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/*
* XMSS Address
* (C) 2016 Matthias Gierlings
*
* Botan is released under the Simplified BSD License (see license.txt)
**/
#ifndef BOTAN_XMSS_ADDRESS_H__
#define BOTAN_XMSS_ADDRESS_H__
#include <cstdint>
#include <limits>
#include <botan/xmss_tools.h>
namespace Botan {
/**
* Generic XMSS Address type holding 256 Bits of data. Properties
* of all three address formats L-Tree-Address, Hash-Tree-Address,
* OTS-Hash-Address can be called depending on the type currently
* assigned to the XMSS address using set_type().
**/
class XMSS_Address
{
public:
/**
* Distinct types an XMSS_Address can represent. The available types
* are specified in [1] - 2.5 Hash Function Address Scheme.
**/
enum class Type : uint8_t
{
None = 255,
OTS_Hash_Address = 0,
LTree_Address = 1,
Hash_Tree_Address = 2
};
/**
* The available modes for an XMSS Address:
* - Key_Mode: Used to generate the key.
* - Mask_Mode: Sets the n-byte bitmask (OTS-Hash-Address)
* - Mask_MSB_Mode: Used to generate the b most significant bytes of
* the 2n-byte bitmask (LTree Address and Hash Tree Address).
* - Mask_LSB_Mode: Used to generated the b least significant bytes
* of the 2n-byte bitmask. (LTree Address and Hash Tree Address).
**/
enum class Key_Mask : uint8_t
{
Key_Mode = 0,
Mask_Mode = 1,
Mask_MSB_Mode = 1,
Mask_LSB_Mode = 2
};
/**
* Layer Address for XMSS is constantly zero and can not be changed this
* property is only of relevance to XMSS_MT.
*
* @return Layer address, which is constant 0 for XMSS.
**/
uint8_t get_layer_addr() const { return 0; }
/**
* Layer Address for XMSS is constantly zero and can not be changed this
* property is only of relevance to XMSS_MT. Calling this method for
* XMSS will result in an error.
**/
void set_layer_addr()
{
BOTAN_ASSERT(false, "Only available in XMSS_MT.");
}
/**
* Tree Address for XMSS is constantly zero and can not be changed this
* property is only of relevance to XMSS_MT.
*
* @return Tree address, which is constant 0 for XMSS.
**/
uint64_t get_tree_addr() const { return 0; }
/**
* Tree Address for XMSS is constantly zero and can not be changed this
* property is only of relevance to XMSS_MT. Calling this method for
* XMSS will result in an error.
**/
void set_tree_addr()
{
BOTAN_ASSERT(false, "Only available in XMSS_MT.");
}
/**
* retrieves the logical type currently assigned to the XMSS Address
* instance.
*
* @return Type of the address (OTS_Hash_Address, LTree_Address or
* Hash_Tree_Address)
**/
Type get_type() const
{
return static_cast<Type>(m_data[15]);
}
/**
* Changes the logical type currently assigned to the XMSS Address
* instance. Please note that changing the type will automatically
* reset the 128 LSBs of the Address to zero. This affects the
* key_mask_mode property as well as all properties identified by
* XMSS_Address::Property.
*
* @param type Type that shall be assigned to the address
* (OTS_Hash_Address, LTree_Address or Hash_Tree_Address)
**/
void set_type(Type type)
{
m_data[15] = static_cast<uint8_t>(type);
std::fill(m_data.begin() + 16, m_data.end(), static_cast<uint8_t>(0));
}
/**
* Retrieves the mode the address os currently set to. (See
* XMSS_Address::Key_Mask for details.)
*
* @return currently active mode
**/
Key_Mask get_key_mask_mode() const
{
return Key_Mask(m_data[31]);
}
/**
* Changes the mode the address currently used address mode.
* (XMSS_Address::Key_Mask for details.)
*
* @param value Target mode.
