/* * Copyright (c) 2008-2023 Jonathan Schleifer <js@nil.im> * * All rights reserved. * * This file is part of ObjFW. It may be distributed under the terms of the * Q Public License 1.0, which can be found in the file LICENSE.QPL included in * the packaging of this file. * * Alternatively, it may be distributed under the terms of the GNU General * Public License, either version 2 or 3, which can be found in the file * LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this * file. */ #include "config.h" #include <errno.h> #include <stdlib.h> #ifdef HAVE_SYS_MMAN_H # include <sys/mman.h> #endif #import "OFSecureData.h" #import "OFString.h" #import "OFSystemInfo.h" #ifdef OF_HAVE_THREADS # import "OFTLSKey.h" #endif #import "OFInitializationFailedException.h" #import "OFInvalidArgumentException.h" #import "OFNotImplementedException.h" #import "OFOutOfMemoryException.h" #import "OFOutOfRangeException.h" #if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) static const size_t chunkSize = 16; struct Page { struct Page *next, *previous; void *map; unsigned char *page; }; # if defined(OF_HAVE_COMPILER_TLS) static thread_local struct Page *firstPage = NULL; static thread_local struct Page *lastPage = NULL; static thread_local struct Page **preallocatedPages = NULL; static thread_local size_t numPreallocatedPages = 0; # elif defined(OF_HAVE_THREADS) static OFTLSKey firstPageKey, lastPageKey; static OFTLSKey preallocatedPagesKey, numPreallocatedPagesKey; # else static struct Page *firstPage = NULL; static struct Page *lastPage = NULL; static struct Page **preallocatedPages = NULL; static size_t numPreallocatedPages = 0; # endif static void * mapPages(size_t numPages) { size_t pageSize = [OFSystemInfo pageSize]; void *pointer; if (numPages > SIZE_MAX / pageSize) @throw [OFOutOfRangeException exception]; if ((pointer = mmap(NULL, numPages * pageSize, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0)) == MAP_FAILED) @throw [OFOutOfMemoryException exceptionWithRequestedSize: numPages * pageSize]; if (mlock(pointer, numPages * pageSize) != 0) { munmap(pointer, numPages * pageSize); @throw [OFOutOfMemoryException exceptionWithRequestedSize: numPages * pageSize]; } return pointer; } static void unmapPages(void *pointer, size_t numPages) { size_t pageSize = [OFSystemInfo pageSize]; if (numPages > SIZE_MAX / pageSize) @throw [OFOutOfRangeException exception]; munlock(pointer, numPages * pageSize); munmap(pointer, numPages * pageSize); } static struct Page * addPage(bool allowPreallocated) { size_t pageSize = [OFSystemInfo pageSize]; size_t mapSize = OFRoundUpToPowerOf2(CHAR_BIT, pageSize / chunkSize) / CHAR_BIT; struct Page *page; # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) struct Page *lastPage; # endif if (allowPreallocated) { # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) uintptr_t numPreallocatedPages = (uintptr_t)OFTLSKeyGet(numPreallocatedPagesKey); # endif if (numPreallocatedPages > 0) { # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) struct Page **preallocatedPages = OFTLSKeyGet(preallocatedPagesKey); # endif numPreallocatedPages--; # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) OFEnsure(OFTLSKeySet(numPreallocatedPagesKey, (void *)numPreallocatedPages) == 0); # endif page = preallocatedPages[numPreallocatedPages]; if (numPreallocatedPages == 0) { OFFreeMemory(preallocatedPages); preallocatedPages = NULL; # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) OFEnsure(OFTLSKeySet(preallocatedPagesKey, preallocatedPages) == 