Mirrors
/
monero
mirror of https://github.com/monero-project/monero.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Add Curve class, and Helios & Selene classes that derive from Curve

This commit is contained in:
j-berman 2024-05-22 01:31:27 -07:00
parent d9390c7b08
commit 29e0fe759e
5 changed files with 302 additions and 129 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

12
src/fcmp/curve_trees.h
View File

@ -133,9 +133,9 @@ public:
crypto::derive_key_image_generator(O, I);
return LeafTuple{
.O_x = m_c2.ed_25519_point_to_scalar(O),
.I_x = m_c2.ed_25519_point_to_scalar(I),
.C_x = m_c2.ed_25519_point_to_scalar(C)
.O_x = fcmp::tower_cycle::ed_25519_point_to_scalar(O),
.I_x = fcmp::tower_cycle::ed_25519_point_to_scalar(I),
.C_x = fcmp::tower_cycle::ed_25519_point_to_scalar(C)
};
};
@ -265,8 +265,7 @@ private:
fcmp::tower_cycle::extend_zeroes(curve, new_children.size(), prior_children);
return curve.hash_grow(
curve.GENERATORS,
curve.HASH_INIT_POINT,
curve.m_hash_init_point,
0,/*offset*/
typename C::Chunk{prior_children.data(), prior_children.size()},
new_children
@ -286,7 +285,6 @@ private:
fcmp::tower_cycle::extend_zeroes(m_c2, new_children.size(), prior_children);
return m_c2.hash_grow(
m_c2.GENERATORS,
last_chunk_ptr->last_parent,
last_chunk_ptr->child_offset,
typename C2::Chunk{prior_children.data(), prior_children.size()},
@ -333,7 +331,6 @@ private:
}
return curve.hash_grow(
curve.GENERATORS,
last_chunk_ptr->last_parent,
offset,
typename C::Chunk{prior_children.data(), prior_children.size()},
@ -505,6 +502,7 @@ private:
}
}
//member variables
private:
const C1 &m_c1;
const C2 &m_c2;

142
src/fcmp/tower_cycle.cpp
View File

@ -26,28 +26,125 @@
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "string_tools.h"
#include "tower_cycle.h"
namespace fcmp
{
namespace tower_cycle
{
namespace helios
{
//----------------------------------------------------------------------------------------------------------------------
SeleneScalar Helios::point_to_cycle_scalar(const Helios::Point &point) const
//----------------------------------------------------------------------------------------------------------------------
Helios::CycleScalar Helios::point_to_cycle_scalar(const Helios::Point &point) const
{
return fcmp_rust::helios_point_to_selene_scalar(point);
};
}
//----------------------------------------------------------------------------------------------------------------------
} //namespace helios
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
namespace selene
Selene::CycleScalar Selene::point_to_cycle_scalar(const Selene::Point &point) const
{
return fcmp_rust::selene_point_to_helios_scalar(point);
}
//----------------------------------------------------------------------------------------------------------------------
SeleneScalar Selene::ed_25519_point_to_scalar(const crypto::ec_point &point) const
Helios::Point Helios::hash_grow(
const Helios::Point &existing_hash,
const std::size_t offset,
const Helios::Chunk &prior_children,
const Helios::Chunk &new_children) const
{
return fcmp_rust::hash_grow_helios(
m_generators,
existing_hash,
offset,
prior_children,
new_children);
}
//----------------------------------------------------------------------------------------------------------------------
Selene::Point Selene::hash_grow(
const Selene::Point &existing_hash,
const std::size_t offset,
const Selene::Chunk &prior_children,
const Selene::Chunk &new_children) const
{
return fcmp_rust::hash_grow_selene(
m_generators,
existing_hash,
offset,
prior_children,
new_children);
}
//----------------------------------------------------------------------------------------------------------------------
Helios::Scalar Helios::clone(const Helios::Scalar &scalar) const
{
return fcmp_rust::clone_helios_scalar(scalar);
}
//----------------------------------------------------------------------------------------------------------------------
Selene::Scalar Selene::clone(const Selene::Scalar &scalar) const
