c-kzg-4844/bindings/node.js/kzg.cxx

363 lines
12 KiB
C++

#include <inttypes.h>
#include <stdio.h>
#include <stdlib.h>
#include <sstream> // std::ostringstream
#include <algorithm> // std::copy
#include <iterator> // std::ostream_iterator
#include <napi.h>
#include "c_kzg_4844.h"
#include "blst.h"
Napi::Value throw_invalid_arguments_count(
const unsigned int expected,
const unsigned int actual,
const Napi::Env env
) {
Napi::RangeError::New(
env,
"Wrong number of arguments. Expected: "
+ std::to_string(expected)
+ ", received " + std::to_string(actual)
).ThrowAsJavaScriptException();
return env.Null();
}
Napi::Value throw_invalid_argument_type(const Napi::Env env, std::string name, std::string expectedType) {
Napi::TypeError::New(
env,
"Invalid argument type: " + name + ". Expected " + expectedType
).ThrowAsJavaScriptException();
return env.Null();
}
Napi::TypedArrayOf<uint8_t> napi_typed_array_from_bytes(uint8_t* array, size_t length, Napi::Env env) {
// Create std::vector<uint8_t> out of array.
// We allocate it on the heap to allow wrapping it up into ArrayBuffer.
std::unique_ptr<std::vector<uint8_t>> vector =
std::make_unique<std::vector<uint8_t>>(length, 0);
for (size_t i = 0; i < length; ++i) {
(*vector)[i] = array[i];
}
// Wrap up the std::vector into the ArrayBuffer.
Napi::ArrayBuffer buffer = Napi::ArrayBuffer::New(
env,
vector->data(),
length /* size in bytes */,
[](Napi::Env /*env*/, void* /*data*/, std::vector<uint8_t>* hint) {
std::unique_ptr<std::vector<uint8_t>> vectorPtrToDelete(hint);
},
vector.get());
// The finalizer is responsible for deleting the vector: release the
// unique_ptr ownership.
vector.release();
return Napi::Uint8Array::New(env, length, buffer, 0);
}
const uint8_t * extract_byte_array_from_param(const Napi::CallbackInfo& info, const int index, const std::string name) {
auto param = info[index].As<Napi::TypedArray>();
if (!param.IsTypedArray() || param.TypedArrayType() != napi_uint8_array) {
throw_invalid_argument_type(info.Env(), name, "UInt8Array");
}
return param.As<Napi::Uint8Array>().Data();
}
// loadTrustedSetup: (filePath: string) => SetupHandle;
Napi::Value LoadTrustedSetup(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 1;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
if (!info[0].IsString()) {
return throw_invalid_argument_type(env, "filePath", "string");
}
const std::string file_path = info[0].ToString().Utf8Value();
KZGSettings* kzg_settings = (KZGSettings*)malloc(sizeof(KZGSettings));
if (kzg_settings == NULL) {
Napi::Error::New(env, "Error while allocating memory for KZG settings").ThrowAsJavaScriptException();
return env.Null();
};
FILE* f = fopen(file_path.c_str(), "r");
if (f == NULL) {
free(kzg_settings);
Napi::Error::New(env, "Error opening trusted setup file: " + file_path).ThrowAsJavaScriptException();
return env.Null();
}
if (load_trusted_setup_file(kzg_settings, f) != C_KZG_OK) {
free(kzg_settings);
Napi::Error::New(env, "Error loading trusted setup file").ThrowAsJavaScriptException();
return env.Null();
}
return Napi::External<KZGSettings>::New(info.Env(), kzg_settings);
}
// freeTrustedSetup: (setupHandle: SetupHandle) => void;
Napi::Value FreeTrustedSetup(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 1;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
auto kzg_settings = info[0].As<Napi::External<KZGSettings>>().Data();
free_trusted_setup(kzg_settings);
free(kzg_settings);
return env.Undefined();
}
