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// Copyright 2015 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef BSSL_DER_INPUT_H_
#define BSSL_DER_INPUT_H_
#include <stddef.h>
#include <stdint.h>
#include <string>
#include <string_view>
#include <openssl/base.h>
#include <openssl/span.h>
#if defined(__has_include)
#if __has_include(<version>)
#include <version>
#endif
#endif
#if defined(__cpp_lib_ranges) && __cpp_lib_ranges >= 201911L
#include <ranges>
BSSL_NAMESPACE_BEGIN
namespace der {
class OPENSSL_EXPORT Input;
}
BSSL_NAMESPACE_END
// Mark `Input` as satisfying the `view` and `borrowed_range` concepts. This
// should be done before the definition of `Input`, so that any inlined calls to
// range functionality use the correct specializations.
template <>
inline constexpr bool std::ranges::enable_view<bssl::der::Input> = true;
template <>
inline constexpr bool std::ranges::enable_borrowed_range<bssl::der::Input> =
true;
#endif
BSSL_NAMESPACE_BEGIN
namespace der {
// An opaque class that represents a fixed buffer of data of a fixed length,
// to be used as an input to other operations. An Input object does not own
// the data it references, so callers are responsible for making sure that
// the data outlives the Input object and any other associated objects.
//
// All data access for an Input should be done through the ByteReader class.
// This class and associated classes are designed with safety in mind to make it
// difficult to read memory outside of an Input. ByteReader provides a simple
// API for reading through the Input sequentially. For more complicated uses,
// multiple instances of a ByteReader for a particular Input can be created.
//
// TODO(crbug.com/boringssl/661): This class will gradually be replaced with
// bssl::Span<const uint8_t>. Avoid relying on APIs that are not part of
// bssl::Span.
class OPENSSL_EXPORT Input {
public:
// Creates an empty Input, one from which no data can be read.
constexpr Input() = default;
// Creates an Input from a span. The constructed Input is only valid as long
// as |data| points to live memory. If constructed from, say, a
// |std::vector<uint8_t>|, mutating the vector will invalidate the Input.
constexpr Input(bssl::Span<const uint8_t> data) : data_(data) {}
// Creates an Input from the given |data| and |len|.
constexpr explicit Input(const uint8_t *data, size_t len)
: data_(Span(data, len)) {}
// Deprecated: Use StringAsBytes.
//
// Creates an Input from a std::string_view. The constructed Input is only
// valid as long as |data| points to live memory. If constructed from, say, a
// |std::string|, mutating the vector will invalidate the Input.
explicit Input(std::string_view str) : data_(StringAsBytes(str)) {}
// The following APIs have the same semantics as in |bssl::Span|.
constexpr Span<const uint8_t>::iterator begin() const {
return data_.begin();
}
constexpr Span<const uint8_t>::iterator end() const { return data_.end(); }
constexpr const uint8_t *data() const { return data_.data(); }
constexpr size_t size() const { return data_.size(); }
constexpr bool empty() const { return data_.empty(); }
constexpr uint8_t operator[](size_t idx) const { return data_[idx]; }
constexpr uint8_t front() const { return data_.front(); }
constexpr uint8_t back() const { return data_.back(); }
constexpr Input subspan(size_t pos = 0,
size_t len = Span<const uint8_t>::npos) const {
return Input(data_.subspan(pos, len));
}
constexpr Input first(size_t len) const { return Input(data_.first(len)); }
constexpr Input last(size_t len) const { return Input(data_.last(len)); }
// Deprecated: use BytesAsStringView and convert to std::string.
//
// Returns a copy of the data represented by this object as a std::string.
std::string AsString() const;
// Deprecated: Use ByteAsString.
//
// Returns a std::string_view pointing to the same data as the Input. The
// resulting string_view must not outlive the data that was used to construct
// this Input.
std::string_view AsStringView() const { return BytesAsStringView(data_); }
// Deprecated: This class implicitly converts to bssl::Span<const uint8_t>.
//
// Returns a span pointing to the same data as the Input. The resulting span
// must not outlive the data that was used to construct this Input.
Span<const uint8_t> AsSpan() const { return *this; }
// Deprecated: Use size() instead.
constexpr size_t Length() const { return size(); }
// Deprecated: Use data() instead.
constexpr const uint8_t *UnsafeData() const { return data(); }
private:
// TODO(crbug.com/770501): Replace this type with span altogether.
Span<const uint8_t> data_;
};
// Return true if |lhs|'s data and |rhs|'s data are byte-wise equal.
OPENSSL_EXPORT bool operator==(Input lhs, Input rhs);
// Return true if |lhs|'s data and |rhs|'s data are not byte-wise equal.
OPENSSL_EXPORT bool operator!=(Input lhs, Input rhs);
// Returns true if |lhs|'s data is lexicographically less than |rhs|'s data.
OPENSSL_EXPORT constexpr bool operator<(Input lhs, Input rhs) {
// This is `std::lexicographical_compare`, but that's not `constexpr` until
// C++-20.
auto *it1 = lhs.data();
auto *it2 = rhs.data();
const auto *end1 = lhs.data() + lhs.size();
const auto *end2 = rhs.data() + rhs.size();
for (; it1 != end1 && it2 != end2; ++it1, ++it2) {
if (*it1 < *it2) {
return true;
} else if (*it2 < *it1) {
return false;
}
}
return it2 != end2;
}
// This class provides ways to read data from an Input in a bounds-checked way.
// The ByteReader is designed to read through the input sequentially. Once a
// byte has been read with a ByteReader, the caller can't go back and re-read
// that byte with the same reader. Of course, the caller can create multiple
// ByteReaders for the same input (or copy an existing ByteReader).
//
// For something simple like a single byte lookahead, the easiest way to do
// that is to copy the ByteReader and call ReadByte() on the copy - the original
// ByteReader will be unaffected and the peeked byte will be read through
// ReadByte(). For other read patterns, it can be useful to mark where one is
// in a ByteReader to be able to return to that spot.
//
// Some operations using Mark can also be done by creating a copy of the
// ByteReader. By using a Mark instead, you use less memory, but more
// importantly, you end up with an immutable object that matches the semantics
// of what is intended.
class OPENSSL_EXPORT ByteReader {
public:
// Creates a ByteReader to read the data represented by an Input.
explicit ByteReader(Input in);
// Reads a single byte from the input source, putting the byte read in
// |*byte_p|. If a byte cannot be read from the input (because there is
// no input left), then this method returns false.
[[nodiscard]] bool ReadByte(uint8_t *out);
// Reads |len| bytes from the input source, and initializes an Input to
// point to that data. If there aren't enough bytes left in the input source,
// then this method returns false.
[[nodiscard]] bool ReadBytes(size_t len, Input *out);
// Returns how many bytes are left to read.
size_t BytesLeft() const { return data_.size(); }
// Returns whether there is any more data to be read.
bool HasMore();
private:
void Advance(size_t len);
bssl::Span<const uint8_t> data_;
};
} // namespace der
BSSL_NAMESPACE_END
#endif // BSSL_DER_INPUT_H_