = EINVAL; } goto out; } out: if (err && (err != ERANGE)) { DebugLogWithPath("err %d\n", err); kfree_data(data, alloc_size); *hdrOut = NULL; } else { *hdrOut = hdr; *hdr_size = alloc_size; } /* * Trace the following parameters on return with event-id 0x03120004. * * @vp->v_id: vnode-id for which to fetch compressed header. * @err: value returned from this function. */ DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_FETCH_COMPRESSED_HEADER, vp->v_id, err); return err; } static int decmpfs_fast_get_state(decmpfs_cnode *cp) { /* * return the cached state * this should *only* be called when we know that decmpfs_file_is_compressed has already been called, * because this implies that the cached state is valid */ int cmp_state = decmpfs_cnode_get_vnode_state(cp); switch (cmp_state) { case FILE_IS_NOT_COMPRESSED: case FILE_IS_COMPRESSED: case FILE_IS_CONVERTING: return cmp_state; case FILE_TYPE_UNKNOWN: /* * we should only get here if decmpfs_file_is_compressed was not called earlier on this vnode, * which should not be possible */ ErrorLog("decmpfs_fast_get_state called on unknown file\n"); return FILE_IS_NOT_COMPRESSED; default: /* */ ErrorLog("unknown cmp_state %d\n", cmp_state); return FILE_IS_NOT_COMPRESSED; } } static int decmpfs_fast_file_is_compressed(decmpfs_cnode *cp) { int cmp_state = decmpfs_cnode_get_vnode_state(cp); switch (cmp_state) { case FILE_IS_NOT_COMPRESSED: return 0; case FILE_IS_COMPRESSED: case FILE_IS_CONVERTING: return 1; case FILE_TYPE_UNKNOWN: /* * we should only get here if decmpfs_file_is_compressed was not called earlier on this vnode, * which should not be possible */ ErrorLog("decmpfs_fast_get_state called on unknown file\n"); return 0; default: /* */ ErrorLog("unknown cmp_state %d\n", cmp_state); return 0; } } errno_t decmpfs_validate_compressed_file(vnode_t vp, decmpfs_cnode *cp) { /* give a compressor a chance to indicate that a compressed file is invalid */ decmpfs_header *hdr = NULL; size_t alloc_size = 0; errno_t err = decmpfs_fetch_compressed_header(vp, cp, &hdr, 0, &alloc_size); if (err) { /* we couldn't get the header */ if (decmpfs_fast_get_state(cp) == FILE_IS_NOT_COMPRESSED) { /* the file is no longer compressed, so return success */ err = 0; } goto out; } if (!decmpfs_type_is_dataless(hdr->compression_type)) { lck_rw_lock_shared(&decompressorsLock); decmpfs_validate_compressed_file_func validate = decmp_get_func(vp, hdr->compression_type, validate); if (validate) { /* make sure this validation function is valid */ /* is the data okay? */ err = validate(vp, decmpfs_ctx, hdr); } else if (decmp_get_func(vp, hdr->compression_type, fetch) == NULL) { /* the type isn't registered */ err = EIO; } else { /* no validate registered, so nothing to do */ err = 0; } lck_rw_unlock_shared(&decompressorsLock); } out: if (hdr != NULL) { kfree_data(hdr, alloc_size); } #if COMPRESSION_DEBUG if (err) { DebugLogWithPath("decmpfs_validate_compressed_file ret %d, vp->v_flag %d\n", err, vp->v_flag); } #endif return err; } int decmpfs_file_is_compressed(vnode_t vp, decmpfs_cnode *cp) { /* * determines whether vp points to a compressed file * * to speed up this operation, we cache the result in the cnode, and do as little as possible * in the case where the cnode already has a valid cached state * */ int ret = 0; int error = 0; uint32_t cmp_state; struct vnode_attr va_fetch; decmpfs_header *hdr = NULL; size_t alloc_size = 0; mount_t mp = NULL; int cnode_locked = 0; int saveInvalid = 0; // save the header data even though the type was out of range uint64_t decompression_flags = 0; bool is_mounted, is_local_fs; if (vnode_isnamedstream(vp)) { /* * named streams can't be compressed * since named streams of the same file share the same cnode, * we don't want to get/set the state in the cnode, just return 0 */ return 0; } /* examine the cached a state in this cnode */ cmp_state = decmpfs_cnode_get_vnode_state(cp); switch (cmp_state) { case FILE_IS_NOT_COMPRESSED: return 0; case FILE_IS_COMPRESSED: return 1; case FILE_IS_CONVERTING: /* treat the file as compressed, because this gives us a way to block future reads until decompression is done */ return 1; case FILE_TYPE_UNKNOWN: /* the first time we encountered this vnode, so we need to check it out */ break; default: /* unknown state, assume file is not compressed */ ErrorLogWithPath("unknown cmp_state %d\n", cmp_state); return 0; } is_mounted = false; is_local_fs = false; mp = vnode_mount(vp); if (mp) { is_mounted = true; } if (is_mounted) { is_local_fs = ((mp->mnt_flag & MNT_LOCAL)); } /* * Trace the following parameters on entry with event-id 0x03120014. * * @vp->v_id: vnode-id of the file being queried. * @is_mounted: set to true if @vp belongs to a mounted fs. * @is_local_fs: set to true if @vp belongs to local fs. */ DECMPFS_EMIT_TRACE_ENTRY(DECMPDBG_FILE_IS_COMPRESSED, vp->v_id, is_mounted, is_local_fs); if (!is_mounted) { /* * this should only be true before we mount the root filesystem * we short-cut this return to avoid the call to getattr below, which * will fail before root is mounted */ ret = FILE_IS_NOT_COMPRESSED; goto done; } if (!is_local_fs) { /* compression only supported on local filesystems */ ret = FILE_IS_NOT_COMPRESSED; goto done; } /* lock our cnode data so that another caller doesn't change the state under us */ decmpfs_lock_compressed_data(cp, 1); cnode_locked = 1; VATTR_INIT(&va_fetch); VATTR_WANTED(&va_fetch, va_flags); error = vnode_getattr(vp, &va_fetch, decmpfs_ctx); if (error) { /* failed to get the bsd flags so the file is not compressed */ ret = FILE_IS_NOT_COMPRESSED; goto done; } if (va_fetch.va_flags & UF_COMPRESSED) { /* UF_COMPRESSED is on, make sure the file has the DECMPFS_XATTR_NAME xattr */ error = decmpfs_fetch_compressed_header(vp, cp, &hdr, 1, &alloc_size); if ((hdr != NULL) && (error == ERANGE)) { saveInvalid = 1; } if (error) { /* failed to get the xattr so the file is not compressed */ ret = FILE_IS_NOT_COMPRESSED; goto done; } /* * We got the xattr, so the file is at least tagged compressed. * For DATALESS, regular files and directories can be "compressed". * For all other types, only files are allowed. */ if (!vnode_isreg(vp) && !