// blobToKzgCommitment: (blob: Blob, setupHandle: SetupHandle) => KZGCommitment;
Napi::Value BlobToKzgCommitment(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 2;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
Blob *blob = (Blob *)extract_byte_array_from_param(info, 0, "blob");
if (env.IsExceptionPending()) {
return env.Null();
}
auto kzg_settings = info[1].As<Napi::External<KZGSettings>>().Data();
KZGCommitment commitment;
C_KZG_RET ret = blob_to_kzg_commitment(&commitment, blob, kzg_settings);
if (ret != C_KZG_OK) {
Napi::Error::New(env, "Failed to convert blob to commitment")
.ThrowAsJavaScriptException();
return env.Undefined();
};
return napi_typed_array_from_bytes((uint8_t *)(&commitment), BYTES_PER_COMMITMENT, env);
}
// computeAggregateKzgProof: (blobs: Blob[], setupHandle: SetupHandle) => KZGProof;
Napi::Value ComputeAggregateKzgProof(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 2;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
auto blobs_param = info[0].As<Napi::Array>();
auto kzg_settings = info[1].As<Napi::External<KZGSettings>>().Data();
auto blobs_count = blobs_param.Length();
auto blobs = (Blob*)calloc(blobs_count, sizeof(Blob));
if (blobs == NULL) {
Napi::Error::New(env, "Error while allocating memory for blobs").ThrowAsJavaScriptException();
return env.Null();
};
for (uint32_t blob_index = 0; blob_index < blobs_count; blob_index++) {
Napi::Value blob = blobs_param[blob_index];
auto blob_bytes = blob.As<Napi::Uint8Array>().Data();
memcpy(blobs[blob_index].bytes, blob_bytes, BYTES_PER_BLOB);
}
KZGProof proof;
C_KZG_RET ret = compute_aggregate_kzg_proof(
&proof,
blobs,
blobs_count,
kzg_settings
);
free(blobs);
if (ret != C_KZG_OK) {
Napi::Error::New(env, "Failed to compute aggregated proof")
.ThrowAsJavaScriptException();
return env.Undefined();
};
return napi_typed_array_from_bytes((uint8_t *)(&proof), BYTES_PER_PROOF, env);
}
// computeKzgProof: (blob: Blob, zBytes: Bytes32, setupHandle: SetupHandle) => KZGProof;
Napi::Value ComputeKzgProof(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 3;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
auto blob = extract_byte_array_from_param(info, 0, "blob");
auto z_bytes = extract_byte_array_from_param(info, 1, "zBytes");
auto kzg_settings = info[2].As<Napi::External<KZGSettings>>().Data();
KZGProof proof;
C_KZG_RET ret = compute_kzg_proof(
&proof,
(Blob *)blob,
(Bytes32 *)z_bytes,
kzg_settings
);
if (ret != C_KZG_OK) {
Napi::Error::New(env, "Failed to compute proof")
.ThrowAsJavaScriptException();
return env.Undefined();
};
return napi_typed_array_from_bytes((uint8_t *)(&proof), BYTES_PER_PROOF, env);
}
// verifyAggregateKzgProof: (blobs: Blob[], commitmentsBytes: Bytes48[], aggregatedProofBytes: Bytes48, setupHandle: SetupHandle) => boolean;
Napi::Value VerifyAggregateKzgProof(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 4;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
auto blobs_param = info[0].As<Napi::Array>();
auto commitments_param = info[1].As<Napi::Array>();
auto proof_param = info[2].As<Napi::TypedArray>();
auto kzg_settings = info[3].As<Napi::External<KZGSettings>>().Data();
auto proof_bytes = proof_param.As<Napi::Uint8Array>().Data();
auto blobs_count = blobs_param.Length();
auto commitments_count = commitments_param.Length();
if (blobs_count != commitments_count) {
Napi::Error::New(env, "verifyAggregateKzgProof requires blobs count to match expectedKzgCommitments count")