{
return fcmp_rust::clone_selene_scalar(scalar);
}
//----------------------------------------------------------------------------------------------------------------------
Helios::Point Helios::clone(const Helios::Point &point) const
{
return fcmp_rust::clone_helios_point(point);
}
//----------------------------------------------------------------------------------------------------------------------
Selene::Point Selene::clone(const Selene::Point &point) const
{
return fcmp_rust::clone_selene_point(point);
}
//----------------------------------------------------------------------------------------------------------------------
Helios::Scalar Helios::zero_scalar() const
{
return fcmp_rust::helios_zero_scalar();
}
//----------------------------------------------------------------------------------------------------------------------
Selene::Scalar Selene::zero_scalar() const
{
return fcmp_rust::selene_zero_scalar();
}
//----------------------------------------------------------------------------------------------------------------------
std::array<uint8_t, 32UL> Helios::to_bytes(const Helios::Scalar &scalar) const
{
return fcmp_rust::helios_scalar_to_bytes(scalar);
}
//----------------------------------------------------------------------------------------------------------------------
std::array<uint8_t, 32UL> Selene::to_bytes(const Selene::Scalar &scalar) const
{
return fcmp_rust::selene_scalar_to_bytes(scalar);
}
//----------------------------------------------------------------------------------------------------------------------
std::array<uint8_t, 32UL> Helios::to_bytes(const Helios::Point &point) const
{
return fcmp_rust::helios_point_to_bytes(point);
}
//----------------------------------------------------------------------------------------------------------------------
std::array<uint8_t, 32UL> Selene::to_bytes(const Selene::Point &point) const
{
return fcmp_rust::selene_point_to_bytes(point);
}
//----------------------------------------------------------------------------------------------------------------------
std::string Helios::to_string(const typename Helios::Scalar &scalar) const
{
return epee::string_tools::pod_to_hex(this->to_bytes(scalar));
}
//----------------------------------------------------------------------------------------------------------------------
std::string Selene::to_string(const typename Selene::Scalar &scalar) const
{
return epee::string_tools::pod_to_hex(this->to_bytes(scalar));
}
//----------------------------------------------------------------------------------------------------------------------
std::string Helios::to_string(const typename Helios::Point &point) const
{
return epee::string_tools::pod_to_hex(this->to_bytes(point));
}
//----------------------------------------------------------------------------------------------------------------------
std::string Selene::to_string(const typename Selene::Point &point) const
{
return epee::string_tools::pod_to_hex(this->to_bytes(point));
}
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
SeleneScalar ed_25519_point_to_scalar(const crypto::ec_point &point)
{
static_assert(sizeof(RustEd25519Point) == sizeof(crypto::ec_point),
"expected same size ed25519 point to rust representation");
@ -56,15 +153,28 @@ SeleneScalar Selene::ed_25519_point_to_scalar(const crypto::ec_point &point) con
fcmp::tower_cycle::RustEd25519Point rust_point;
memcpy(&rust_point, &point, sizeof(fcmp::tower_cycle::RustEd25519Point));
return fcmp_rust::ed25519_point_to_selene_scalar(rust_point);
};
}
//----------------------------------------------------------------------------------------------------------------------
HeliosScalar Selene::point_to_cycle_scalar(const Selene::Point &point) const
Helios::Generators random_helios_generators()
{
return fcmp_rust::selene_point_to_helios_scalar(point);
};
return fcmp_rust::random_helios_generators();
}