0); # endif } return page; } } page = OFAllocMemory(1, sizeof(*page)); @try { page->map = OFAllocZeroedMemory(1, mapSize); } @catch (id e) { OFFreeMemory(page); @throw e; } @try { page->page = mapPages(1); } @catch (id e) { OFFreeMemory(page->map); OFFreeMemory(page); @throw e; } OFZeroMemory(page->page, pageSize); # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) lastPage = OFTLSKeyGet(lastPageKey); # endif page->previous = lastPage; page->next = NULL; if (lastPage != NULL) lastPage->next = page; # if defined(OF_HAVE_COMPILER_TLS) || !defined(OF_HAVE_THREADS) lastPage = page; if (firstPage == NULL) firstPage = page; # else OFEnsure(OFTLSKeySet(lastPageKey, page) == 0); if (OFTLSKeyGet(firstPageKey) == NULL) OFEnsure(OFTLSKeySet(firstPageKey, page) == 0); # endif return page; } static void removePageIfEmpty(struct Page *page) { unsigned char *map = page->map; size_t pageSize = [OFSystemInfo pageSize]; size_t mapSize = OFRoundUpToPowerOf2(CHAR_BIT, pageSize / chunkSize) / CHAR_BIT; for (size_t i = 0; i < mapSize; i++) if (map[i] != 0) return; unmapPages(page->page, 1); OFFreeMemory(page->map); if (page->previous != NULL) page->previous->next = page->next; if (page->next != NULL) page->next->previous = page->previous; # if defined(OF_HAVE_COMPILER_TLS) || !defined(OF_HAVE_THREADS) if (firstPage == page) firstPage = page->next; if (lastPage == page) lastPage = page->previous; # else if (OFTLSKeyGet(firstPageKey) == page) OFEnsure(OFTLSKeySet(firstPageKey, page->next) == 0); if (OFTLSKeyGet(lastPageKey) == page) OFEnsure(OFTLSKeySet(lastPageKey, page->previous) == 0); # endif OFFreeMemory(page); } static void * allocateMemory(struct Page *page, size_t bytes) { size_t chunks, chunksLeft, pageSize, i, firstChunk; bytes = OFRoundUpToPowerOf2(chunkSize, bytes); chunks = chunksLeft = bytes / chunkSize; firstChunk = 0; pageSize = [OFSystemInfo pageSize]; for (i = 0; i < pageSize / chunkSize; i++) { if (OFBitsetIsSet(page->map, i)) { chunksLeft = chunks; firstChunk = i + 1; continue; } if (--chunksLeft == 0) break; } if (chunksLeft == 0) { for (size_t j = firstChunk; j < firstChunk + chunks; j++) OFBitsetSet(page->map, j); return page->page + (chunkSize * firstChunk); } return NULL; } static void freeMemory(struct Page *page, void *pointer, size_t bytes) { size_t chunks, chunkIndex; bytes = OFRoundUpToPowerOf2(chunkSize, bytes); chunks = bytes / chunkSize; chunkIndex = ((uintptr_t)pointer - (uintptr_t)page->page) / chunkSize; OFZeroMemory(pointer, bytes); for (size_t i = 0; i < chunks; i++) OFBitsetClear(page->map, chunkIndex + i); } #endif @implementation OFSecureData @synthesize allowsSwappableMemory = _allowsSwappableMemory; #if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) && \ !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) + (void)initialize { if (self != [OFSecureData class]) return; if (OFTLSKeyNew(&firstPageKey) != 0 || OFTLSKeyNew(&lastPageKey) != 0 || OFTLSKeyNew(&preallocatedPagesKey) != 0 || OFTLSKeyNew(&numPreallocatedPagesKey) != 0) @throw [OFInitializationFailedException exceptionWithClass: self]; } #endif + (void)preallocateUnswappableMemoryWithSize: (size_t)size { #if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) size_t pageSize = [OFSystemInfo pageSize]; size_t numPages = OFRoundUpToPowerOf2(pageSize, size) / pageSize; # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) struct Page **preallocatedPages = OFTLSKeyGet(preallocatedPagesKey); size_t numPreallocatedPages; # endif size_t i; if (preallocatedPages != NULL) @throw [OFInvalidArgumentException exception]; preallocatedPages = OFAllocZeroedMemory(numPages, sizeof(struct Page)); # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) OFEnsure(OFTLSKeySet(preallocatedPagesKey, preallocatedPages) == 0); # endif @try { for (i = 0; i < numPages; i++) preallocatedPages[i] = addPage(false); } @catch (id e) { for (size_t j = 0; j < i; j++) removePageIfEmpty(preallocatedPages[j]); OFFreeMemory(preallocatedPages); preallocatedPages = NULL; @throw e; } numPreallocatedPages = numPages; # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) OFEnsure(OFTLSKeySet(numPreallocatedPagesKey, (void *)(uintptr_t)numPreallocatedPages) == 0); # endif #else @throw [OFNotImplementedException exceptionWithSelector: _cmd object: self]; #endif } + (instancetype)dataWithCount: (size_t)count allowsSwappableMemory: (bool)allowsSwappableMemory { return [[[self alloc] initWithCount: count allowsSwappableMemory: allowsSwappableMemory] autorelease]; } + (instancetype)dataWithCount: (size_t)count itemSize: (size_t)itemSize allowsSwappableMemory: (bool)allowsSwappableMemory { return [[[self alloc] initWithCount: count itemSize: itemSize allowsSwappableMemory: allowsSwappableMemory] autorelease]; } + (instancetype)dataWithItems: (const void *)items count: (size_t)count { OF_UNRECOGNIZED_SELECTOR } + (instancetype)dataWithItems: (const void *)items count: (size_t)count itemSize: (size_t)itemSize { OF_UNRECOGNIZED_SELECTOR } + (instancetype)dataWithItemsNoCopy: (void *)items count: (size_t)count freeWhenDone: (bool)freeWhenDone { OF_UNRECOGNIZED_SELECTOR } + (instancetype)dataWithItemsNoCopy: (void *)items count: (size_t)count itemSize: (size_t)itemSize freeWhenDone: (bool)freeWhenDone { OF_UNRECOGNIZED_SELECTOR } #ifdef OF_HAVE_FILES + (instancetype)dataWithContentsOfFile: (OFString *)path { OF_UNRECOGNIZED_SELECTOR } #endif + (instancetype)dataWithContentsOfIRI: (OFIRI *)IRI { OF_UNRECOGNIZED_SELECTOR } + (instancetype)dataWithStringRepresentation: (OFString *)string { OF_UNRECOGNIZED_SELECTOR } + (instancetype)dataWithBase64EncodedString: (OFString *)string { OF_UNRECOGNIZED_SELECTOR } - (instancetype)initWithCount: (size_t)count allowsSwappableMemory: (bool)allowsSwappableMemory { return [self initWithCount: count itemSize: 1 allowsSwappableMemory: allowsSwappableMemory]; } - (instancetype)initWithCount: (size_t)count itemSize: (size_t)itemSize allowsSwappableMemory: (bool)allowsSwappableMemory { self = [super init]; @try { #if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) size_t pageSize = [OFSystemInfo pageSize]; #endif if (count > SIZE_MAX / itemSize) @throw [OFOutOfRangeException exception]; if (allowsSwappableMemory) { _items = OFAllocMemory(count, itemSize); _freeWhenDone = true; memset(_items, 0, count * itemSize); #if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) } else if (count * itemSize >= pageSize) _items = mapPages(OFRoundUpToPowerOf2(pageSize, count * itemSize) / pageSize); else { # if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS) struct Page *lastPage = OFTLSKeyGet(lastPageKey); # endif for (struct Page *page = lastPage; page != NULL; page = page->previous) { _items = allocateMemory(page, count * itemSize); if (_items != NULL) { _page = page; break; } } if (_items == NULL) { _page = addPage(true); _items = allocateMemory(_page, count * itemSize); if (_items == NULL) @throw [OFOutOfMemoryException exceptionWithRequestedSize: count * itemSize]; } } #else } else @throw [OFNotImplementedException exceptionWithSelector: _cmd object: nil]; #endif _count = count; _itemSize = itemSize; _allowsSwappableMemory = allowsSwappableMemory; } @catch (id e) { [self release]; @throw e; } return self; } - (instancetype)init { OF_INVALID_INIT_METHOD } - (instancetype)initWithItemSize: (size_t)itemSize { OF_INVALID_INIT_METHOD } - (instancetype)initWithItems: (const void *)items count: (size_t)count { OF_INVALID_INIT_METHOD } - (instancetype)initWithItems: (const void *)items count: (size_t)count itemSize: (size_t)itemSize { OF_INVALID_INIT_METHOD } - (instancetype)initWithItemsNoCopy: (void *)items count: (size_t)count freeWhenDone: (bool)freeWhenDone { OF_INVALID_INIT_METHOD } - (instancetype)initWithItemsNoCopy: (void *)items count: (size_t)count itemSize: (size_t)itemSize freeWhenDone: (bool)freeWhenDone { OF_INVALID_INIT_METHOD } #ifdef OF_HAVE_FILES - (instancetype)initWithContentsOfFile: (OFString *)path { OF_INVALID_INIT_METHOD } #endif - (instancetype)initWithContentsOfIRI: (OFIRI *)IRI { OF_INVALID_INIT_METHOD } - (instancetype)initWithStringRepresentation: (OFString *)string { OF_INVALID_INIT_METHOD } - (instancetype)initWithBase64EncodedString: (OFString *)string { OF_INVALID_INIT_METHOD } - (void)dealloc { [self zero]; #if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) if (!_allowsSwappableMemory) { size_t pageSize = [OFSystemInfo pageSize]; if (_count * _itemSize > pageSize) unmapPages(_items, OFRoundUpToPowerOf2(pageSize, _count * _itemSize) / pageSize); else if (_page != NULL) { if (_items != NULL) freeMemory(_page, _items, _count * _itemSize); removePageIfEmpty(_page); } } #endif if (_freeWhenDone) OFFreeMemory(_items); [super dealloc]; } - (size_t)count { return _count; } - (size_t)itemSize { return _itemSize; } - (const void *)items { return _items; } - (void *)mutableItems { return _items; } - (void *)mutableItemAtIndex: (size_t)idx { if (idx >= _count) @throw [OFOutOfRangeException exception]; return _items + idx * _itemSize; } - (void)zero { OFZeroMemory(_items, _count * _itemSize); } - (id)copy { OFSecureData *copy = [[OFSecureData alloc] initWithCount: _count itemSize: _itemSize allowsSwappableMemory: _allowsSwappableMemory]; memcpy(copy.mutableItems, _items, _count * _itemSize); return copy; } - (id)mutableCopy { OFSecureData *copy = [[OFSecureData alloc] initWithCount: _count itemSize: _itemSize allowsSwappableMemory: _allowsSwappableMemory]; memcpy(copy.mutableItems, _items, _count * _itemSize); return copy; } - (bool)isEqual: (id)object { OFData *otherData; const unsigned char *otherDataItems; unsigned char diff; if (object == self) return true; if (![object isKindOfClass: [OFData class]]) return false; otherData = object; otherDataItems = otherData.items; if (otherData.count != _count || otherData.itemSize != _itemSize) return false; diff = 0; for (size_t i = 0; i < _count * _itemSize; i++) diff |= otherDataItems[i] ^ _items[i]; return (diff == 0); } - (OFString *)description { return @"<OFSecureData>"; } - (OFString *)stringRepresentation { OF_UNRECOGNIZED_SELECTOR } - (OFString *)stringByBase64Encoding { OF_UNRECOGNIZED_SELECTOR } #ifdef OF_HAVE_FILES - (void)writeToFile: (OFString *)path { OF_UNRECOGNIZED_SELECTOR } #endif - (void)writeToIRI: (OFIRI *)IRI { OF_UNRECOGNIZED_SELECTOR } - (OFData *)messagePackRepresentation { OF_UNRECOGNIZED_SELECTOR } @end