mirror of
https://github.com/LongSoft/UEFITool.git
synced 2024-11-25 17:38:22 +08:00
934ce1f3f8
As the first step towards automated parsing, this change set replaces outdated BootGuard-related parsers with shiny new KaitaiStruct-based ones. It also does the following: - improves Intel FIT definitions by using the relevant specification - adds sha1, sha384, sha512 and sm3 digest implementations - updates LZMA SDK to v22.01 - moves GUIDs out of include files to prevent multiple instantiations - enforces C++11 - adds Kaitai-based parsers for Intel FIT, BootGuard v1 and BootGuard v2 structures - makes many small refactorings here, there and everywhere
296 lines
9.2 KiB
C++
296 lines
9.2 KiB
C++
#ifndef KAITAI_STREAM_H
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#define KAITAI_STREAM_H
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// Kaitai Struct runtime API version: x.y.z = 'xxxyyyzzz' decimal
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#define KAITAI_STRUCT_VERSION 10000L
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#include <istream>
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#include <sstream>
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#include <stdint.h>
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#include <sys/types.h>
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#include <limits>
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namespace kaitai {
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/**
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* Kaitai Stream class (kaitai::kstream) is an implementation of
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* <a href="https://doc.kaitai.io/stream_api.html">Kaitai Struct stream API</a>
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* for C++/STL. It's implemented as a wrapper over generic STL std::istream.
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*
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* It provides a wide variety of simple methods to read (parse) binary
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* representations of primitive types, such as integer and floating
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* point numbers, byte arrays and strings, and also provides stream
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* positioning / navigation methods with unified cross-language and
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* cross-toolkit semantics.
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*
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* Typically, end users won't access Kaitai Stream class manually, but would
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* describe a binary structure format using .ksy language and then would use
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* Kaitai Struct compiler to generate source code in desired target language.
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* That code, in turn, would use this class and API to do the actual parsing
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* job.
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*/
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class kstream {
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public:
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/**
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* Constructs new Kaitai Stream object, wrapping a given std::istream.
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* \param io istream object to use for this Kaitai Stream
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*/
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kstream(std::istream* io);
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/**
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* Constructs new Kaitai Stream object, wrapping a given in-memory data
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* buffer.
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* \param data data buffer to use for this Kaitai Stream
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*/
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kstream(const std::string& data);
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void close();
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/** @name Stream positioning */
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//@{
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/**
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* Check if stream pointer is at the end of stream. Note that the semantics
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* are different from traditional STL semantics: one does *not* need to do a
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* read (which will fail) after the actual end of the stream to trigger EOF
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* flag, which can be accessed after that read. It is sufficient to just be
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* at the end of the stream for this method to return true.
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* \return "true" if we are located at the end of the stream.
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*/
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bool is_eof() const;
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/**
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* Set stream pointer to designated position.
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* \param pos new position (offset in bytes from the beginning of the stream)
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*/
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void seek(uint64_t pos);
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/**
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* Get current position of a stream pointer.
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* \return pointer position, number of bytes from the beginning of the stream
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*/
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uint64_t pos();
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/**
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* Get total size of the stream in bytes.
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* \return size of the stream in bytes
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*/
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uint64_t size();
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//@}
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/** @name Integer numbers */
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//@{
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// ------------------------------------------------------------------------
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// Signed
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// ------------------------------------------------------------------------
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int8_t read_s1();
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// ........................................................................
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// Big-endian
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// ........................................................................
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int16_t read_s2be();
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int32_t read_s4be();
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int64_t read_s8be();
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// ........................................................................
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// Little-endian
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// ........................................................................
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int16_t read_s2le();
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int32_t read_s4le();
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int64_t read_s8le();
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// ------------------------------------------------------------------------
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// Unsigned
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// ------------------------------------------------------------------------
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uint8_t read_u1();
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// ........................................................................
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// Big-endian
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// ........................................................................
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uint16_t read_u2be();
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uint32_t read_u4be();
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uint64_t read_u8be();
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// ........................................................................
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// Little-endian
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// ........................................................................
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uint16_t read_u2le();
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uint32_t read_u4le();
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uint64_t read_u8le();
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//@}
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/** @name Floating point numbers */
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//@{
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// ........................................................................
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// Big-endian
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// ........................................................................
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float read_f4be();
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double read_f8be();
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// ........................................................................
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// Little-endian
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// ........................................................................