**/
void set_key_mask_mode(Key_Mask value)
{
BOTAN_ASSERT(value != Key_Mask::Mask_LSB_Mode ||
get_type() != Type::OTS_Hash_Address,
"Invalid Key_Mask for current XMSS_Address::Type.");
m_data[31] = static_cast<uint8_t>(value);
}
/**
* Retrieve the index of the OTS key pair within the tree. A call to
* this method is only valid, if the address type is set to
* Type::OTS_Hash_Address.
*
* @return index of OTS key pair.
**/
uint32_t get_ots_address() const
{
BOTAN_ASSERT(get_type() == Type::OTS_Hash_Address,
"get_ots_address() requires XMSS_Address::Type::"
"OTS_Hash_Address.");
return get_hi32(2);
}
/**
* Sets the index of the OTS key pair within the tree. A call to this
* method is only valid, if the address type is set to
* Type::OTS_Hash_Address.
*
* @param value index of OTS key pair.
**/
void set_ots_address(uint32_t value)
{
BOTAN_ASSERT(get_type() == Type::OTS_Hash_Address,
"set_ots_address() requires XMSS_Address::Type::"
"OTS_Hash_Address.");
set_hi32(2, value);
}
/**
* Retrieves the index of the leaf computed with this LTree. A call to
* this method is only valid, if the address type is set to
* Type::LTree_Address.
*
* @return index of the leaf.
**/
uint32_t get_ltree_address() const
{
BOTAN_ASSERT(get_type() == Type::LTree_Address,
"set_ltree_address() requires XMSS_Address::Type::"
"LTree_Address.");
return get_hi32(2);
}
/**
* Sets the index of the leaf computed with this LTree. A call to this
* method is only valid, if the address type is set to
* Type::LTree_Address.
*
* @param value index of the leaf.
**/
void set_ltree_address(uint32_t value)
{
BOTAN_ASSERT(get_type() == Type::LTree_Address,
"set_ltree_address() requires XMSS_Address::Type::"
"LTree_Address.");
set_hi32(2, value);
}
/**
* Retrieve the chain address. A call to this method is only valid, if
* the address type is set to Type::OTS_Hash_Address.
*
* @return chain address.
**/
uint32_t get_chain_address() const
{
BOTAN_ASSERT(get_type() == Type::OTS_Hash_Address,
"get_chain_address() requires XMSS_Address::Type::"
"OTS_Hash_Address.");
return get_lo32(2);
}
/**
* Set the chain address. A call to this method is only valid, if
* the address type is set to Type::OTS_Hash_Address.
**/
void set_chain_address(uint32_t value)
{
BOTAN_ASSERT(get_type() == Type::OTS_Hash_Address,
"set_chain_address() requires XMSS_Address::Type::"
"OTS_Hash_Address.");
set_lo32(2, value);
}
/**
* Retrieves the height of the tree node to be computed within the
* tree. A call to this method is only valid, if the address type is
* set to Type::LTree_Address or Type::Hash_Tree_Address.
*
* @return height of the tree node.
**/
uint32_t get_tree_height() const
{
BOTAN_ASSERT(get_type() == Type::LTree_Address ||
get_type() == Type::Hash_Tree_Address,
"get_tree_height() requires XMSS_Address::Type::"
"LTree_Address or XMSS_Address::Type::Hash_Tree_Address.");
return get_lo32(2);
}
/**
* Sets the height of the tree node to be computed within the
* tree. A call to this method is only valid, if the address type is
* set to Type::LTree_Address or Type::Hash_Tree_Address.
*
* @param value height of the tree node.
**/
void set_tree_height(uint32_t value)
{
BOTAN_ASSERT(get_type() == Type::LTree_Address ||
get_type() == Type::Hash_Tree_Address,
"set_tree_height() requires XMSS_Address::Type::"
"LTree_Address or XMSS_Address::Type::Hash_Tree_Address.");
set_lo32(2, value);
}
/**
* Retrieves the address of the hash function call within the chain.
* A call to this method is only valid, if the address type is
* set to Type::OTS_Hash_Address.
*
* @return address of the hash function call within chain.
