#include #include #include #include #include #include #include #include "calcwit.h" #include "utils.h" Circom_CalcWit::Circom_CalcWit(Circom_Circuit *aCircuit) { circuit = aCircuit; #ifdef SANITY_CHECK signalAssigned = new bool[circuit->NSignals]; signalAssigned[0] = true; #endif inputSignalsToTrigger = new int[circuit->NComponents]; signalValues = new BigInt[circuit->NSignals]; // Set one signal mpz_init_set_ui(signalValues[0], 1); // Initialize remaining signals for (int i=1; iNSignals; i++) mpz_init2(signalValues[i], 256); BigInt p; mpz_init_set_str(p, circuit->P, 10); field = new ZqField(&p); mpz_clear(p); reset(); } void Circom_CalcWit::reset() { #ifdef SANITY_CHECK for (int i=1; iNComponents; i++) signalAssigned[i] = false; #endif for (int i=0; iNComponents; i++) { inputSignalsToTrigger[i] = circuit->components[i].inputSignals; if (inputSignalsToTrigger[i] == 0) triggerComponent(i); } } Circom_CalcWit::~Circom_CalcWit() { delete field; #ifdef SANITY_CHECK delete signalAssigned; #endif for (int i=0; iNSignals; i++) mpz_clear(signalValues[i]); delete[] signalValues; delete inputSignalsToTrigger; } int Circom_CalcWit::getSubComponentOffset(int cIdx, u64 hash) { int hIdx; for(hIdx = int(hash & 0xFF); hash!=circuit->components[cIdx].hashTable[hIdx].hash; hIdx++) { if (!circuit->components[cIdx].hashTable[hIdx].hash) throw std::runtime_error("hash not found: " + int_to_hex(hash)); } int entryPos = circuit->components[cIdx].hashTable[hIdx].pos; if (circuit->components[cIdx].entries[entryPos].type != _typeComponent) { throw std::runtime_error("invalid type"); } return circuit->components[cIdx].entries[entryPos].offset; } Circom_Sizes Circom_CalcWit::getSubComponentSizes(int cIdx, u64 hash) { int hIdx; for(hIdx = int(hash & 0xFF); hash!=circuit->components[cIdx].hashTable[hIdx].hash; hIdx++) { if (!circuit->components[cIdx].hashTable[hIdx].hash) throw std::runtime_error("hash not found: " + int_to_hex(hash)); } int entryPos = circuit->components[cIdx].hashTable[hIdx].pos; if (circuit->components[cIdx].entries[entryPos].type != _typeComponent) { throw std::runtime_error("invalid type"); } return circuit->components[cIdx].entries[entryPos].sizes; } int Circom_CalcWit::getSignalOffset(int cIdx, u64 hash) { int hIdx; for(hIdx = int(hash & 0xFF); hash!=circuit->components[cIdx].hashTable[hIdx].hash; hIdx++) { if (!circuit->components[cIdx].hashTable[hIdx].hash) throw std::runtime_error("hash not found: " + int_to_hex(hash)); } int entryPos = circuit->components[cIdx].hashTable[hIdx].pos; if (circuit->components[cIdx].entries[entryPos].type != _typeSignal) { throw std::runtime_error("invalid type"); } return circuit->components[cIdx].entries[entryPos].offset; } Circom_Sizes Circom_CalcWit::getSignalSizes(int cIdx, u64 hash) { int hIdx; for(hIdx = int(hash & 0xFF); hash!=circuit->components[cIdx].hashTable[hIdx].hash; hIdx++) { if (!circuit->components[cIdx].hashTable[hIdx].hash) throw std::runtime_error("hash not found: " + int_to_hex(hash)); } int entryPos = circuit->components[cIdx].hashTable[hIdx].pos; if (circuit->components[cIdx].entries[entryPos].type != _typeSignal) { throw std::runtime_error("invalid type"); } return circuit->components[cIdx].entries[entryPos].sizes; } PBigInt Circom_CalcWit::allocBigInts(int n) { PBigInt res = new BigInt[n]; for (int i=0; imapIsInput, sIdx) ) { inputSignalsToTrigger[cIdx]--; if (inputSignalsToTrigger[cIdx] == 0) triggerComponent(cIdx); } } void Circom_CalcWit::checkConstraint(PBigInt value1, PBigInt value2, char const *err) { #ifdef SANITY_CHECK if (mpz_cmp(*value1, *value2) != 0) { char *pcV1 = mpz_get_str(0, 10, *value1); char *pcV2 = mpz_get_str(0, 10, *value1); std::string sV1 = std::string(pcV1); std::string sV2 = std::string(pcV2); free(pcV1); free(pcV2); throw std::runtime_error(std::string("Constraint does not match,") + err + ". " + sV1 + " != " + sV2 ); } #endif } void Circom_CalcWit::triggerComponent(int newCIdx) { int oldCIdx = cIdx; cIdx = newCIdx; (*(circuit->components[newCIdx].fn))(this); cIdx = oldCIdx; }