(decmpfs_type_is_dataless(hdr->compression_type) && vnode_isdir(vp))) { ret = FILE_IS_NOT_COMPRESSED; goto done; } ret = FILE_IS_COMPRESSED; goto done; } /* UF_COMPRESSED isn't on, so the file isn't compressed */ ret = FILE_IS_NOT_COMPRESSED; done: if (((ret == FILE_IS_COMPRESSED) || saveInvalid) && hdr) { /* * cache the uncompressed size away in the cnode */ if (!cnode_locked) { /* * we should never get here since the only place ret is set to FILE_IS_COMPRESSED * is after the call to decmpfs_lock_compressed_data above */ decmpfs_lock_compressed_data(cp, 1); cnode_locked = 1; } if (vnode_isdir(vp)) { decmpfs_cnode_set_vnode_cached_size(cp, 64); decmpfs_cnode_set_vnode_cached_nchildren(cp, decmpfs_get_directory_entries(hdr)); if (hdr->compression_type == DATALESS_PKG_CMPFS_TYPE) { decmpfs_cnode_set_vnode_cached_total_size(cp, DECMPFS_PKG_SIZE(hdr->_size)); } } else { decmpfs_cnode_set_vnode_cached_size(cp, hdr->uncompressed_size); } decmpfs_cnode_set_vnode_state(cp, ret, 1); decmpfs_cnode_set_vnode_cmp_type(cp, hdr->compression_type, 1); /* remember if the xattr's size was equal to the minimal xattr */ if (hdr->attr_size == sizeof(decmpfs_disk_header)) { decmpfs_cnode_set_vnode_minimal_xattr(cp, 1, 1); } if (ret == FILE_IS_COMPRESSED) { /* update the ubc's size for this file */ ubc_setsize(vp, hdr->uncompressed_size); /* update the decompression flags in the decmpfs cnode */ lck_rw_lock_shared(&decompressorsLock); decmpfs_get_decompression_flags_func get_flags = decmp_get_func(vp, hdr->compression_type, get_flags); if (get_flags) { decompression_flags = get_flags(vp, decmpfs_ctx, hdr); } lck_rw_unlock_shared(&decompressorsLock); decmpfs_cnode_set_decompression_flags(cp, decompression_flags); } } else { /* we might have already taken the lock above; if so, skip taking it again by passing cnode_locked as the skiplock parameter */ decmpfs_cnode_set_vnode_state(cp, ret, cnode_locked); } if (cnode_locked) { decmpfs_unlock_compressed_data(cp, 1); } if (hdr != NULL) { kfree_data(hdr, alloc_size); } /* * Trace the following parameters on return with event-id 0x03120014. * * @vp->v_id: vnode-id of the file being queried. * @return: set to 1 is file is compressed. */ switch (ret) { case FILE_IS_NOT_COMPRESSED: DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_FILE_IS_COMPRESSED, vp->v_id, 0); return 0; case FILE_IS_COMPRESSED: case FILE_IS_CONVERTING: DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_FILE_IS_COMPRESSED, vp->v_id, 1); return 1; default: /* unknown state, assume file is not compressed */ DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_FILE_IS_COMPRESSED, vp->v_id, 0); ErrorLogWithPath("unknown ret %d\n", ret); return 0; } } int decmpfs_update_attributes(vnode_t vp, struct vnode_attr *vap) { int error = 0; if (VATTR_IS_ACTIVE(vap, va_flags)) { /* the BSD flags are being updated */ if (vap->va_flags & UF_COMPRESSED) { /* the compressed bit is being set, did it change? */ struct vnode_attr va_fetch; int old_flags = 0; VATTR_INIT(&va_fetch); VATTR_WANTED(&va_fetch, va_flags); error = vnode_getattr(vp, &va_fetch, decmpfs_ctx); if (error) { return error; } old_flags = va_fetch.va_flags; if (!(old_flags & UF_COMPRESSED)) { /* * Compression bit was turned on, make sure the file has the DECMPFS_XATTR_NAME attribute. * This precludes anyone from using the UF_COMPRESSED bit for anything else, and it enforces * an order of operation -- you must first do the setxattr and then the chflags. */ if (VATTR_IS_ACTIVE(vap, va_data_size)) { /* * don't allow the caller to set the BSD flag and the size in the same call * since this doesn't really make sense */ vap->va_flags &= ~UF_COMPRESSED; return 0; } decmpfs_header *hdr = NULL; size_t alloc_size = 0; error = decmpfs_fetch_compressed_header(vp, NULL, &hdr, 1, &alloc_size); if (error == 0) { /* * Allow the flag to be set since the decmpfs attribute * is present. * * If we're creating a dataless file we do not want to * truncate it to zero which allows the file resolver to * have more control over when truncation should happen. * All other types of compressed files are truncated to * zero. */ if (!decmpfs_type_is_dataless(hdr->compression_type)) { VATTR_SET_ACTIVE(vap, va_data_size); vap->va_data_size = 0; } } else if (error == ERANGE) { /* the file had a decmpfs attribute but the type was out of range, so don't muck with the file's data size */ } else { /* no DECMPFS_XATTR_NAME attribute, so deny the update */ vap->va_flags &= ~UF_COMPRESSED; } if (hdr != NULL) { kfree_data(hdr, alloc_size); } } } } return 0; } static int wait_for_decompress(decmpfs_cnode *cp) { int state; lck_mtx_lock(&decompress_channel_mtx); do { state = decmpfs_fast_get_state(cp); if (state != FILE_IS_CONVERTING) { /* file is not decompressing */ lck_mtx_unlock(&decompress_channel_mtx); return state; } msleep((caddr_t)&decompress_channel, &decompress_channel_mtx, PINOD, "wait_for_decompress", NULL); } while (1); } #pragma mark --- decmpfs hide query routines --- int decmpfs_hides_rsrc(vfs_context_t ctx, decmpfs_cnode *cp) { /* * WARNING!!! * callers may (and do) pass NULL for ctx, so we should only use it * for this equality comparison * * This routine should only be called after a file has already been through decmpfs_file_is_compressed */ if (ctx == decmpfs_ctx) { return 0; } if (!decmpfs_fast_file_is_compressed(cp)) { return 0; } /* all compressed files hide their resource fork */ return 1; } int decmpfs_hides_xattr(vfs_context_t ctx, decmpfs_cnode *cp, const char *xattr) { /* * WARNING!!! * callers may (and do) pass NULL for ctx, so we should only use it * for this equality comparison * * This routine should only be called after a file has already been through