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// Copyright 2015 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
// Memory allocation, alignment, copying, and comparing.
//
// DO NOT CALL SbMemoryAllocateUnchecked(), SbMemoryAllocateChecked()
// SbMemoryReallocateUnchecked(), SbMemoryReallocateChecked(),
// SbMemoryAllocateAlignedUnchecked(), SbMemoryAllocateAlignedChecked(),
// SbMemoryFree(), SbMemoryFreeAligned(). They are internal.
#ifndef STARBOARD_MEMORY_H_
#define STARBOARD_MEMORY_H_
#include "starboard/configuration.h"
#include "starboard/export.h"
#include "starboard/system.h"
#include "starboard/types.h"
#ifdef __cplusplus
extern "C" {
#endif
#define SB_MEMORY_MAP_FAILED ((void*)-1) // NOLINT(readability/casting)
// The bitwise OR of these flags should be passed to SbMemoryMap to indicate
// how the mapped memory can be used.
typedef enum SbMemoryMapFlags {
kSbMemoryMapProtectRead = 1 << 0, // Mapped memory can be read.
kSbMemoryMapProtectWrite = 1 << 1, // Mapped memory can be written to.
#if SB_CAN(MAP_EXECUTABLE_MEMORY)
kSbMemoryMapProtectExec = 1 << 2, // Mapped memory can be executed.
#endif
kSbMemoryMapProtectReadWrite =
kSbMemoryMapProtectRead | kSbMemoryMapProtectWrite,
} SbMemoryMapFlags;
// Checks whether |memory| is aligned to |alignment| bytes.
static SB_C_FORCE_INLINE bool SbMemoryIsAligned(const void* memory,
size_t alignment) {
return ((uintptr_t)memory) % alignment == 0;
}
// Rounds |size| up to SB_MEMORY_PAGE_SIZE.
static SB_C_FORCE_INLINE size_t SbMemoryAlignToPageSize(size_t size) {
return (size + SB_MEMORY_PAGE_SIZE - 1) & ~(SB_MEMORY_PAGE_SIZE - 1);
}
static SB_C_FORCE_INLINE void SbAbortIfAllocationFailed(size_t requested_bytes,
void* address) {
if (SB_UNLIKELY(requested_bytes > 0 && address == NULL)) {
// Will abort the program if no debugger is attached.
SbSystemBreakIntoDebugger();
}
}
// Allocates a chunk of memory of at least |size| bytes, returning it. If unable
// to allocate the memory, it returns NULL. If |size| is 0, it may return NULL
// or it may return a unique pointer value that can be passed to
// SbMemoryDeallocate. Meant to be a drop-in replacement for malloc.
//
// This memory function should be called from the Cobalt codebase.
SB_EXPORT void* SbMemoryAllocate(size_t size);
// Attempts to resize |memory| to be at least |size| bytes, without touching the
// contents. If it cannot perform the fast resize, it will allocate a new chunk
// of memory, copy the contents over, and free the previous chunk, returning a
// pointer to the new chunk. If it cannot perform the slow resize, it will
// return NULL, leaving the given memory chunk unchanged. |memory| may be NULL,
// in which case it behaves exactly like SbMemoryAllocateUnchecked. If |size|
// is 0, it may return NULL or it may return a unique pointer value that can be
// passed to SbMemoryDeallocate. Meant to be a drop-in replacement for realloc.
//
// This memory function should be called from the Cobalt codebase.
SB_EXPORT void* SbMemoryReallocate(void* memory, size_t size);
// Allocates a chunk of memory of at least |size| bytes, aligned to
// |alignment|, returning it. |alignment| must be a power of two, otherwise
// behavior is undefined. If unable to allocate the memory, it returns NULL.
// If |size| is 0, it may return NULL or it may return a unique aligned pointer
// value that can be passed to SbMemoryDeallocateAligned. Meant to be a drop-in
// replacement for memalign.
//
// This memory function should be called from the Cobalt codebase.
SB_EXPORT void* SbMemoryAllocateAligned(size_t alignment, size_t size);
// Frees a previously allocated chunk of memory. If |memory| is NULL, then it
// does nothing. Meant to be a drop-in replacement for free.
//
// This memory function should be called from the Cobalt codebase.
SB_EXPORT void SbMemoryDeallocate(void* memory);
// Frees a previously allocated chunk of aligned memory. If |memory| is NULL,
// then it does nothing. Meant to be a drop-in replacement for _aligned_free.
//
// This memory function should be called from the Cobalt codebase.
SB_EXPORT void SbMemoryDeallocateAligned(void* memory);
/////////////////////////////////////////////////////////////////
// The following functions must be provided by Starboard ports.
/////////////////////////////////////////////////////////////////
// This is the implementation of SbMemoryAllocate that must be
// provided by Starboard ports.
//
// DO NOT CALL. Call SbMemoryAllocate(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void* SbMemoryAllocateUnchecked(size_t size));
// This is the implementation of SbMemoryReallocate that must be
// provided by Starboard ports.
//
// DO NOT CALL. Call SbMemoryReallocate(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void* SbMemoryReallocateUnchecked(void* memory, size_t size));
// This is the implementation of SbMemoryAllocateAligned that must be
// provided by Starboard ports.
//
// DO NOT CALL. Call SbMemoryAllocateAligned(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void* SbMemoryAllocateAlignedUnchecked(size_t alignment,
size_t size));
// This is the implementation of SbMemoryDeallocate that must be provided by
// Starboard ports.