**/
uint32_t get_hash_address() const
{
BOTAN_ASSERT(get_type() == Type::OTS_Hash_Address,
"get_hash_address() requires XMSS_Address::Type::"
"OTS_Hash_Address.");
return get_hi32(3);
}
/**
* Sets the address of the hash function call within the chain.
* A call to this method is only valid, if the address type is
* set to Type::OTS_Hash_Address.
*
* @param value address of the hash function call within chain.
**/
void set_hash_address(uint32_t value)
{
BOTAN_ASSERT(get_type() == Type::OTS_Hash_Address,
"set_hash_address() requires XMSS_Address::Type::"
"OTS_Hash_Address.");
set_hi32(3, value);
}
/**
* Retrieves the index of the tree node at current tree height in the
* tree. A call to this method is only valid, if the address type is
* set to Type::LTree_Address or Type::Hash_Tree_Address.
*
* @return index of the tree node at current height.
**/
uint32_t get_tree_index() const
{
BOTAN_ASSERT(get_type() == Type::LTree_Address ||
get_type() == Type::Hash_Tree_Address,
"get_tree_index() requires XMSS_Address::Type::"
"LTree_Address or XMSS_Address::Type::Hash_Tree_Address.");
return get_hi32(3);
}
/**
* Sets the index of the tree node at current tree height in the
* tree. A call to this method is only valid, if the address type is
* set to Type::LTree_Address or Type::Hash_Tree_Address.
*
* @param value index of the tree node at current height.
**/
void set_tree_index(uint32_t value)
{
BOTAN_ASSERT(get_type() == Type::LTree_Address ||
get_type() == Type::Hash_Tree_Address,
"set_tree_index() requires XMSS_Address::Type::"
"LTree_Address or XMSS_Address::Type::Hash_Tree_Address.");
set_hi32(3, value);
}
const secure_vector<uint8_t>& bytes() const
{
return m_data;
}
secure_vector<uint8_t>& bytes()
{
return m_data;
}
/**
* @return the size of an XMSS_Address
**/
size_t size() const
{
return m_data.size();
}
XMSS_Address()
: m_data(m_address_size)
{
set_type(Type::None);
}
XMSS_Address(Type type)
: m_data(m_address_size)
{
set_type(type);
}
XMSS_Address(const secure_vector<uint8_t>& data) : m_data(data)
{
BOTAN_ASSERT(m_data.size() == m_address_size,
"XMSS_Address must be of 256 bits size.");
}
XMSS_Address(secure_vector<uint8_t>&& data) : m_data(std::move(data))
{
BOTAN_ASSERT(m_data.size() == m_address_size,
"XMSS_Address must be of 256 bits size.");
}
protected:
secure_vector<uint8_t> m_data;
private:
static const size_t m_address_size = 32;
inline uint32_t get_hi32(size_t offset) const
{
return ((0x000000FF & m_data[8 * offset + 3]) |
(0x000000FF & m_data[8 * offset + 2]) << 8 |
(0x000000FF & m_data[8 * offset + 1]) << 16 |
(0x000000FF & m_data[8 * offset ]) << 24);
}
inline void set_hi32(size_t offset, uint32_t value)
{
m_data[offset * 8 ] = ((value >> 24) & 0xFF);
m_data[offset * 8 + 1] = ((value >> 16) & 0xFF);
m_data[offset * 8 + 2] = ((value >> 8) & 0xFF);
m_data[offset * 8 + 3] = ((value ) & 0xFF);
}
inline uint32_t get_lo32(size_t offset) const
{
return ((0x000000FF & m_data[8 * offset + 7]) |
(0x000000FF & m_data[8 * offset + 6]) << 8 |
(0x000000FF & m_data[8 * offset + 5]) << 16 |
(0x000000FF & m_data[8 * offset + 4]) << 24);
}
inline void set_lo32(size_t offset, uint32_t value)
{
m_data[offset * 8 + 4] = ((value >> 24) & 0xFF);
m_data[offset * 8 + 5] = ((value >> 16) & 0xFF);
m_data[offset * 8 + 6] = ((value >> 8) & 0xFF);
m_data[offset * 8 + 7] = ((value ) & 0xFF);
}
};
}
#endif
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