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bankers-bonus-client.cpp
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/*
* Demonstrate external client inputing and receiving outputs from a SPDZ process,
* following the protocol described in https://eprint.iacr.org/2015/1006.pdf.
*
* Provides a client to bankers_bonus.mpc program to calculate which banker pays for lunch based on
* the private value annual bonus. Up to 8 clients can connect to the SPDZ engines running
* the bankers_bonus.mpc program.
*
* Each connecting client:
* - sends an increasing id to identify the client, starting with 0
* - sends an integer (0 meaining more players will join this round or 1 meaning stop the round and calc the result).
* - sends an integer input (bonus value to compare)
*
* The result is returned authenticated with a share of a random value:
* - share of winning unique id [y]
* - share of random value [r]
* - share of winning unique id * random value [w]
* winning unique id is valid if ∑ [y] * ∑ [r] = ∑ [w]
*
* To run with 2 parties / SPDZ engines:
* ./Scripts/setup-online.sh to create triple shares for each party (spdz engine).
* ./Scripts/setup-clients.sh to create SSL keys and certificates for clients
* ./compile.py bankers_bonus
* ./Scripts/run-online.sh bankers_bonus to run the engines.
*
* ./bankers-bonus-client.x 0 2 100 0
* ./bankers-bonus-client.x 1 2 200 0
* ./bankers-bonus-client.x 2 2 50 1
*
* Expect winner to be second client with id 1.
*/
#include "Math/gfp.h"
#include "Math/gf2n.h"
#include "Networking/sockets.h"
#include "Networking/ssl_sockets.h"
#include "Tools/int.h"
#include "Math/Setup.h"
#include "Protocols/fake-stuff.h"
#include "Math/gfp.hpp"
#include "Client.hpp"
#include <sodium.h>
#include <iostream>
#include <sstream>
#include <fstream>
template<class T, class U>
void one_run(T salary_value, Client& client)
{
// Run the computation
client.send_private_inputs<T>({salary_value});
cout << "Sent private inputs to each SPDZ engine, waiting for result..." << endl;
// Get the result back (client_id of winning client)
U result = client.receive_outputs<T>(1)[0];
cout << "Winning client id is : " << result << endl;
}
template<class T, class U>
void run(double salary_value, Client& client)
{
// sint
one_run<T, U>(long(round(salary_value)), client);
// sfix with f = 16
one_run<T, U>(long(round(salary_value * exp2(16))), client);
}
int main(int argc, char** argv)
{
int my_client_id;
int nparties;
double salary_value;
int finish;
int port_base = 14000;
if (argc < 5) {
cout << "Usage is bankers-bonus-client <client identifier> <number of spdz parties> "
<< "<salary to compare> <finish (0 false, 1 true)> <optional host names..., default localhost> "
<< "<optional spdz party port base number, default 14000>" << endl;
exit(0);
}
my_client_id = atoi(argv[1]);
nparties = atoi(argv[2]);
salary_value = atof(argv[3]);
finish = atoi(argv[4]);
vector<string> hostnames(nparties, "localhost");
if (argc > 5)
{
if (argc < 5 + nparties)
{
cerr << "Not enough hostnames specified";
exit(1);
}
for (int i = 0; i < nparties; i++)
hostnames[i] = argv[5 + i];
}
if (argc > 5 + nparties)
port_base = atoi(argv[5 + nparties]);
bigint::init_thread();
// Setup connections from this client to each party socket
Client client(hostnames, port_base, my_client_id);
auto& specification = client.specification;
auto& sockets = client.sockets;
for (int i = 0; i < nparties; i++)
{
octetStream os;
os.store(finish);
os.Send(sockets[i]);
}
cout << "Finish setup socket connections to SPDZ engines." << endl;
int type = specification.get<int>();
switch (type)
{
case 'p':
{
gfp::init_field(specification.get<bigint>());
cerr << "using prime " << gfp::pr() << endl;
run<gfp, gfp>(salary_value, client);
break;
}
case 'R':
{
int R = specification.get<int>();
switch (R)
{
case 64:
run<Z2<64>, Z2<64>>(salary_value, client);
break;
case 104:
run<Z2<104>, Z2<64>>(salary_value, client);
break;
case 128:
run<Z2<128>, Z2<64>>(salary_value, client);
break;
default:
cerr << R << "-bit ring not implemented";
exit(1);
}
break;
}
default:
cerr << "Type " << type << " not implemented";
exit(1);
}
return 0;
}