//----------------------------------------------------------------------------------------------------------------------
} //namespace selene
Selene::Generators random_selene_generators()
{
return fcmp_rust::random_selene_generators();
}
//----------------------------------------------------------------------------------------------------------------------
Helios::Point random_helios_hash_init_point()
{
return fcmp_rust::random_helios_hash_init_point();
}
//----------------------------------------------------------------------------------------------------------------------
Selene::Point random_selene_hash_init_point()
{
return fcmp_rust::random_selene_hash_init_point();
}
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
} //namespace curves
} //namespace tower_cycle
} //namespace fcmp

201
src/fcmp/tower_cycle.h
View File

@ -31,7 +31,6 @@
#include "crypto/crypto.h"
#include "fcmp_rust/cxx.h"
#include "fcmp_rust/fcmp_rust.h"
#include "string_tools.h"
#include <string>
@ -41,119 +40,162 @@ namespace tower_cycle
{
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
// Rust types
//----------------------------------------------------------------------------------------------------------------------
using RustEd25519Point = std::array<uint8_t, 32UL>;
// Need to forward declare Scalar types for point_to_cycle_scalar below
using SeleneScalar = rust::Box<fcmp_rust::SeleneScalar>;
using HeliosScalar = rust::Box<fcmp_rust::HeliosScalar>;
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
namespace helios
struct HeliosT final
{
using Generators = rust::Box<fcmp_rust::HeliosGenerators>;
using Scalar = HeliosScalar;
using Point = rust::Box<fcmp_rust::HeliosPoint>;
using Chunk = rust::Slice<const Scalar>;
using CycleScalar = SeleneScalar;
};
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
// TODO: Curve classes that inherit from a parent
static struct Helios final
struct SeleneT final
{
using Generators = rust::Box<fcmp_rust::HeliosGenerators>;
using Scalar = HeliosScalar;
using Point = rust::Box<fcmp_rust::HeliosPoint>;
using Chunk = rust::Slice<const Scalar>;
using Generators = rust::Box<fcmp_rust::SeleneGenerators>;
using Scalar = SeleneScalar;
using Point = rust::Box<fcmp_rust::SelenePoint>;
using Chunk = rust::Slice<const Scalar>;
using CycleScalar = HeliosScalar;
};
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
// Parent curve class that curves in a curve cycle must implement
//----------------------------------------------------------------------------------------------------------------------
template<typename C>
class Curve
{
//constructor
public:
Curve(const typename C::Generators &generators, const typename C::Point &hash_init_point):
m_generators{generators},
m_hash_init_point{hash_init_point}
{};
// TODO: static constants
const Generators GENERATORS = fcmp_rust::random_helios_generators();
const Point HASH_INIT_POINT = fcmp_rust::random_helios_hash_init_point();
//member functions
public:
// Read the x-coordinate from this curve's point to get this curve's cycle scalar
virtual typename C::CycleScalar point_to_cycle_scalar(const typename C::Point &point) const = 0;
// Helios point x-coordinates are Selene scalars
SeleneScalar point_to_cycle_scalar(const Point &point) const;
virtual typename C::Point hash_grow(
const typename C::Point &existing_hash,
const std::size_t offset,
const typename C::Chunk &prior_children,
const typename C::Chunk &new_children) const = 0;
virtual typename C::Scalar clone(const typename C::Scalar &scalar) const = 0;
virtual typename C::Point clone(const typename C::Point &point) const = 0;
virtual typename C::Scalar zero_scalar() const = 0;
virtual std::array<uint8_t, 32UL> to_bytes(const typename C::Scalar &scalar) const = 0;
virtual std::array<uint8_t, 32UL> to_bytes(const typename C::Point &point) const = 0;
virtual std::string to_string(const typename C::Scalar &scalar) const = 0;
virtual std::string to_string(const typename C::Point &point) const = 0;
//member variables
public:
// TODO: make these static constants
const typename C::Generators &m_generators;
const typename C::Point &m_hash_init_point;
};
//----------------------------------------------------------------------------------------------------------------------
class Helios final : public Curve<HeliosT>
{
//typedefs
public:
using Generators = HeliosT::Generators;
using Scalar = HeliosT::Scalar;
using Point = HeliosT::Point;
using Chunk = HeliosT::Chunk;
using CycleScalar = HeliosT::CycleScalar;
//constructor
public:
Helios(const Generators &generators, const Point &hash_init_point)
: Curve<HeliosT>(generators, hash_init_point)
{};
//member functions
public:
CycleScalar point_to_cycle_scalar(const Point &point) const override;
Point hash_grow(
const Generators &generators,
const Point &existing_hash,
const std::size_t offset,
const Chunk &prior_children,
const Chunk &new_children) const
{
return fcmp_rust::hash_grow_helios(
generators,
existing_hash,
offset,
prior_children,
new_children);
}
const Chunk &new_children) const override;
Scalar clone(const Scalar &scalar) const { return fcmp_rust::clone_helios_scalar(scalar); }
Point clone(const Point &point) const { return fcmp_rust::clone_helios_point(point); }
Scalar clone(const Scalar &scalar) const override;
Point clone(const Point &point) const override;
Scalar zero_scalar() const { return fcmp_rust::helios_zero_scalar(); }
Scalar zero_scalar() const override;
std::array<uint8_t, 32UL> to_bytes(const Scalar &scalar) const
{ return fcmp_rust::helios_scalar_to_bytes(scalar); }
std::array<uint8_t, 32UL> to_bytes(const Point &point) const
{ return fcmp_rust::helios_point_to_bytes(point); }
std::array<uint8_t, 32UL> to_bytes(const Scalar &scalar) const override;
std::array<uint8_t, 32UL> to_bytes(const Point &point) const override;
std::string to_string(const Scalar &scalar) const
{ return epee::string_tools::pod_to_hex(to_bytes(scalar)); }
std::string to_string(const Point &point) const
{ return epee::string_tools::pod_to_hex(to_bytes(point)); }
} HELIOS;
}//namespace helios
std::string to_string(const Scalar &scalar) const override;
std::string to_string(const Point &point) const override;
};
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
namespace selene
class Selene final : public Curve<SeleneT>
{
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
static struct Selene final
{
using Generators = rust::Box<fcmp_rust::SeleneGenerators>;
using Scalar = SeleneScalar;
using Point = rust::Box<fcmp_rust::SelenePoint>;
using Chunk = rust::Slice<const Scalar>;
//typedefs
public:
using Generators = SeleneT::Generators;
using Scalar = SeleneT::Scalar;
using Point = SeleneT::Point;
using Chunk = SeleneT::Chunk;
using CycleScalar = SeleneT::CycleScalar;
// TODO: static constants
const Generators GENERATORS = fcmp_rust::random_selene_generators();
const Point HASH_INIT_POINT = fcmp_rust::random_selene_hash_init_point();
//constructor
public:
Selene(const Generators &generators, const Point &hash_init_point)
: Curve<SeleneT>(generators, hash_init_point)
{};
// Ed25519 point x-coordinates are Selene scalars
SeleneScalar ed_25519_point_to_scalar(const crypto::ec_point &point) const;
// Selene point x-coordinates are Helios scalars
HeliosScalar point_to_cycle_scalar(const Point &point) const;
//member functions
public:
CycleScalar point_to_cycle_scalar(const Point &point) const override;
Point hash_grow(
const Generators &generators,
const Point &existing_hash,
const std::size_t offset,
const Chunk &prior_children,
const Chunk &new_children) const
{
return fcmp_rust::hash_grow_selene(
generators,
existing_hash,
offset,
prior_children,
new_children);
};
const Chunk &new_children) const override;
Scalar clone(const Scalar &scalar) const { return fcmp_rust::clone_selene_scalar(scalar); }
Point clone(const Point &point) const { return fcmp_rust::clone_selene_point(point); }
Scalar clone(const Scalar &scalar) const override;
Point clone(const Point &point) const override;