decmpfs_file_is_compressed */ if (ctx == decmpfs_ctx) { return 0; } if (strncmp(xattr, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME) - 1) == 0) { return decmpfs_hides_rsrc(ctx, cp); } if (!decmpfs_fast_file_is_compressed(cp)) { /* file is not compressed, so don't hide this xattr */ return 0; } if (strncmp(xattr, DECMPFS_XATTR_NAME, sizeof(DECMPFS_XATTR_NAME) - 1) == 0) { /* it's our xattr, so hide it */ return 1; } /* don't hide this xattr */ return 0; } #pragma mark --- registration/validation routines --- static inline int registration_valid(const decmpfs_registration *registration) { return registration && ((registration->decmpfs_registration == DECMPFS_REGISTRATION_VERSION_V1) || (registration->decmpfs_registration == DECMPFS_REGISTRATION_VERSION_V3)); } errno_t register_decmpfs_decompressor(uint32_t compression_type, const decmpfs_registration *registration) { /* called by kexts to register decompressors */ errno_t ret = 0; int locked = 0; char resourceName[80]; if ((compression_type >= CMP_MAX) || !registration_valid(registration)) { ret = EINVAL; goto out; } lck_rw_lock_exclusive(&decompressorsLock); locked = 1; /* make sure the registration for this type is zero */ if (decompressors[compression_type] != NULL) { ret = EEXIST; goto out; } decompressors[compression_type] = registration; snprintf(resourceName, sizeof(resourceName), "com.apple.AppleFSCompression.Type%u", compression_type); IOServicePublishResource(resourceName, TRUE); out: if (locked) { lck_rw_unlock_exclusive(&decompressorsLock); } return ret; } errno_t unregister_decmpfs_decompressor(uint32_t compression_type, decmpfs_registration *registration) { /* called by kexts to unregister decompressors */ errno_t ret = 0; int locked = 0; char resourceName[80]; if ((compression_type >= CMP_MAX) || !registration_valid(registration)) { ret = EINVAL; goto out; } lck_rw_lock_exclusive(&decompressorsLock); locked = 1; if (decompressors[compression_type] != registration) { ret = EEXIST; goto out; } decompressors[compression_type] = NULL; snprintf(resourceName, sizeof(resourceName), "com.apple.AppleFSCompression.Type%u", compression_type); IOServicePublishResource(resourceName, FALSE); out: if (locked) { lck_rw_unlock_exclusive(&decompressorsLock); } return ret; } static int compression_type_valid(vnode_t vp, decmpfs_header *hdr) { /* fast pre-check to determine if the given compressor has checked in */ int ret = 0; /* every compressor must have at least a fetch function */ lck_rw_lock_shared(&decompressorsLock); if (decmp_get_func(vp, hdr->compression_type, fetch) != NULL) { ret = 1; } lck_rw_unlock_shared(&decompressorsLock); return ret; } #pragma mark --- compression/decompression routines --- static int decmpfs_fetch_uncompressed_data(vnode_t vp, decmpfs_cnode *cp, decmpfs_header *hdr, off_t offset, user_ssize_t size, int nvec, decmpfs_vector *vec, uint64_t *bytes_read) { /* get the uncompressed bytes for the specified region of vp by calling out to the registered compressor */ int err = 0; *bytes_read = 0; if (offset >= (off_t)hdr->uncompressed_size) { /* reading past end of file; nothing to do */ err = 0; goto out; } if (offset < 0) { /* tried to read from before start of file */ err = EINVAL; goto out; } if (hdr->uncompressed_size - offset < size) { /* adjust size so we don't read past the end of the file */ size = (user_ssize_t)(hdr->uncompressed_size - offset); } if (size == 0) { /* nothing to read */ err = 0; goto out; } /* * Trace the following parameters on entry with event-id 0x03120008. * * @vp->v_id: vnode-id of the file being decompressed. * @hdr->compression_type: compression type. * @offset: offset from where to fetch uncompressed data. * @size: amount of uncompressed data to fetch. * * Please NOTE: @offset and @size can overflow in theory but * here it is safe. */ DECMPFS_EMIT_TRACE_ENTRY(DECMPDBG_FETCH_UNCOMPRESSED_DATA, vp->v_id, hdr->compression_type, (int)offset, (int)size); lck_rw_lock_shared(&decompressorsLock); decmpfs_fetch_uncompressed_data_func fetch = decmp_get_func(vp, hdr->compression_type, fetch); if (fetch) { err = fetch(vp, decmpfs_ctx, hdr, offset, size, nvec, vec, bytes_read); lck_rw_unlock_shared(&decompressorsLock); if (err == 0) { uint64_t decompression_flags = decmpfs_cnode_get_decompression_flags(cp); if (decompression_flags & DECMPFS_FLAGS_FORCE_FLUSH_ON_DECOMPRESS) { #if !defined(__i386__) && !defined(__x86_64__) int i; for (i = 0; i < nvec; i++) { assert(vec[i].size >= 0 && vec[i].size <= UINT_MAX); flush_dcache64((addr64_t)(uintptr_t)vec[i].buf, (unsigned int)vec[i].size, FALSE); } #endif } } else { decmpfs_ktriage_record(KTRIAGE_DECMPFS_FETCH_CALLBACK_FAILED, err); } } else { decmpfs_ktriage_record(KTRIAGE_DECMPFS_COMPRESSOR_NOT_REGISTERED, hdr->compression_type); err = ENOTSUP; lck_rw_unlock_shared(&decompressorsLock); } /* * Trace the following parameters on return with event-id 0x03120008. * * @vp->v_id: vnode-id of the file being decompressed. * @bytes_read: amount of uncompressed bytes fetched in bytes. * @err: value returned from this function. * * Please NOTE: @bytes_read can overflow in theory but here it is safe. */ DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_FETCH_UNCOMPRESSED_DATA, vp->v_id, (int)*bytes_read, err); out: return err; } static kern_return_t commit_upl(upl_t upl, upl_offset_t pl_offset, size_t uplSize, int flags, int abort) { kern_return_t kr = 0; #if CONFIG_IOSCHED upl_unmark_decmp(upl); #endif /* CONFIG_IOSCHED */ /* commit the upl pages */ if (abort) { VerboseLog("aborting upl, flags 0x%08x\n", flags); kr = ubc_upl_abort_range(upl, pl_offset, (upl_size_t)uplSize, flags); if (kr != KERN_SUCCESS) { ErrorLog("ubc_upl_abort_range error %d\n", (int)kr); } } else { VerboseLog("committing upl, flags 0x%08x\n", flags | UPL_COMMIT_CLEAR_DIRTY); kr = ubc_upl_commit_range(upl, pl_offset, (upl_size_t)uplSize, flags | UPL_COMMIT_CLEAR_DIRTY | UPL_COMMIT_WRITTEN_BY_KERNEL); if (kr != KERN_SUCCESS) { ErrorLog("ubc_upl_commit_range error %d\n", (int)kr); } } return kr; } errno_t decmpfs_pagein_compressed(struct vnop_pagein_args *ap, int *is_compressed, decmpfs_cnode *cp) { /* handles a page-in request from vfs for a compressed file */ int err = 0; vnode_t vp = ap->a_vp; upl_t pl = ap->a_pl; upl_offset_t pl_offset = ap->a_pl_offset; off_t f_offset = ap->a_f_offset; size_t size = ap->a_size; int flags = ap->a_flags; off_t uplPos = 0; user_ssize_t uplSize = 0; user_ssize_t rounded_uplSize = 0; size_t verify_block_size = 0; void *data = NULL; decmpfs_header *hdr = NULL; size_t alloc_size = 0; uint64_t cachedSize = 0; uint32_t fs_bsize = 0; int cmpdata_locked = 0; int num_valid_pages = 0; int num_invalid_pages = 0; bool file_tail_page_valid = false; if (!decmpfs_trylock_compressed_data(cp, 0)) { return EAGAIN; } cmpdata_locked = 1; if (flags & ~(UPL_IOSYNC | UPL_NOCOMMIT | UPL_NORDAHEAD)) { DebugLogWithPath("pagein: unknown flags 0x%08x\n", (flags & ~(UPL_IOSYNC | UPL_NOCOMMIT | UPL_NORDAHEAD))); } err = decmpfs_fetch_compressed_header(vp, cp, &hdr, 0, &alloc_size); if (err != 0) { decmpfs_ktriage_record(KTRIAGE_DECMPFS_FETCH_HEADER_FAILED, err); goto out; } cachedSize = hdr->uncompressed_size; if (!compression_type_valid(vp, hdr)) { /* compressor not registered */ decmpfs_ktriage_record(KTRIAGE_DECMPFS_COMPRESSOR_NOT_REGISTERED, hdr->compression_type); err = ENOTSUP; goto out; } /* * can't page-in from a negative offset * or if we're starting beyond the EOF * or if the file offset isn't page aligned * or the size requested isn't a multiple of PAGE_SIZE */ if (f_offset < 0 || f_offset >= cachedSize || (f_offset & PAGE_MASK_64) || (size & PAGE_MASK) || (pl_offset & PAGE_MASK)) { decmpfs_ktriage_record(KTRIAGE_DECMPFS_IVALID_OFFSET, 0); err = EINVAL; goto out; } /* * If the verify block size is larger than the page size, the UPL needs * to be aligned to it, Since the UPL has been created by the filesystem, * we will only check if the passed in UPL length conforms to the * alignment requirements. */ err = VNOP_VERIFY(vp, f_offset, NULL, 0, &verify_block_size, NULL, VNODE_VERIFY_DEFAULT, NULL); if (err) { ErrorLogWithPath("VNOP_VERIFY returned error = %d\n", err); goto out; } else if (verify_block_size) { if (vp->v_mount->mnt_vfsstat.f_bsize > PAGE_SIZE) { fs_bsize = vp->v_mount->mnt_vfsstat.f_bsize; } if (verify_block_size & (verify_block_size - 1)) { ErrorLogWithPath("verify block size (%zu) is not power of 2, no verification will be done\n", verify_block_size); err = EINVAL; } else if (size % verify_block_size) { ErrorLogWithPath("upl size (%zu) is not a multiple of verify block size (%zu)\n", (size_t)size, verify_block_size); err = EINVAL; } else if (fs_bsize) { /* * Filesystems requesting verification have to provide * values for block sizes which are powers of 2. */ if (fs_bsize & (fs_bsize - 1)) { ErrorLogWithPath("FS block size (%u) is greater than PAGE_SIZE (%d) and is not power of 2, no verification will be done\n", fs_bsize, PAGE_SIZE); err = EINVAL; } else if (fs_bsize > verify_block_size) { ErrorLogWithPath("FS block size (%u) is greater than verify block size (%zu), no verification will be done\n", fs_bsize, verify_block_size); err = EINVAL; } } if (err) { goto out; } } #if CONFIG_IOSCHED /* Mark the UPL as the requesting UPL for decompression */ upl_mark_decmp(pl); #endif /* CONFIG_IOSCHED */ /* map the upl so we can fetch into it */ kern_return_t kr = ubc_upl_map(pl, (vm_offset_t*)&data); if ((kr != KERN_SUCCESS) || (data == NULL)) { decmpfs_ktriage_record(KTRIAGE_DECMPFS_UBC_UPL_MAP_FAILED, kr); err = ENOSPC; data = NULL; #if CONFIG_IOSCHED upl_unmark_decmp(pl); #endif /* CONFIG_IOSCHED */ goto out; } uplPos = f_offset; off_t max_size = cachedSize - f_offset; if (size < max_size) { rounded_uplSize = uplSize = size; file_tail_page_valid = true; } else { uplSize = (user_ssize_t)max_size; if (fs_bsize) { /* First round up to fs_bsize */ rounded_uplSize = (uplSize + (fs_bsize - 1)) & ~(fs_bsize - 1); /* then to PAGE_SIZE */ rounded_uplSize = MIN(size, round_page((vm_offset_t)rounded_uplSize)); } else { rounded_uplSize = round_page((vm_offset_t)uplSize); } } /* do the fetch */ decmpfs_vector vec; decompress: /* the mapped data pointer points to the first page of the page list, so we want to start filling in at an offset of pl_offset */ vec = (decmpfs_vector) { .buf = (char*)data + pl_offset, .size = size, }; uint64_t did_read = 0; if (decmpfs_fast_get_state(cp) == FILE_IS_CONVERTING) { ErrorLogWithPath("unexpected pagein during decompress\n"); /* * if the file is converting, this must be a recursive call to pagein from underneath a call to decmpfs_decompress_file; * pretend that it succeeded but don't do anything since we're just going to write over the pages anyway */ err = 0; } else { if (verify_block_size <= PAGE_SIZE) { err = decmpfs_fetch_uncompressed_data(vp, cp, hdr, uplPos, uplSize, 1, &vec, &did_read); /* zero out whatever wasn't read */ if (did_read < rounded_uplSize) { memset((char*)vec.buf + did_read, 0, (size_t)(rounded_uplSize - did_read)); } } else { off_t l_uplPos = uplPos; off_t l_pl_offset = pl_offset; user_ssize_t l_uplSize = uplSize; upl_page_info_t *pl_info = ubc_upl_pageinfo(pl); err = 0; /* * When the system page size is less than the "verify block size", * the UPL passed may not consist solely of absent pages. * We have to detect the "absent" pages and only decompress * into those absent/invalid page ranges. * * Things that will change in each iteration of the loop : * * l_pl_offset = where we are inside the UPL [0, caller_upl_created_size) * l_uplPos = the file offset the l_pl_offset corresponds to. * l_uplSize = the size of the upl still unprocessed; * * In this picture, we have to do the transfer on 2 ranges * (One 2 page range and one 3 page range) and the loop * below will skip the first two pages and then identify * the next two as invalid and fill those in and * then skip the next one and then do the last pages. * * uplPos(file_offset) * | uplSize * 0 V<--------------> file_size * |---------------------------------------------------> * | | |V|V|I|I|V|I|I|I| * ^ * | upl * <-------------------> * | * pl_offset * * uplSize will be clipped in case the UPL range exceeds * the file size. * */ while (l_uplSize) { uint64_t l_did_read = 0; int pl_offset_pg = (int)(l_pl_offset / PAGE_SIZE); int pages_left_in_upl; int start_pg; int last_pg; /* * l_uplSize may start off less than the size of the upl, * we have to round it up to PAGE_SIZE to calculate * how many more pages are left. */ pages_left_in_upl = (int)(round_page((vm_offset_t)l_uplSize) / PAGE_SIZE); /* * scan from the beginning of the upl looking for the first * non-valid page.... this will become the first page in * the request we're going to make to * 'decmpfs_fetch_uncompressed_data'... if all * of the pages are valid, we won't call through * to 'decmpfs_fetch_uncompressed_data' */ for (start_pg = 0; start_pg < pages_left_in_upl; start_pg++) { if (!upl_valid_page(pl_info, pl_offset_pg + start_pg)) { break; } } num_valid_pages += start_pg; /* * scan from the starting invalid page looking for * a valid page before the end of the upl is * reached, if we find one, then it will be the * last page of the request to 'decmpfs_fetch_uncompressed_data' */ for (last_pg = start_pg; last_pg < pages_left_in_upl; last_pg++) { if (upl_valid_page(pl_info, pl_offset_pg + last_pg)) { break; } } if (start_pg < last_pg) { off_t inval_offset = start_pg * PAGE_SIZE; int inval_pages = last_pg - start_pg; int inval_size = inval_pages * PAGE_SIZE; decmpfs_vector l_vec; num_invalid_pages += inval_pages; if (inval_offset) { did_read += inval_offset; l_pl_offset += inval_offset; l_uplPos += inval_offset; l_uplSize -= inval_offset; } l_vec = (decmpfs_vector) { .buf = (char*)data + l_pl_offset, .size = inval_size, }; err = decmpfs_fetch_uncompressed_data(vp, cp, hdr, l_uplPos, MIN(l_uplSize, inval_size), 1, &l_vec, &l_did_read); if (!err && (l_did_read != inval_size) && (l_uplSize > inval_size)) { ErrorLogWithPath("Unexpected size fetch of decompressed data, l_uplSize = %d, l_did_read = %d, inval_size = %d\n", (int)l_uplSize, (int)l_did_read, (int)inval_size); err = EINVAL; } } else { /* no invalid pages left */ l_did_read = l_uplSize; if (!file_tail_page_valid) { file_tail_page_valid = true; } } if (err) { break; } did_read += l_did_read; l_pl_offset += l_did_read; l_uplPos += l_did_read; l_uplSize -= l_did_read; } /* Zero out the region after EOF in the last page (if needed) */ if (!err && !file_tail_page_valid && (uplSize < rounded_uplSize)) { memset((char*)vec.buf + uplSize, 0, (size_t)(rounded_uplSize - uplSize)); } } } if (err) { decmpfs_ktriage_record(KTRIAGE_DECMPFS_FETCH_UNCOMPRESSED_DATA_FAILED, err) DebugLogWithPath("decmpfs_fetch_uncompressed_data err %d\n", err); int cmp_state = decmpfs_fast_get_state(cp); if (cmp_state == FILE_IS_CONVERTING) { DebugLogWithPath("cmp_state == FILE_IS_CONVERTING\n"); cmp_state = wait_for_decompress(cp); if (cmp_state == FILE_IS_COMPRESSED) { DebugLogWithPath("cmp_state == FILE_IS_COMPRESSED\n"); /* a decompress was attempted but it failed, let's try calling fetch again */ goto decompress; } } if (cmp_state == FILE_IS_NOT_COMPRESSED) { DebugLogWithPath("cmp_state == FILE_IS_NOT_COMPRESSED\n"); /* the file was decompressed after we started reading it */ *is_compressed = 0; /* instruct caller to fall back to its normal path */ } } if (!err && verify_block_size) { size_t cur_verify_block_size = verify_block_size; if ((err = VNOP_VERIFY(vp, uplPos, vec.buf, rounded_uplSize, &cur_verify_block_size, NULL, 0, NULL))) { ErrorLogWithPath("Verification failed with error %d, uplPos = %lld, uplSize = %d, did_read = %d, valid_pages = %d, invalid_pages = %d, tail_page_valid = %d\n", err, (long long)uplPos, (int)rounded_uplSize, (int)did_read, num_valid_pages, num_invalid_pages, file_tail_page_valid); } /* XXX : If the verify block size changes, redo the read */ } #if CONFIG_IOSCHED upl_unmark_decmp(pl); #endif /* CONFIG_IOSCHED */ kr = ubc_upl_unmap(pl); data = NULL; /* make sure to set data to NULL so we don't try to unmap again below */ if (kr != KERN_SUCCESS) { ErrorLogWithPath("ubc_upl_unmap error %d\n", (int)kr); } else { if (!err) { /* commit our pages */ kr = commit_upl(pl, pl_offset, (size_t)rounded_uplSize, UPL_COMMIT_FREE_ON_EMPTY, 0 /* commit */); /* If there were any pages after the page containing EOF, abort them. */ if (rounded_uplSize < size) { kr = commit_upl(pl, (upl_offset_t)(pl_offset + rounded_uplSize), (size_t)(size - rounded_uplSize), UPL_ABORT_FREE_ON_EMPTY | UPL_ABORT_ERROR, 1 /* abort */); } } } out: if (data) { ubc_upl_unmap(pl); } if (hdr != NULL) { kfree_data(hdr, alloc_size); } if (cmpdata_locked) { decmpfs_unlock_compressed_data(cp, 0); } if (err) { #if 0 if (err != ENXIO && err != ENOSPC) { char *path = zalloc(ZV_NAMEI); panic("%s: decmpfs_pagein_compressed: err %d", vnpath(vp, path, PATH_MAX), err); zfree(ZV_NAMEI, path); } #endif /* 0 */ ErrorLogWithPath("err %d\n", err); } return err; } errno_t decmpfs_read_compressed(struct vnop_read_args *ap, int *is_compressed, decmpfs_cnode *cp) { /* handles a read request from vfs for a compressed file */ uio_t uio = ap->a_uio; vnode_t vp = ap->a_vp; int err = 0; int countInt = 0; off_t uplPos = 0; user_ssize_t uplSize = 0; user_ssize_t uplRemaining = 0; off_t curUplPos = 0; user_ssize_t curUplSize = 0; kern_return_t kr = KERN_SUCCESS; int abort_read = 0; void *data = NULL; uint64_t did_read = 0; upl_t upl = NULL; upl_page_info_t *pli = NULL; decmpfs_header *hdr = NULL; size_t alloc_size = 0; uint64_t cachedSize = 0; off_t uioPos = 0; user_ssize_t uioRemaining = 0; size_t verify_block_size = 0; size_t alignment_size = PAGE_SIZE; int cmpdata_locked = 0; decmpfs_lock_compressed_data(cp, 0); cmpdata_locked = 1; uplPos = uio_offset(uio); uplSize = uio_resid(uio); VerboseLogWithPath("uplPos %lld uplSize %lld\n", uplPos, uplSize); cachedSize = decmpfs_cnode_get_vnode_cached_size(cp); if ((uint64_t)uplPos + uplSize > cachedSize) { /* truncate the read to the size of the file */ uplSize = (user_ssize_t)(cachedSize - uplPos); } /* give the cluster layer a chance to fill in whatever it already has */ countInt = (uplSize > INT_MAX) ? INT_MAX : (int)uplSize; err = cluster_copy_ubc_data(vp, uio, &countInt, 0); if (err != 0) { goto out; } /* figure out what's left */ uioPos = uio_offset(uio); uioRemaining = uio_resid(uio); if ((uint64_t)uioPos + uioRemaining > cachedSize) { /* truncate the read to the size of the file */ uioRemaining = (user_ssize_t)(cachedSize - uioPos); } if (uioRemaining <= 0) { /* nothing left */ goto out; } err = decmpfs_fetch_compressed_header(vp, cp, &hdr, 0, &alloc_size); if (err != 0) { goto out; } if (!compression_type_valid(vp, hdr)) { err = ENOTSUP; goto out; } uplPos = uioPos; uplSize = uioRemaining; #if COMPRESSION_DEBUG DebugLogWithPath("uplPos %lld uplSize %lld\n", (uint64_t)uplPos, (uint64_t)uplSize); #endif lck_rw_lock_shared(&decompressorsLock); decmpfs_adjust_fetch_region_func adjust_fetch = decmp_get_func(vp, hdr->compression_type, adjust_fetch); if (adjust_fetch) { /* give the compressor a chance to adjust the portion of the file that we read */ adjust_fetch(vp, decmpfs_ctx, hdr, &uplPos, &uplSize); VerboseLogWithPath("adjusted uplPos %lld uplSize %lld\n", (uint64_t)uplPos, (uint64_t)uplSize); } lck_rw_unlock_shared(&decompressorsLock); /* clip the adjusted size to the size of the file */ if ((uint64_t)uplPos + uplSize > cachedSize) { /* truncate the read to the size of the file */ uplSize = (user_ssize_t)(cachedSize - uplPos); } if (uplSize <= 0) { /* nothing left */ goto out; } /* * since we're going to create a upl for the given region of the file, * make sure we're on page boundaries */ /* If the verify block size is larger than the page size, the UPL needs to aligned to it */ err = VNOP_VERIFY(vp, uplPos, NULL, 0, &verify_block_size, NULL, VNODE_VERIFY_DEFAULT, NULL); if (err) { goto out; } else if (verify_block_size) { if (verify_block_size & (verify_block_size - 1)) { ErrorLogWithPath("verify block size is not power of 2, no verification will be done\n"); verify_block_size = 0; } else if (verify_block_size > PAGE_SIZE) { alignment_size = verify_block_size; } } if (uplPos & (alignment_size - 1)) { /* round position down to page boundary */ uplSize += (uplPos & (alignment_size - 1)); uplPos &= ~(alignment_size - 1); } /* round size up to alignement_size multiple */ uplSize = (uplSize + (alignment_size - 1)) & ~(alignment_size - 1); VerboseLogWithPath("new uplPos %lld uplSize %lld\n", (uint64_t)uplPos, (uint64_t)uplSize); uplRemaining = uplSize; curUplPos = uplPos; curUplSize = 0; while (uplRemaining > 0) { /* start after the last upl */ curUplPos += curUplSize; /* clip to max upl size */ curUplSize = uplRemaining; if (curUplSize > MAX_UPL_SIZE_BYTES) { curUplSize = MAX_UPL_SIZE_BYTES; } /* create the upl */ kr = ubc_create_upl_kernel(vp, curUplPos, (int)curUplSize, &upl, &pli, UPL_SET_LITE, VM_KERN_MEMORY_FILE); if (kr != KERN_SUCCESS) { ErrorLogWithPath("ubc_create_upl error %d\n", (int)kr); err = EINVAL; goto out; } VerboseLogWithPath("curUplPos %lld curUplSize %lld\n", (uint64_t)curUplPos, (uint64_t)curUplSize); #if CONFIG_IOSCHED /* Mark the UPL as the requesting UPL for decompression */ upl_mark_decmp(upl); #endif /* CONFIG_IOSCHED */ /* map the upl */ kr = ubc_upl_map(upl, (vm_offset_t*)&data); if (kr != KERN_SUCCESS) { commit_upl(upl, 0, curUplSize, UPL_ABORT_FREE_ON_EMPTY, 1); #if 0 char *path = zalloc(ZV_NAMEI); panic("%s: decmpfs_read_compressed: ubc_upl_map error %d", vnpath(vp, path, PATH_MAX), (int)kr); zfree(ZV_NAMEI, path); #else /* 0 */ ErrorLogWithPath("ubc_upl_map kr=0x%x\n", (int)kr); #endif /* 0 */ err = EINVAL; goto out; } /* make sure the map succeeded */ if (!data) { commit_upl(upl, 0, curUplSize, UPL_ABORT_FREE_ON_EMPTY, 1); ErrorLogWithPath("ubc_upl_map mapped null\n"); err = EINVAL; goto out; } /* fetch uncompressed data into the mapped upl */ decmpfs_vector vec; decompress: vec = (decmpfs_vector){ .buf = data, .size = curUplSize }; err = decmpfs_fetch_uncompressed_data(vp, cp, hdr, curUplPos, curUplSize, 1, &vec, &did_read); if (err) { ErrorLogWithPath("decmpfs_fetch_uncompressed_data err %d\n", err); /* maybe the file is converting to decompressed */ int cmp_state = decmpfs_fast_get_state(cp); if (cmp_state == FILE_IS_CONVERTING) { ErrorLogWithPath("cmp_state == FILE_IS_CONVERTING\n"); cmp_state = wait_for_decompress(cp); if (cmp_state == FILE_IS_COMPRESSED) { ErrorLogWithPath("cmp_state == FILE_IS_COMPRESSED\n"); /* a decompress was attempted but it failed, let's try fetching again */ goto decompress; } } if (cmp_state == FILE_IS_NOT_COMPRESSED) { ErrorLogWithPath("cmp_state == FILE_IS_NOT_COMPRESSED\n"); /* the file was decompressed after we started reading it */ abort_read = 1; /* we're not going to commit our data */ *is_compressed = 0; /* instruct caller to fall back to its normal path */ } kr = KERN_FAILURE; did_read = 0; } /* zero out the remainder of the last page */ memset((char*)data + did_read, 0, (size_t)(curUplSize - did_read)); if (!err && verify_block_size) { size_t cur_verify_block_size = verify_block_size; if ((err = VNOP_VERIFY(vp, curUplPos, data, curUplSize, &cur_verify_block_size, NULL, 0, NULL))) { ErrorLogWithPath("Verification failed with error %d\n", err); abort_read = 1; } /* XXX : If the verify block size changes, redo the read */ } kr = ubc_upl_unmap(upl); if (kr == KERN_SUCCESS) { if (abort_read) { kr = commit_upl(upl, 0, curUplSize, UPL_ABORT_FREE_ON_EMPTY, 1); } else { VerboseLogWithPath("uioPos %lld uioRemaining %lld\n", (uint64_t)uioPos, (uint64_t)uioRemaining); if (uioRemaining) { off_t uplOff = uioPos - curUplPos; if (uplOff < 0) { ErrorLogWithPath("uplOff %lld should