construct/include/ircd/cbor/cbor.h

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.

#pragma once
#define HAVE_IRCD_CBOR_H

/// Concise Binary Object Representation (RFC7049)
///
namespace ircd::cbor
{
	IRCD_EXCEPTION(ircd::error, error);
	IRCD_EXCEPTION(error, type_error);
	IRCD_EXCEPTION(error, parse_error);
	IRCD_EXCEPTION(parse_error, buffer_underrun);

	struct positive;
	struct negative;
	struct binary;
	struct string;
	struct array;
	struct object;
	struct tag;
	struct primitive;

	enum major :uint8_t;
	enum minor :uint8_t;
	struct head;
	struct item;

	string_view reflect(const enum major &);
	enum major major(const const_buffer &);
}

/// Item head.
///
/// This object represents the head byte and any following-integer bytes under
/// its const_buffer. If the major type has a payload, it starts immediately
/// following the end of this object's buffer. The first byte of this object's
/// buffer is the leading head byte. This object's buffer will never be empty()
/// unless it's default-initialized (i.e not pointing at anything).
///
/// This is used to query information about the item from the head data.
///
struct ircd::cbor::head
:const_buffer
{
	static uint8_t major(const uint8_t &);       // Major type
	static uint8_t minor(const uint8_t &);       // Minor type
	static size_t length(const uint8_t &);       // (1 + size(following()))

	// Member ops when buffer has >= 1 byte
	const uint8_t &leading() const;              // Reference the leading byte
	enum major major() const;                    // major(leading())
	enum minor minor() const;                    // minor(leading())
	size_t length() const;                       // length(leading())

	// Get bytes following leading byte based on major/minor
	const_buffer following() const;
	template<class T> const T &following() const;

	// Construct from at least first byte of item or more
	head(const const_buffer &);
	head() = default;
	head(head &&) = default;
	head(const head &) = default;
};

/// Abstract item
///
struct ircd::cbor::item
:const_buffer
{
	operator head() const;
	const_buffer value() const;

	item(const const_buffer &buf);
	item() = default;
};

/// Positive integer item.
///
/// Represents a positive integer item. This is a buffer spanning the item,
/// which is same span as the cbor::head buffer because positive integer items
/// only have a payload of an integer item within or following the leading head
/// byte.
///
/// The integer value is returned through the cast operator.
///
struct ircd::cbor::positive
:item
{
	uint64_t value() const;
	operator uint64_t() const;

	positive(const head &);
	positive() = default;
};

/// Negative integer item.
///
/// This is similar to cbor::positive except that the integer returned is signed
/// and computed from 1 - cbor::positive(buf).
///
struct ircd::cbor::negative
:positive
{
	int64_t value() const;
	operator int64_t() const;

	negative(const head &);
	negative() = default;
};

/// Binary buffer item
///
///
struct ircd::cbor::binary
:positive
{
	const_buffer value() const;

	binary(const const_buffer &);
};

struct ircd::cbor::string
:binary
{
	string_view value() const;
	explicit operator string_view() const;

	string(const const_buffer &);
};

struct ircd::cbor::array
:item
{
	struct const_iterator;

	size_t count() const;
	const_buffer value() const;

	const_iterator begin() const;
	const_iterator end() const;

	item operator[](size_t i) const;

	array(const const_buffer &);
};

struct ircd::cbor::array::const_iterator
{
	cbor::array array;
	const_buffer state;

  public:
	bool operator!() const
	{
		return ircd::empty(state);
	}

	explicit operator bool() const
	{
		return !operator!();
	}

	const const_buffer &operator*() const
	{
		return state;
	}

	const const_buffer *operator->() const
	{
		return &state;
	}

	const_iterator &operator++();

	const_iterator(const cbor::array &);
};

struct ircd::cbor::object
:item
{
	struct member;
	struct const_iterator;

	size_t count() const;
	const_buffer value() const;
	member operator[](const string_view &name) const;

	object(const const_buffer &);
};

struct ircd::cbor::object::member
:std::pair<item, item>
{
	using std::pair<item, item>::pair;
};

struct ircd::cbor::object::const_iterator
{
	cbor::object object;
	member state;

  public:
	bool operator!() const
	{
		return ircd::empty(state.first);
	}

	explicit operator bool() const
	{
		return !operator!();
	}

	const member &operator*() const
	{
		return state;
	}

	const member *operator->() const
	{
		return &state;
	}

	const_iterator &operator++();

	const_iterator(const cbor::object &);
};