Scalar zero_scalar() const { return fcmp_rust::selene_zero_scalar(); }
Scalar zero_scalar() const override;
std::array<uint8_t, 32UL> to_bytes(const Scalar &scalar) const
{ return fcmp_rust::selene_scalar_to_bytes(scalar); }
std::array<uint8_t, 32UL> to_bytes(const Point &point) const
{ return fcmp_rust::selene_point_to_bytes(point); }
std::array<uint8_t, 32UL> to_bytes(const Scalar &scalar) const override;
std::array<uint8_t, 32UL> to_bytes(const Point &point) const override;
std::string to_string(const Scalar &scalar) const
{ return epee::string_tools::pod_to_hex(to_bytes(scalar)); }
std::string to_string(const Point &point) const
{ return epee::string_tools::pod_to_hex(to_bytes(point)); }
} SELENE;
}// namespace selene
std::string to_string(const Scalar &scalar) const override;
std::string to_string(const Point &point) const override;
};
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
// Ed25519 point x-coordinates are Selene scalars
SeleneScalar ed_25519_point_to_scalar(const crypto::ec_point &point);
//----------------------------------------------------------------------------------------------------------------------
// TODO: use static constants and get rid of the below functions
Helios::Generators random_helios_generators();
Selene::Generators random_selene_generators();
Helios::Point random_helios_hash_init_point();
Selene::Point random_selene_hash_init_point();
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
// TODO: implement in cpp file
template <typename C>
static void extend_zeroes(const C &curve,
const std::size_t num_zeroes,
@ -165,6 +207,7 @@ static void extend_zeroes(const C &curve,
zeroes_inout.emplace_back(curve.zero_scalar());
}
//----------------------------------------------------------------------------------------------------------------------
// TODO: move impl into cpp
template <typename C_POINTS, typename C_SCALARS>
static void extend_scalars_from_cycle_points(const C_POINTS &curve,
const std::vector<typename C_POINTS::Point> &points,

67
tests/unit_tests/curve_trees.cpp
View File

@ -365,10 +365,9 @@ bool CurveTreesUnitTest::validate_tree(const CurveTreesUnitTest::Tree &tree)
m_curve_trees.m_leaf_layer_chunk_width);
}
//----------------------------------------------------------------------------------------------------------------------
//----------------------------------------------------------------------------------------------------------------------
// Logging helpers
//----------------------------------------------------------------------------------------------------------------------
static void log_last_chunks(const CurveTreesV1::LastChunks &last_chunks)
void CurveTreesUnitTest::log_last_chunks(const CurveTreesV1::LastChunks &last_chunks)
{
const auto &c1_last_chunks = last_chunks.c1_last_chunks;
const auto &c2_last_chunks = last_chunks.c2_last_chunks;
@ -388,8 +387,8 @@ static void log_last_chunks(const CurveTreesV1::LastChunks &last_chunks)
const CurveTreesV1::LastChunkData<Selene> &last_chunk = c2_last_chunks[c2_idx];
MDEBUG("child_offset: " << last_chunk.child_offset
<< " , last_child: " << fcmp::tower_cycle::selene::SELENE.to_string(last_chunk.last_child)
<< " , last_parent: " << fcmp::tower_cycle::selene::SELENE.to_string(last_chunk.last_parent)
<< " , last_child: " << m_curve_trees.m_c2.to_string(last_chunk.last_child)
<< " , last_parent: " << m_curve_trees.m_c2.to_string(last_chunk.last_parent)
<< " , child_layer_size: " << last_chunk.child_layer_size
<< " , parent_layer_size: " << last_chunk.parent_layer_size);
@ -402,8 +401,8 @@ static void log_last_chunks(const CurveTreesV1::LastChunks &last_chunks)
const CurveTreesV1::LastChunkData<Helios> &last_chunk = c1_last_chunks[c1_idx];
MDEBUG("child_offset: " << last_chunk.child_offset
<< " , last_child: " << fcmp::tower_cycle::helios::HELIOS.to_string(last_chunk.last_child)
<< " , last_parent: " << fcmp::tower_cycle::helios::HELIOS.to_string(last_chunk.last_parent)
