//===-- wrappers_c.inc ------------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef SCUDO_PREFIX #error "Define SCUDO_PREFIX prior to including this file!" #endif // malloc-type functions have to be aligned to std::max_align_t. This is // distinct from (1U << SCUDO_MIN_ALIGNMENT_LOG), since C++ new-type functions // do not have to abide by the same requirement. #ifndef SCUDO_MALLOC_ALIGNMENT #define SCUDO_MALLOC_ALIGNMENT FIRST_32_SECOND_64(8U, 16U) #endif extern "C" { INTERFACE WEAK void *SCUDO_PREFIX(calloc)(size_t nmemb, size_t size) { scudo::uptr Product; if (UNLIKELY(scudo::checkForCallocOverflow(size, nmemb, &Product))) { if (SCUDO_ALLOCATOR.canReturnNull()) { errno = ENOMEM; return nullptr; } scudo::reportCallocOverflow(nmemb, size); } return scudo::setErrnoOnNull(SCUDO_ALLOCATOR.allocate( Product, scudo::Chunk::Origin::Malloc, SCUDO_MALLOC_ALIGNMENT, true)); } INTERFACE WEAK void SCUDO_PREFIX(free)(void *ptr) { SCUDO_ALLOCATOR.deallocate(ptr, scudo::Chunk::Origin::Malloc); } INTERFACE WEAK struct SCUDO_MALLINFO SCUDO_PREFIX(mallinfo)(void) { struct SCUDO_MALLINFO Info = {}; scudo::StatCounters Stats; SCUDO_ALLOCATOR.getStats(Stats); // Space allocated in mmapped regions (bytes) Info.hblkhd = static_cast<__scudo_mallinfo_data_t>(Stats[scudo::StatMapped]); // Maximum total allocated space (bytes) Info.usmblks = Info.hblkhd; // Space in freed fastbin blocks (bytes) Info.fsmblks = static_cast<__scudo_mallinfo_data_t>(Stats[scudo::StatFree]); // Total allocated space (bytes) Info.uordblks = static_cast<__scudo_mallinfo_data_t>(Stats[scudo::StatAllocated]); // Total free space (bytes) Info.fordblks = Info.fsmblks; return Info; } INTERFACE WEAK void *SCUDO_PREFIX(malloc)(size_t size) { return scudo::setErrnoOnNull(SCUDO_ALLOCATOR.allocate( size, scudo::Chunk::Origin::Malloc, SCUDO_MALLOC_ALIGNMENT)); } #if SCUDO_ANDROID INTERFACE WEAK size_t SCUDO_PREFIX(malloc_usable_size)(const void *ptr) { #else INTERFACE WEAK size_t SCUDO_PREFIX(malloc_usable_size)(void *ptr) { #endif return SCUDO_ALLOCATOR.getUsableSize(ptr); } INTERFACE WEAK void *SCUDO_PREFIX(memalign)(size_t alignment, size_t size) { // Android rounds up the alignment to a power of two if it isn't one. if (SCUDO_ANDROID) { if (UNLIKELY(!alignment)) { alignment = 1U; } else { if (UNLIKELY(!scudo::isPowerOfTwo(alignment))) alignment = scudo::roundUpToPowerOfTwo(alignment); } } else { if (UNLIKELY(!scudo::isPowerOfTwo(alignment))) { if (SCUDO_ALLOCATOR.canReturnNull()) { errno = EINVAL; return nullptr; } scudo::reportAlignmentNotPowerOfTwo(alignment); } } return SCUDO_ALLOCATOR.allocate(size, scudo::Chunk::Origin::Memalign, alignment); } INTERFACE WEAK int SCUDO_PREFIX(posix_memalign)(void **memptr, size_t alignment, size_t size) { if (UNLIKELY(scudo::checkPosixMemalignAlignment(alignment))) { if (!SCUDO_ALLOCATOR.canReturnNull()) scudo::reportInvalidPosixMemalignAlignment(alignment); return EINVAL; } void *Ptr = SCUDO_ALLOCATOR.allocate(size, scudo::Chunk::Origin::Memalign, alignment); if (UNLIKELY(!Ptr)) return ENOMEM; *memptr = Ptr; return 0; } INTERFACE WEAK void *SCUDO_PREFIX(pvalloc)(size_t size) { const scudo::uptr PageSize = scudo::getPageSizeCached(); if (UNLIKELY(scudo::checkForPvallocOverflow(size, PageSize))) { if (SCUDO_ALLOCATOR.canReturnNull()) { errno = ENOMEM; return nullptr; } scudo::reportPvallocOverflow(size); } // pvalloc(0) should allocate one page. return scudo::setErrnoOnNull(SCUDO_ALLOCATOR.allocate( size ? scudo::roundUpTo(size, PageSize) : PageSize, scudo::Chunk::Origin::Memalign, PageSize)); } INTERFACE WEAK void *SCUDO_PREFIX(realloc)(void *ptr, size_t size) { if (!ptr) return scudo::setErrnoOnNull(SCUDO_ALLOCATOR.allocate( size, scudo::Chunk::Origin::Malloc, SCUDO_MALLOC_ALIGNMENT)); if (size == 0) { SCUDO_ALLOCATOR.deallocate(ptr, scudo::Chunk::Origin::Malloc); return nullptr; } return scudo::setErrnoOnNull( SCUDO_ALLOCATOR.reallocate(ptr, size, SCUDO_MALLOC_ALIGNMENT)); } INTERFACE WEAK void *SCUDO_PREFIX(valloc)(size_t size) { return scudo::setErrnoOnNull(SCUDO_ALLOCATOR.allocate( size, scudo::Chunk::Origin::Memalign, scudo::getPageSizeCached())); } INTERFACE WEAK int SCUDO_PREFIX(malloc_iterate)( uintptr_t base, size_t size, void (*callback)(uintptr_t base, size_t size, void *arg), void *arg) { SCUDO_ALLOCATOR.iterateOverChunks(base, size, callback, arg); return 0; } INTERFACE WEAK void SCUDO_PREFIX(malloc_enable)() { SCUDO_ALLOCATOR.enable(); } INTERFACE WEAK void SCUDO_PREFIX(malloc_disable)() { SCUDO_ALLOCATOR.disable(); } void SCUDO_PREFIX(malloc_postinit)() { pthread_atfork(SCUDO_PREFIX(malloc_disable), SCUDO_PREFIX(malloc_enable), SCUDO_PREFIX(malloc_enable)); } INTERFACE WEAK int SCUDO_PREFIX(mallopt)(int param, UNUSED int value) { if (param == M_DECAY_TIME) { // TODO(kostyak): set release_to_os_interval_ms accordingly. return 1; } else if (param == M_PURGE) { SCUDO_ALLOCATOR.releaseToOS(); return 1; } return 0; } INTERFACE WEAK void *SCUDO_PREFIX(aligned_alloc)(size_t alignment, size_t size) { if (UNLIKELY(scudo::checkAlignedAllocAlignmentAndSize(alignment, size))) { if (SCUDO_ALLOCATOR.canReturnNull()) { errno = EINVAL; return nullptr; } scudo::reportInvalidAlignedAllocAlignment(alignment, size); } return scudo::setErrnoOnNull( SCUDO_ALLOCATOR.allocate(size, scudo::Chunk::Origin::Malloc, alignment)); } INTERFACE WEAK int SCUDO_PREFIX(malloc_info)(UNUSED int options, FILE *stream) { fputs("", stream); fputs("", stream); return 0; } } // extern "C"