//
// DO NOT CALL. Call SbMemoryDeallocate(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void SbMemoryFree(void* memory));
// This is the implementation of SbMemoryFreeAligned that must be provided by
// Starboard ports.
//
// DO NOT CALL. Call SbMemoryDeallocateAligned(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void SbMemoryFreeAligned(void* memory));
#if SB_HAS(MMAP)
// Allocates |size_bytes| worth of physical memory pages and maps them into an
// available virtual region. |flags| is the bitwise or of the protection flags
// for the mapped memory as specified in SbMemoryMapFlags. On some platforms,
// |name| appears in the debugger and can be up to 32 bytes. Returns
// SB_MEMORY_MAP_FAILED on failure, as NULL is a valid return value.
SB_EXPORT void* SbMemoryMap(int64_t size_bytes, int flags, const char* name);
// Unmap |size_bytes| of physical pages starting from |virtual_address|,
// returning true on success. After this, [virtual_address, virtual_address +
// size_bytes) will not be read/writable. SbMemoryUnmap() can unmap multiple
// contiguous regions that were mapped with separate calls to
// SbMemoryMap(). E.g. if one call to SbMemoryMap(0x1000) returns (void*)0xA000
// and another call to SbMemoryMap(0x1000) returns (void*)0xB000,
// SbMemoryUnmap(0xA000, 0x2000) should free both.
SB_EXPORT bool SbMemoryUnmap(void* virtual_address, int64_t size_bytes);
#if SB_CAN(MAP_EXECUTABLE_MEMORY)
// Flushes any data in the given virtual address range that is cached locally in
// the current processor core to physical memory, ensuring that data and
// instruction caches are cleared. This is required to be called on executable
// memory that has been written to and might be executed in the future.
SB_EXPORT void SbMemoryFlush(void* virtual_address, int64_t size_bytes);
#endif
#endif // SB_HAS(MMAP)
// Gets the stack bounds for the current thread, placing the highest addressable
// byte + 1 in |out_high|, and the lowest addressable byte in |out_low|.
SB_EXPORT void SbMemoryGetStackBounds(void** out_high, void** out_low);
// Copies |count| sequential bytes from |source| to |destination|, without
// support for the |source| and |destination| regions overlapping. Behavior is
// undefined if |destination| or |source| are NULL. Does nothing if |count| is
// 0. Returns |destination|, for some reason. Meant to be a drop-in replacement
// for memcpy.
SB_EXPORT void* SbMemoryCopy(void* destination,
const void* source,
size_t count);
// Copies |count| sequential bytes from |source| to |destination|, with support
// for the |source| and |destination| regions overlapping. Behavior is
// undefined if |destination| or |source| are NULL. Does nothing if |count| is
// 0. Returns |destination|, for some reason. Meant to be a drop-in replacement
// for memmove.
SB_EXPORT void* SbMemoryMove(void* destination,
const void* source,
size_t count);
// Fills |count| sequential bytes starting at |destination|, with the unsigned
// char coercion of |byte_value|. Behavior is undefined if |destination| is
// NULL. Returns |destination|, for some reason. Does nothing if |count| is 0.
// Meant to be a drop-in replacement for memset.
SB_EXPORT void* SbMemorySet(void* destination, int byte_value, size_t count);
// Compares the contents of the first |count| bytes of |buffer1| and |buffer2|.
// returns -1 if |buffer1| is "less-than" |buffer2|, 0 if they are equal, or 1
// if |buffer1| is "greater-than" |buffer2|. Meant to be a drop-in replacement
// for memcmp.
SB_EXPORT int SbMemoryCompare(const void* buffer1,
const void* buffer2,
size_t count);
// Finds the lower 8-bits of |value| in the first |count| bytes of |buffer|,
// returning a pointer to the first found occurrence, or NULL if not
// found. Meant to be a drop-in replacement for memchr.
SB_EXPORT const void* SbMemoryFindByte(const void* buffer,
int value,
size_t count);
// A wrapper that implements a drop-in replacement for calloc, since some
// packages actually seem to use it.
static SB_C_INLINE void* SbMemoryCalloc(size_t count, size_t size) {
size_t total = count * size;
void* result = SbMemoryAllocate(total);
if (result) {
SbMemorySet(result, 0, total);
}
return result;
}
/////////////////////////////////////////////////////////////////
// Deprecated. Do not use.
/////////////////////////////////////////////////////////////////
// Same as SbMemoryAllocateUnchecked, but will abort() in the case of an
// allocation failure.
//
// DO NOT CALL. Call SbMemoryAllocate(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void* SbMemoryAllocateChecked(size_t size));
// Same as SbMemoryReallocateUnchecked, but will abort() in the case of an
// allocation failure.
//
// DO NOT CALL. Call SbMemoryReallocate(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void* SbMemoryReallocateChecked(void* memory, size_t size));
// Same as SbMemoryAllocateAlignedUnchecked, but will abort() in the case of an
// allocation failure.
//
// DO NOT CALL. Call SbMemoryAllocateAligned(...) instead.
SB_DEPRECATED_EXTERNAL(
SB_EXPORT void* SbMemoryAllocateAlignedChecked(size_t alignment,
size_t size));
#ifdef __cplusplus
} // extern "C"
#endif
#endif // STARBOARD_MEMORY_H_