<< " , last_child: " << m_curve_trees.m_c1.to_string(last_chunk.last_child)
<< " , last_parent: " << m_curve_trees.m_c1.to_string(last_chunk.last_parent)
<< " , child_layer_size: " << last_chunk.child_layer_size
<< " , parent_layer_size: " << last_chunk.parent_layer_size);
@ -414,7 +413,7 @@ static void log_last_chunks(const CurveTreesV1::LastChunks &last_chunks)
}
}
//----------------------------------------------------------------------------------------------------------------------
static void log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension)
void CurveTreesUnitTest::log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension)
{
const auto &c1_extensions = tree_extension.c1_layer_extensions;
const auto &c2_extensions = tree_extension.c2_layer_extensions;
@ -427,9 +426,9 @@ static void log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension
{
const auto &leaf = tree_extension.leaves.tuples[i];
const auto O_x = fcmp::tower_cycle::selene::SELENE.to_string(leaf.O_x);
const auto I_x = fcmp::tower_cycle::selene::SELENE.to_string(leaf.I_x);
const auto C_x = fcmp::tower_cycle::selene::SELENE.to_string(leaf.C_x);
const auto O_x = m_curve_trees.m_c2.to_string(leaf.O_x);
const auto I_x = m_curve_trees.m_c2.to_string(leaf.I_x);
const auto C_x = m_curve_trees.m_c2.to_string(leaf.C_x);
MDEBUG("Leaf idx " << ((i*CurveTreesV1::LEAF_TUPLE_SIZE) + tree_extension.leaves.start_idx)
<< " : { O_x: " << O_x << " , I_x: " << I_x << " , C_x: " << C_x << " }");
@ -449,7 +448,7 @@ static void log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension
for (std::size_t j = 0; j < c2_layer.hashes.size(); ++j)
MDEBUG("Hash idx: " << (j + c2_layer.start_idx) << " , hash: "
<< fcmp::tower_cycle::selene::SELENE.to_string(c2_layer.hashes[j]));
<< m_curve_trees.m_c2.to_string(c2_layer.hashes[j]));
++c2_idx;
}
@ -462,7 +461,7 @@ static void log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension
for (std::size_t j = 0; j < c1_layer.hashes.size(); ++j)
MDEBUG("Hash idx: " << (j + c1_layer.start_idx) << " , hash: "
<< fcmp::tower_cycle::helios::HELIOS.to_string(c1_layer.hashes[j]));
<< m_curve_trees.m_c1.to_string(c1_layer.hashes[j]));
++c1_idx;
}
@ -471,7 +470,7 @@ static void log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension
}
}
//----------------------------------------------------------------------------------------------------------------------
static void log_tree(const CurveTreesUnitTest::Tree &tree)
void CurveTreesUnitTest::log_tree(const CurveTreesUnitTest::Tree &tree)
{
MDEBUG("Tree has " << tree.leaves.size() << " leaves, "
<< tree.c1_layers.size() << " helios layers, " << tree.c2_layers.size() << " selene layers");
@ -480,9 +479,9 @@ static void log_tree(const CurveTreesUnitTest::Tree &tree)
{
const auto &leaf = tree.leaves[i];
const auto O_x = fcmp::tower_cycle::selene::SELENE.to_string(leaf.O_x);
const auto I_x = fcmp::tower_cycle::selene::SELENE.to_string(leaf.I_x);
const auto C_x = fcmp::tower_cycle::selene::SELENE.to_string(leaf.C_x);
const auto O_x = m_curve_trees.m_c2.to_string(leaf.O_x);
const auto I_x = m_curve_trees.m_c2.to_string(leaf.I_x);
const auto C_x = m_curve_trees.m_c2.to_string(leaf.C_x);
MDEBUG("Leaf idx " << i << " : { O_x: " << O_x << " , I_x: " << I_x << " , C_x: " << C_x << " }");
}
@ -500,7 +499,7 @@ static void log_tree(const CurveTreesUnitTest::Tree &tree)
MDEBUG("Selene layer size: " << c2_layer.size() << " , tree layer: " << i);
for (std::size_t j = 0; j < c2_layer.size(); ++j)
MDEBUG("Hash idx: " << j << " , hash: " << fcmp::tower_cycle::selene::SELENE.to_string(c2_layer[j]));
MDEBUG("Hash idx: " << j << " , hash: " << m_curve_trees.m_c2.to_string(c2_layer[j]));
++c2_idx;
}
@ -512,7 +511,7 @@ static void log_tree(const CurveTreesUnitTest::Tree &tree)
MDEBUG("Helios layer size: " << c1_layer.size() << " , tree layer: " << i);
for (std::size_t j = 0; j < c1_layer.size(); ++j)