/*
union ircd::cbor::primitive
{
	bool ud;
	bool nul;
	bool boolean;
	float fsingle;
	double fdouble;
};

struct ircd::cbor::item
:const_buffer
{
	item(const const_buffer &);
	item() = default;

	friend enum major major(const item &);
};

struct ircd::cbor::binary
:const_buffer
{
	binary(const item &);
};

struct ircd::cbor::object
:const_buffer
{
	using member = std::pair<item, item>;

	using const_buffer::const_buffer;
	object(const item &);
};

struct ircd::cbor::tag
:const_buffer
{
	using const_buffer::const_buffer;
	tag(const item &);
};
*/

enum ircd::cbor::major
:uint8_t
{
	POSITIVE   = 0,  ///< Z*
	NEGATIVE   = 1,  ///< Z-
	BINARY     = 2,  ///< Raw byte sequence
	STRING     = 3,  ///< UTF-8 character sequence
	ARRAY      = 4,  ///< Array of items
	OBJECT     = 5,  ///< Dictionary of items
	TAG        = 6,  ///< CBOR extensions (IANA registered)
	PRIMITIVE  = 7,  ///< Literals / floats
};

enum ircd::cbor::minor
:uint8_t
{
	FALSE      = 20,  ///< False
	TRUE       = 21,  ///< True
	NUL        = 22,  ///< Null
	UD         = 23,  ///< Undefined value
	U8         = 24,  ///< 8 bits follow
	U16        = 25,  ///< 16 bits follow
	F16        = 25,  ///< IEEE754 half-precision (16 bits follow)
	U32        = 26,  ///< 32 bits follow
	F32        = 26,  ///< IEEE754 single-precision (32 bits follow)
	U64        = 27,  ///< 64 bits follow
	F64        = 27,  ///< IEEE754 double-precision (64 bits follow)
	STREAM     = 31,  ///< Variable length (terminated by BREAK)
	BREAK      = 31,  ///< Terminator code
};
ircd: Move preliminary cbor into directory. 2018-08-09 10:24:12 +02:00			`// Matrix Construct`
			`//`
			`// Copyright (C) Matrix Construct Developers, Authors & Contributors`
			`// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>`
			`//`
			`// Permission to use, copy, modify, and/or distribute this software for any`
			`// purpose with or without fee is hereby granted, provided that the above`
			`// copyright notice and this permission notice is present in all copies. The`
			`// full license for this software is available in the LICENSE file.`

			`#pragma once`
			`#define HAVE_IRCD_CBOR_H`

			`/// Concise Binary Object Representation (RFC7049)`
			`///`
			`namespace ircd::cbor`
			`{`
			`IRCD_EXCEPTION(ircd::error, error);`
			`IRCD_EXCEPTION(error, type_error);`
			`IRCD_EXCEPTION(error, parse_error);`
			`IRCD_EXCEPTION(parse_error, buffer_underrun);`

			`struct positive;`
			`struct negative;`
			`struct binary;`
			`struct string;`
			`struct array;`
			`struct object;`
			`struct tag;`
			`struct primitive;`

			`enum major :uint8_t;`
			`enum minor :uint8_t;`
			`struct head;`
			`struct item;`

			`string_view reflect(const enum major &);`
			`enum major major(const const_buffer &);`
			`}`

			`/// Item head.`
			`///`
			`/// This object represents the head byte and any following-integer bytes under`
			`/// its const_buffer. If the major type has a payload, it starts immediately`
			`/// following the end of this object's buffer. The first byte of this object's`
			`/// buffer is the leading head byte. This object's buffer will never be empty()`
			`/// unless it's default-initialized (i.e not pointing at anything).`
			`///`
			`/// This is used to query information about the item from the head data.`
			`///`
			`struct ircd::cbor::head`
			`:const_buffer`
			`{`
			`static uint8_t major(const uint8_t &); // Major type`
			`static uint8_t minor(const uint8_t &); // Minor type`
			`static size_t length(const uint8_t &); // (1 + size(following()))`

			`// Member ops when buffer has >= 1 byte`
			`const uint8_t &leading() const; // Reference the leading byte`
			`enum major major() const; // major(leading())`
			`enum minor minor() const; // minor(leading())`
			`size_t length() const; // length(leading())`

			`// Get bytes following leading byte based on major/minor`
			`const_buffer following() const;`
			`template<class T> const T &following() const;`

			`// Construct from at least first byte of item or more`
			`head(const const_buffer &);`
			`head() = default;`
			`head(head &&) = default;`
			`head(const head &) = default;`
			`};`

			`/// Abstract item`
			`///`
			`struct ircd::cbor::item`
			`:const_buffer`
			`{`
			`operator head() const;`
			`const_buffer value() const;`

			`item(const const_buffer &buf);`
			`item() = default;`
			`};`

			`/// Positive integer item.`
			`///`
			`/// Represents a positive integer item. This is a buffer spanning the item,`
			`/// which is same span as the cbor::head buffer because positive integer items`
			`/// only have a payload of an integer item within or following the leading head`
			`/// byte.`
			`///`
			`/// The integer value is returned through the cast operator.`
			`///`
			`struct ircd::cbor::positive`
			`:item`
			`{`
			`uint64_t value() const;`
			`operator uint64_t() const;`