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float read_f4le();
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double read_f8le();
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//@}
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/** @name Unaligned bit values */
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//@{
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void align_to_byte();
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uint64_t read_bits_int_be(int n);
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uint64_t read_bits_int(int n);
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uint64_t read_bits_int_le(int n);
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//@}
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/** @name Byte arrays */
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//@{
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std::string read_bytes(std::streamsize len);
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std::string read_bytes_full();
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std::string read_bytes_term(char term, bool include, bool consume, bool eos_error);
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std::string ensure_fixed_contents(std::string expected);
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static std::string bytes_strip_right(std::string src, char pad_byte);
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static std::string bytes_terminate(std::string src, char term, bool include);
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static std::string bytes_to_str(std::string src, std::string src_enc);
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//@}
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/** @name Byte array processing */
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//@{
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/**
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* Performs a XOR processing with given data, XORing every byte of input with a single
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* given value.
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* @param data data to process
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* @param key value to XOR with
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* @return processed data
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*/
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static std::string process_xor_one(std::string data, uint8_t key);
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/**
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* Performs a XOR processing with given data, XORing every byte of input with a key
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* array, repeating key array many times, if necessary (i.e. if data array is longer
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* than key array).
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* @param data data to process
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* @param key array of bytes to XOR with
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* @return processed data
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*/
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static std::string process_xor_many(std::string data, std::string key);
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/**
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* Performs a circular left rotation shift for a given buffer by a given amount of bits,
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* using groups of 1 bytes each time. Right circular rotation should be performed
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* using this procedure with corrected amount.
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* @param data source data to process
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* @param amount number of bits to shift by
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* @return copy of source array with requested shift applied
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*/
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static std::string process_rotate_left(std::string data, int amount);
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#ifdef KS_ZLIB
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/**
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* Performs an unpacking ("inflation") of zlib-compressed data with usual zlib headers.
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* @param data data to unpack
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* @return unpacked data
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* @throws IOException
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*/
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static std::string process_zlib(std::string data);
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#endif
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//@}
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/**
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* Performs modulo operation between two integers: dividend `a`
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* and divisor `b`. Divisor `b` is expected to be positive. The
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* result is always 0 <= x <= b - 1.
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*/
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static int mod(int a, int b);
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/**
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* Converts given integer `val` to a decimal string representation.
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* Should be used in place of std::to_string() (which is available only
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* since C++11) in older C++ implementations.
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*/
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template<typename I>
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// check for C++11 support - https://stackoverflow.com/a/40512515
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#if __cplusplus >= 201103L || (defined(_MSC_VER) && _MSC_VER >= 1900)
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// https://stackoverflow.com/a/27913885
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typename std::enable_if<
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std::is_integral<I>::value &&
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// check if we don't have something too large like GCC's `__int128_t`
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std::numeric_limits<I>::max() >= 0 &&
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std::numeric_limits<I>::max() <= std::numeric_limits<uint64_t>::max(),
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std::string
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>::type
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#else
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std::string
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#endif
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static to_string(I val) {
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// in theory, `digits10 + 3` would be enough (minus sign + leading digit
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// + null terminator), but let's add a little more to be safe
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char buf[std::numeric_limits<I>::digits10 + 5];
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if (val < 0) {
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buf[0] = '-';
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// get absolute value without undefined behavior (https://stackoverflow.com/a/12231604)
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unsigned_to_decimal(-static_cast<uint64_t>(val), &buf[1]);
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} else {
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unsigned_to_decimal(val, buf);
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}
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return std::string(buf);
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}
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/**
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* Reverses given string `val`, so that the first character becomes the
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* last and the last one becomes the first. This should be used to avoid
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* the need of local variables at the caller.
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*/
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static std::string reverse(std::string val);
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/**
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* Finds the minimal byte in a byte array, treating bytes as
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* unsigned values.
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* @param val byte array to scan
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* @return minimal byte in byte array as integer
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*/
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static uint8_t byte_array_min(const std::string val);
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/**
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* Finds the maximal byte in a byte array, treating bytes as
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* unsigned values.
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* @param val byte array to scan
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* @return maximal byte in byte array as integer
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*/
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static uint8_t byte_array_max(const std::string val);
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private:
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std::istream* m_io;
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std::istringstream m_io_str;
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int m_bits_left;
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uint64_t m_bits;
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void init();
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void exceptions_enable() const;
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static void unsigned_to_decimal(uint64_t number, char *buffer);
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static const int ZLIB_BUF_SIZE = 128 * 1024;
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};
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}
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#endif
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