MDEBUG("Hash idx: " << j << " , hash: " << fcmp::tower_cycle::helios::HELIOS.to_string(c1_layer[j]));
MDEBUG("Hash idx: " << j << " , hash: " << m_curve_trees.m_c1.to_string(c1_layer[j]));
++c1_idx;
}
@ -524,7 +523,7 @@ static void log_tree(const CurveTreesUnitTest::Tree &tree)
//----------------------------------------------------------------------------------------------------------------------
// Test helpers
//----------------------------------------------------------------------------------------------------------------------
static const CurveTreesV1::Leaves generate_leaves(const CurveTreesV1 &curve_trees, const std::size_t num_leaves)
static const CurveTreesV1::Leaves generate_random_leaves(const CurveTreesV1 &curve_trees, const std::size_t num_leaves)
{
std::vector<CurveTreesV1::LeafTuple> tuples;
tuples.reserve(num_leaves);
@ -553,17 +552,25 @@ static void grow_tree_test(CurveTreesV1 &curve_trees,
const std::size_t num_leaves,
CurveTreesUnitTest::Tree &tree_inout)
{
// Get the last chunk from each layer in the tree; empty if tree is empty
const auto last_chunks = curve_trees_accessor.get_last_chunks(tree_inout);
log_last_chunks(last_chunks);
curve_trees_accessor.log_last_chunks(last_chunks);
// Get a tree extension object to the existing tree using randomly generated leaves
// - The tree extension includes all elements we'll need to add to the existing tree when adding the new leaves
const auto tree_extension = curve_trees.get_tree_extension(
last_chunks,
generate_leaves(curve_trees, num_leaves));
log_tree_extension(tree_extension);
generate_random_leaves(curve_trees, num_leaves));
curve_trees_accessor.log_tree_extension(tree_extension);
// Use the tree extension to extend the existing tree
curve_trees_accessor.extend_tree(tree_extension, tree_inout);
log_tree(tree_inout);
curve_trees_accessor.log_tree(tree_inout);
// Validate tree structure and all hashes
ASSERT_TRUE(curve_trees_accessor.validate_tree(tree_inout));
}
//----------------------------------------------------------------------------------------------------------------------
@ -572,13 +579,23 @@ static void grow_tree_test(CurveTreesV1 &curve_trees,
//----------------------------------------------------------------------------------------------------------------------
TEST(curve_trees, grow_tree)
{
// TODO: use static constant generators and hash init points
const Helios::Generators HELIOS_GENERATORS = fcmp::tower_cycle::random_helios_generators();
const Selene::Generators SELENE_GENERATORS = fcmp::tower_cycle::random_selene_generators();
const Helios::Point HELIOS_HASH_INIT_POINT = fcmp::tower_cycle::random_helios_hash_init_point();
const Selene::Point SELENE_HASH_INIT_POINT = fcmp::tower_cycle::random_selene_hash_init_point();
Helios helios(HELIOS_GENERATORS, HELIOS_HASH_INIT_POINT);
Selene selene(SELENE_GENERATORS, SELENE_HASH_INIT_POINT);
// TODO: test varying widths
const std::size_t HELIOS_CHUNK_WIDTH = 5;
const std::size_t SELENE_CHUNK_WIDTH = 5;
auto curve_trees = CurveTreesV1(
fcmp::tower_cycle::helios::HELIOS,
fcmp::tower_cycle::selene::SELENE,
helios,
selene,
HELIOS_CHUNK_WIDTH,
SELENE_CHUNK_WIDTH);

9
tests/unit_tests/curve_trees.h
View File

@ -32,8 +32,8 @@
#include "fcmp/tower_cycle.h"
#include "misc_log_ex.h"
using Helios = fcmp::tower_cycle::helios::Helios;
using Selene = fcmp::tower_cycle::selene::Selene;
using Helios = fcmp::tower_cycle::Helios;
using Selene = fcmp::tower_cycle::Selene;
// TODO: make this the instantiation in curve_trees.h/.cpp
using CurveTreesV1 = fcmp::CurveTrees<Helios, Selene>;
@ -67,6 +67,11 @@ public:
// Validate the in-memory tree by re-hashing every layer, starting from root and working down to leaf layer
bool validate_tree(const Tree &tree);
// logging helpers
void log_last_chunks(const CurveTreesV1::LastChunks &last_chunks);
void log_tree_extension(const CurveTreesV1::TreeExtension &tree_extension);
void log_tree(const CurveTreesUnitTest::Tree &tree);
//private member functions
private:
template<typename C_PARENT>