never be negative\n", (int64_t)uplOff); err = EINVAL; } else if (uplOff > INT_MAX) { ErrorLogWithPath("uplOff %lld too large\n", (int64_t)uplOff); err = EINVAL; } else { off_t count = curUplPos + curUplSize - uioPos; if (count < 0) { /* this upl is entirely before the uio */ } else { if (count > uioRemaining) { count = uioRemaining; } int icount = (count > INT_MAX) ? INT_MAX : (int)count; int io_resid = icount; err = cluster_copy_upl_data(uio, upl, (int)uplOff, &io_resid); int copied = icount - io_resid; VerboseLogWithPath("uplOff %lld count %lld copied %lld\n", (uint64_t)uplOff, (uint64_t)count, (uint64_t)copied); if (err) { ErrorLogWithPath("cluster_copy_upl_data err %d\n", err); } uioPos += copied; uioRemaining -= copied; } } } kr = commit_upl(upl, 0, curUplSize, UPL_COMMIT_FREE_ON_EMPTY | UPL_COMMIT_INACTIVATE, 0); if (err) { goto out; } } } else { ErrorLogWithPath("ubc_upl_unmap error %d\n", (int)kr); } uplRemaining -= curUplSize; } out: if (hdr != NULL) { kfree_data(hdr, alloc_size); } if (cmpdata_locked) { decmpfs_unlock_compressed_data(cp, 0); } if (err) {/* something went wrong */ ErrorLogWithPath("err %d\n", err); return err; } #if COMPRESSION_DEBUG uplSize = uio_resid(uio); if (uplSize) { VerboseLogWithPath("still %lld bytes to copy\n", uplSize); } #endif return 0; } int decmpfs_free_compressed_data(vnode_t vp, decmpfs_cnode *cp) { /* * call out to the decompressor to free remove any data associated with this compressed file * then delete the file's compression xattr */ decmpfs_header *hdr = NULL; size_t alloc_size = 0; /* * Trace the following parameters on entry with event-id 0x03120010. * * @vp->v_id: vnode-id of the file for which to free compressed data. */ DECMPFS_EMIT_TRACE_ENTRY(DECMPDBG_FREE_COMPRESSED_DATA, vp->v_id); int err = decmpfs_fetch_compressed_header(vp, cp, &hdr, 0, &alloc_size); if (err) { ErrorLogWithPath("decmpfs_fetch_compressed_header err %d\n", err); } else { lck_rw_lock_shared(&decompressorsLock); decmpfs_free_compressed_data_func free_data = decmp_get_func(vp, hdr->compression_type, free_data); if (free_data) { err = free_data(vp, decmpfs_ctx, hdr); } else { /* nothing to do, so no error */ err = 0; } lck_rw_unlock_shared(&decompressorsLock); if (err != 0) { ErrorLogWithPath("decompressor err %d\n", err); } } /* * Trace the following parameters on return with event-id 0x03120010. * * @vp->v_id: vnode-id of the file for which to free compressed data. * @err: value returned from this function. */ DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_FREE_COMPRESSED_DATA, vp->v_id, err); /* delete the xattr */ err = vn_removexattr(vp, DECMPFS_XATTR_NAME, 0, decmpfs_ctx); if (hdr != NULL) { kfree_data(hdr, alloc_size); } return err; } #pragma mark --- file conversion routines --- static int unset_compressed_flag(vnode_t vp) { int err = 0; struct vnode_attr va; struct fsioc_cas_bsdflags cas; int i; # define MAX_CAS_BSDFLAGS_LOOPS 4 /* UF_COMPRESSED should be manipulated only with FSIOC_CAS_BSDFLAGS */ for (i = 0; i < MAX_CAS_BSDFLAGS_LOOPS; i++) { VATTR_INIT(&va); VATTR_WANTED(&va, va_flags); err = vnode_getattr(vp, &va, decmpfs_ctx); if (err != 0) { ErrorLogWithPath("vnode_getattr err %d, num retries %d\n", err, i); goto out; } cas.expected_flags = va.va_flags; cas.new_flags = va.va_flags & ~UF_COMPRESSED; err = VNOP_IOCTL(vp, FSIOC_CAS_BSDFLAGS, (caddr_t)&cas, FWRITE, decmpfs_ctx); if ((err == 0) && (va.va_flags == cas.actual_flags)) { goto out; } if ((err != 0) && (err != EAGAIN)) { break; } } /* fallback to regular chflags if FSIOC_CAS_BSDFLAGS is not supported */ if (err == ENOTTY) { VATTR_INIT(&va); VATTR_SET(&va, va_flags, cas.new_flags); err = vnode_setattr(vp, &va, decmpfs_ctx); if (err != 0) { ErrorLogWithPath("vnode_setattr err %d\n", err); } } else if (va.va_flags != cas.actual_flags) { ErrorLogWithPath("FSIOC_CAS_BSDFLAGS err: flags mismatc. actual (%x) expected (%x), num retries %d\n", cas.actual_flags, va.va_flags, i); } else if (err != 0) { ErrorLogWithPath("FSIOC_CAS_BSDFLAGS err %d, num retries %d\n", err, i); } out: return err; } int decmpfs_decompress_file(vnode_t vp, decmpfs_cnode *cp, off_t toSize, int truncate_okay, int skiplock) { /* convert a compressed file to an uncompressed file */ int err = 0; char *data = NULL; uio_t uio_w = 0; off_t offset = 0; uint32_t old_state = 0; uint32_t new_state = 0; int update_file_state = 0; size_t allocSize = 0; decmpfs_header *hdr = NULL; size_t hdr_size = 0; int cmpdata_locked = 0; off_t remaining = 0; uint64_t uncompressed_size = 0; /* * Trace the following parameters on entry with event-id 0x03120000. * * @vp->v_id: vnode-id of the file being decompressed. * @toSize: uncompress given bytes of the file. * @truncate_okay: on error it is OK to truncate. * @skiplock: compressed data is locked, skip locking again. * * Please NOTE: @toSize can overflow in theory but here it is safe. */ DECMPFS_EMIT_TRACE_ENTRY(DECMPDBG_DECOMPRESS_FILE, vp->v_id, (int)toSize, truncate_okay, skiplock); if (!skiplock) { decmpfs_lock_compressed_data(cp, 1); cmpdata_locked = 1; } decompress: old_state = decmpfs_fast_get_state(cp); switch (old_state) { case FILE_IS_NOT_COMPRESSED: { /* someone else decompressed the file */ err = 0; goto out; } case FILE_TYPE_UNKNOWN: { /* the file is in an unknown state, so update the state and retry */ (void)decmpfs_file_is_compressed(vp, cp); /* try again */ goto decompress; } case FILE_IS_COMPRESSED: { /* the file is compressed, so decompress it */ break; } default: { /* * this shouldn't happen since multiple calls to decmpfs_decompress_file lock each other out, * and when decmpfs_decompress_file returns, the state should be always be set back to * FILE_IS_NOT_COMPRESSED or FILE_IS_UNKNOWN */ err = EINVAL; goto out; } } err = decmpfs_fetch_compressed_header(vp, cp, &hdr, 0, &hdr_size); if (err != 0) { goto out; } uncompressed_size = hdr->uncompressed_size; if (toSize == -1) { toSize = hdr->uncompressed_size; } if (toSize == 0) { /* special case truncating the file to zero bytes */ goto nodecmp; } else if ((uint64_t)toSize > hdr->uncompressed_size) { /* the caller is trying to grow the file, so we should decompress all the data */ toSize = hdr->uncompressed_size; } allocSize = MIN(64 * 1024, (size_t)toSize); data = (char *)kalloc_data(allocSize, Z_WAITOK); if (!data) { err = ENOMEM; goto out; } uio_w = uio_create(1, 0LL, UIO_SYSSPACE, UIO_WRITE); if (!uio_w) { err = ENOMEM; goto out; } uio_w->uio_flags |= UIO_FLAGS_IS_COMPRESSED_FILE; remaining = toSize; /* tell the buffer cache that this is an empty file */ ubc_setsize(vp, 0); /* if we got here, we need to decompress the file */ decmpfs_cnode_set_vnode_state(cp, FILE_IS_CONVERTING, 1); while (remaining > 0) { /* loop decompressing data from the file and writing it into the data fork */ uint64_t bytes_read = 0; decmpfs_vector vec = { .buf = data, .size = (user_ssize_t)MIN(allocSize, remaining) }; err = decmpfs_fetch_uncompressed_data(vp, cp, hdr, offset, vec.size, 1, &vec, &bytes_read); if (err != 0) { ErrorLogWithPath("decmpfs_fetch_uncompressed_data err %d\n", err); goto out; } if (bytes_read == 0) { /* we're done reading data */ break; } uio_reset(uio_w, offset, UIO_SYSSPACE, UIO_WRITE); err = uio_addiov(uio_w, CAST_USER_ADDR_T(data), (user_size_t)bytes_read); if (err != 0) { ErrorLogWithPath("uio_addiov err %d\n", err); err = ENOMEM; goto out; } err = VNOP_WRITE(vp, uio_w, 0, decmpfs_ctx); if (err != 0) { /* if the write failed, truncate the file to zero bytes */ ErrorLogWithPath("VNOP_WRITE err %d\n", err); break; } offset += bytes_read; remaining -= bytes_read; } if (err == 0) { if (offset != toSize) { ErrorLogWithPath("file decompressed to %lld instead of %lld\n", offset, toSize); err = EINVAL; goto out; } } if (err == 0) { /* sync the data and metadata */ err = VNOP_FSYNC(vp, MNT_WAIT, decmpfs_ctx); if (err != 0) { ErrorLogWithPath("VNOP_FSYNC err %d\n", err); goto out; } } if (err != 0) { /* write, setattr, or fsync failed */ ErrorLogWithPath("aborting decompress, err %d\n", err); if (truncate_okay) { /* truncate anything we might have written */ int error = vnode_setsize(vp, 0, 0, decmpfs_ctx); ErrorLogWithPath("vnode_setsize err %d\n", error); } goto out; } nodecmp: /* if we're truncating the file to zero bytes, we'll skip ahead to here */ /* unset the compressed flag */ unset_compressed_flag(vp); /* free the compressed data associated with this file */ err = decmpfs_free_compressed_data(vp, cp); if (err != 0) { ErrorLogWithPath("decmpfs_free_compressed_data err %d\n", err); } /* * even if free_compressed_data or vnode_getattr/vnode_setattr failed, return success * since we succeeded in writing all of the file data to the data fork */ err = 0; /* if we got this far, the file was successfully decompressed */ update_file_state = 1; new_state = FILE_IS_NOT_COMPRESSED; #if COMPRESSION_DEBUG { uint64_t filesize = 0; vnsize(vp, &filesize); DebugLogWithPath("new file size %lld\n", filesize); } #endif out: if (hdr != NULL) { kfree_data(hdr, hdr_size); } kfree_data(data, allocSize); if (uio_w) { uio_free(uio_w); } if (err != 0) { /* if there was a failure, reset compression flags to unknown and clear the buffer cache data */ update_file_state = 1; new_state = FILE_TYPE_UNKNOWN; if (uncompressed_size) { ubc_setsize(vp, 0); ubc_setsize(vp, uncompressed_size); } } if (update_file_state) { lck_mtx_lock(&decompress_channel_mtx); decmpfs_cnode_set_vnode_state(cp, new_state, 1); wakeup((caddr_t)&decompress_channel); /* wake up anyone who might have been waiting for decompression */ lck_mtx_unlock(&decompress_channel_mtx); } if (cmpdata_locked) { decmpfs_unlock_compressed_data(cp, 1); } /* * Trace the following parameters on return with event-id 0x03120000. * * @vp->v_id: vnode-id of the file being decompressed. * @err: value returned from this function. */ DECMPFS_EMIT_TRACE_RETURN(DECMPDBG_DECOMPRESS_FILE, vp->v_id, err); return err; } #pragma mark --- Type1 compressor --- /* * The "Type1" compressor stores the data fork directly in the compression xattr */ static int decmpfs_validate_compressed_file_Type1(__unused vnode_t vp, __unused vfs_context_t ctx, decmpfs_header *hdr) { int err = 0; if (hdr->uncompressed_size + sizeof(decmpfs_disk_header) != (uint64_t)hdr->attr_size) { err = EINVAL; goto out; } out: return err; } static int decmpfs_fetch_uncompressed_data_Type1(__unused vnode_t vp, __unused vfs_context_t ctx, decmpfs_header *hdr, off_t offset, user_ssize_t size, int nvec, decmpfs_vector *vec, uint64_t *bytes_read) { int err = 0; int i; user_ssize_t remaining; if (hdr->uncompressed_size + sizeof(decmpfs_disk_header) != (uint64_t)hdr->attr_size) { err = EINVAL; goto out; } #if COMPRESSION_DEBUG static int dummy = 0; // prevent syslog from coalescing printfs DebugLogWithPath("%d memcpy %lld at %lld\n", dummy++, size, (uint64_t)offset); #endif remaining = size; for (i = 0; (i < nvec) && (remaining > 0); i++) { user_ssize_t curCopy = vec[i].size; if (curCopy > remaining) { curCopy = remaining; } memcpy(vec[i].buf, hdr->attr_bytes + offset, curCopy); offset += curCopy; remaining -= curCopy; } if ((bytes_read) && (err == 0)) { *bytes_read = (size - remaining); } out: return err; } SECURITY_READ_ONLY_EARLY(static decmpfs_registration) Type1Reg = { .decmpfs_registration = DECMPFS_REGISTRATION_VERSION, .validate = decmpfs_validate_compressed_file_Type1, .adjust_fetch = NULL,/* no adjust necessary */ .fetch = decmpfs_fetch_uncompressed_data_Type1, .free_data = NULL,/* no free necessary */ .get_flags = NULL/* no flags */ }; #pragma mark --- decmpfs initialization --- void decmpfs_init(void) { static int done = 0; if (done) { return; } decmpfs_ctx = vfs_context_create(vfs_context_kernel()); register_decmpfs_decompressor(CMP_Type1, &Type1Reg); ktriage_register_subsystem_strings(KDBG_TRIAGE_SUBSYS_DECMPFS, &ktriage_decmpfs_subsystem_strings); done = 1; } #endif /* FS_COMPRESSION */