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// memory_range.h: Define the google_breakpad::MemoryRange class, which
// is a lightweight wrapper with a pointer and a length to encapsulate
// a contiguous range of memory.
#ifndef COMMON_MEMORY_RANGE_H_
#define COMMON_MEMORY_RANGE_H_
#include <stddef.h>
#include "google_breakpad/common/breakpad_types.h"
namespace google_breakpad {
// A lightweight wrapper with a pointer and a length to encapsulate a
// contiguous range of memory. It provides helper methods for checked
// access of a subrange of the memory. Its implemementation does not
// allocate memory or call into libc functions, and is thus safer to use
// in a crashed environment.
class MemoryRange {
public:
MemoryRange() : data_(NULL), length_(0) {}
MemoryRange(const void* data, size_t length) {
Set(data, length);
}
// Returns true if this memory range contains no data.
bool IsEmpty() const {
// Set() guarantees that |length_| is zero if |data_| is NULL.
return length_ == 0;
}
// Resets to an empty range.
void Reset() {
data_ = NULL;
length_ = 0;
}
// Sets this memory range to point to |data| and its length to |length|.
void Set(const void* data, size_t length) {
data_ = reinterpret_cast<const uint8_t*>(data);
// Always set |length_| to zero if |data_| is NULL.
length_ = data ? length : 0;
}
// Returns true if this range covers a subrange of |sub_length| bytes
// at |sub_offset| bytes of this memory range, or false otherwise.
bool Covers(size_t sub_offset, size_t sub_length) const {
// The following checks verify that:
// 1. sub_offset is within [ 0 .. length_ - 1 ]
// 2. sub_offset + sub_length is within
// [ sub_offset .. length_ ]
return sub_offset < length_ &&
sub_offset + sub_length >= sub_offset &&
sub_offset + sub_length <= length_;
}
// Returns a raw data pointer to a subrange of |sub_length| bytes at
// |sub_offset| bytes of this memory range, or NULL if the subrange
// is out of bounds.
const void* GetData(size_t sub_offset, size_t sub_length) const {
return Covers(sub_offset, sub_length) ? (data_ + sub_offset) : NULL;
}
// Same as the two-argument version of GetData() but uses sizeof(DataType)
// as the subrange length and returns an |DataType| pointer for convenience.
template <typename DataType>
const DataType* GetData(size_t sub_offset) const {
return reinterpret_cast<const DataType*>(
GetData(sub_offset, sizeof(DataType)));
}
// Returns a raw pointer to the |element_index|-th element of an array
// of elements of length |element_size| starting at |sub_offset| bytes
// of this memory range, or NULL if the element is out of bounds.
const void* GetArrayElement(size_t element_offset,
size_t element_size,
unsigned element_index) const {
size_t sub_offset = element_offset + element_index * element_size;
return GetData(sub_offset, element_size);
}
// Same as the three-argument version of GetArrayElement() but deduces
// the element size using sizeof(ElementType) and returns an |ElementType|
// pointer for convenience.
template <typename ElementType>
const ElementType* GetArrayElement(size_t element_offset,
unsigned element_index) const {
return reinterpret_cast<const ElementType*>(
GetArrayElement(element_offset, sizeof(ElementType), element_index));
}
// Returns a subrange of |sub_length| bytes at |sub_offset| bytes of
// this memory range, or an empty range if the subrange is out of bounds.
MemoryRange Subrange(size_t sub_offset, size_t sub_length) const {
return Covers(sub_offset, sub_length) ?
MemoryRange(data_ + sub_offset, sub_length) : MemoryRange();
}
// Returns a pointer to the beginning of this memory range.
const uint8_t* data() const { return data_; }
// Returns the length, in bytes, of this memory range.
size_t length() const { return length_; }
private:
// Pointer to the beginning of this memory range.
const uint8_t* data_;
// Length, in bytes, of this memory range.
size_t length_;
};
} // namespace google_breakpad
#endif // COMMON_MEMORY_RANGE_H_