			`positive(const head &);`
			`positive() = default;`
			`};`

			`/// Negative integer item.`
			`///`
			`/// This is similar to cbor::positive except that the integer returned is signed`
			`/// and computed from 1 - cbor::positive(buf).`
			`///`
			`struct ircd::cbor::negative`
			`:positive`
			`{`
			`int64_t value() const;`
			`operator int64_t() const;`

			`negative(const head &);`
			`negative() = default;`
			`};`

			`/// Binary buffer item`
			`///`
			`///`
			`struct ircd::cbor::binary`
			`:positive`
			`{`
			`const_buffer value() const;`

			`binary(const const_buffer &);`
			`};`

			`struct ircd::cbor::string`
			`:binary`
			`{`
			`string_view value() const;`
			`explicit operator string_view() const;`

			`string(const const_buffer &);`
			`};`

			`struct ircd::cbor::array`
			`:item`
			`{`
			`struct const_iterator;`

			`size_t count() const;`
			`const_buffer value() const;`

			`const_iterator begin() const;`
			`const_iterator end() const;`

			`item operator[](size_t i) const;`

			`array(const const_buffer &);`
			`};`

			`struct ircd::cbor::array::const_iterator`
			`{`
			`cbor::array array;`
			`const_buffer state;`

			`public:`
			`bool operator!() const`
			`{`
			`return ircd::empty(state);`
			`}`

			`explicit operator bool() const`
			`{`
			`return !operator!();`
			`}`

			`const const_buffer &operator*() const`
			`{`
			`return state;`
			`}`

			`const const_buffer *operator->() const`
			`{`
			`return &state;`
			`}`

			`const_iterator &operator++();`

			`const_iterator(const cbor::array &);`
			`};`

			`struct ircd::cbor::object`
			`:item`
			`{`
			`struct member;`
			`struct const_iterator;`

			`size_t count() const;`
			`const_buffer value() const;`
			`member operator[](const string_view &name) const;`

			`object(const const_buffer &);`
			`};`

			`struct ircd::cbor::object::member`
			`:std::pair<item, item>`
			`{`
			`using std::pair<item, item>::pair;`
			`};`

			`struct ircd::cbor::object::const_iterator`
			`{`
			`cbor::object object;`
			`member state;`

			`public:`
			`bool operator!() const`
			`{`
			`return ircd::empty(state.first);`
			`}`

			`explicit operator bool() const`
			`{`
			`return !operator!();`
			`}`

			`const member &operator*() const`
			`{`
			`return state;`
			`}`

			`const member *operator->() const`
			`{`
			`return &state;`
			`}`

			`const_iterator &operator++();`

			`const_iterator(const cbor::object &);`
			`};`

			`/*`
			`union ircd::cbor::primitive`
			`{`
			`bool ud;`
			`bool nul;`
			`bool boolean;`
			`float fsingle;`
			`double fdouble;`
			`};`

			`struct ircd::cbor::item`
			`:const_buffer`
			`{`
			`item(const const_buffer &);`
			`item() = default;`

			`friend enum major major(const item &);`
			`};`

			`struct ircd::cbor::binary`
			`:const_buffer`
			`{`
			`binary(const item &);`
			`};`

			`struct ircd::cbor::object`
			`:const_buffer`
			`{`
			`using member = std::pair<item, item>;`

			`using const_buffer::const_buffer;`
			`object(const item &);`
			`};`

			`struct ircd::cbor::tag`
			`:const_buffer`
			`{`
			`using const_buffer::const_buffer;`
			`tag(const item &);`
			`};`
			`*/`

			`enum ircd::cbor::major`
			`:uint8_t`
			`{`
			`POSITIVE = 0, ///< Z*`
			`NEGATIVE = 1, ///< Z-`
			`BINARY = 2, ///< Raw byte sequence`
			`STRING = 3, ///< UTF-8 character sequence`
			`ARRAY = 4, ///< Array of items`
			`OBJECT = 5, ///< Dictionary of items`
			`TAG = 6, ///< CBOR extensions (IANA registered)`
			`PRIMITIVE = 7, ///< Literals / floats`
			`};`

			`enum ircd::cbor::minor`
			`:uint8_t`
			`{`
			`FALSE = 20, ///< False`
			`TRUE = 21, ///< True`
			`NUL = 22, ///< Null`
			`UD = 23, ///< Undefined value`
			`U8 = 24, ///< 8 bits follow`
			`U16 = 25, ///< 16 bits follow`
			`F16 = 25, ///< IEEE754 half-precision (16 bits follow)`
			`U32 = 26, ///< 32 bits follow`
			`F32 = 26, ///< IEEE754 single-precision (32 bits follow)`
			`U64 = 27, ///< 64 bits follow`
			`F64 = 27, ///< IEEE754 double-precision (64 bits follow)`
			`STREAM = 31, ///< Variable length (terminated by BREAK)`
			`BREAK = 31, ///< Terminator code`
			`};`