.ThrowAsJavaScriptException();
return env.Undefined();
}
auto blobs = (Blob*)calloc(blobs_count, sizeof(Blob));
if (blobs == NULL) {
Napi::Error::New(env, "Error while allocating memory for blobs").ThrowAsJavaScriptException();
return env.Null();
};
auto commitments = (Bytes48*)calloc(blobs_count, sizeof(Bytes48));
if (commitments == NULL) {
free(blobs);
Napi::Error::New(env, "Error while allocating memory for commitments").ThrowAsJavaScriptException();
return env.Null();
};
C_KZG_RET ret;
for (uint32_t blob_index = 0; blob_index < blobs_count; blob_index++) {
// Extract blob bytes from parameter
Napi::Value blob = blobs_param[blob_index];
auto blob_bytes = blob.As<Napi::Uint8Array>().Data();
memcpy(blobs[blob_index].bytes, blob_bytes, BYTES_PER_BLOB);
// Extract commitment from parameter
Napi::Value commitment = commitments_param[blob_index];
auto commitment_bytes = commitment.As<Napi::Uint8Array>().Data();
memcpy(&commitments[blob_index], commitment_bytes, BYTES_PER_COMMITMENT);
}
bool verification_result;
ret = verify_aggregate_kzg_proof(
&verification_result,
blobs,
commitments,
blobs_count,
(Bytes48 *)proof_bytes,
kzg_settings
);
free(commitments);
free(blobs);
if (ret != C_KZG_OK) {
Napi::Error::New(
env,
"verify_aggregate_kzg_proof failed with error code: " + std::to_string(ret)
).ThrowAsJavaScriptException();
return env.Null();
}
return Napi::Boolean::New(env, verification_result);
}
// verifyKzgProof: (commitmentBytes: Bytes48, zBytes: Bytes32, yBytes: Bytes32, proofBytes: Bytes48, setupHandle: SetupHandle) => boolean;
Napi::Value VerifyKzgProof(const Napi::CallbackInfo& info) {
auto env = info.Env();
size_t argument_count = info.Length();
size_t expected_argument_count = 5;
if (argument_count != expected_argument_count) {
return throw_invalid_arguments_count(expected_argument_count, argument_count, env);
}
auto commitment_bytes = extract_byte_array_from_param(info, 0, "commitmentBytes");
auto z_bytes = extract_byte_array_from_param(info, 1, "zBytes");
auto y_bytes = extract_byte_array_from_param(info, 2, "yBytes");
auto proof_bytes = extract_byte_array_from_param(info, 3, "proofBytes");
auto kzg_settings = info[4].As<Napi::External<KZGSettings>>().Data();
if (env.IsExceptionPending()) {
return env.Null();
}
bool out;
C_KZG_RET ret = verify_kzg_proof(
&out,
(Bytes48 *)commitment_bytes,
(Bytes32 *)z_bytes,
(Bytes32 *)y_bytes,
(Bytes48 *)proof_bytes,
kzg_settings
);
if (ret != C_KZG_OK) {
Napi::TypeError::New(env, "Failed to verify KZG proof").ThrowAsJavaScriptException();
return env.Null();
}
return Napi::Boolean::New(env, out);
}
Napi::Object Init(Napi::Env env, Napi::Object exports) {
// Functions
exports["loadTrustedSetup"] = Napi::Function::New(env, LoadTrustedSetup);
exports["freeTrustedSetup"] = Napi::Function::New(env, FreeTrustedSetup);
exports["blobToKzgCommitment"] = Napi::Function::New(env, BlobToKzgCommitment);
exports["computeKzgProof"] = Napi::Function::New(env, ComputeKzgProof);
exports["verifyKzgProof"] = Napi::Function::New(env, VerifyKzgProof);
exports["computeAggregateKzgProof"] = Napi::Function::New(env, ComputeAggregateKzgProof);
exports["verifyAggregateKzgProof"] = Napi::Function::New(env, VerifyAggregateKzgProof);
// Constants
exports["FIELD_ELEMENTS_PER_BLOB"] = Napi::Number::New(env, FIELD_ELEMENTS_PER_BLOB);
exports["BYTES_PER_FIELD_ELEMENT"] = Napi::Number::New(env, BYTES_PER_FIELD_ELEMENT);
return exports;
}
NODE_API_MODULE(addon, Init)