Esempio n. 1
0
def LoanTrain(helper, start_epoch, local_model, target_model, is_poison,
              state_keys):

    epochs_submit_upd_dict = dict()
    num_samples_dict = dict()
    curr_adversary_count = len(helper.params['adversary_list'])

    for model_id in range(helper.params['no_models']):
        epochs_local_upd_list = []
        last_params_vars = dict()
        client_grad = []  # fg  only works for aggr_epoch_interval=1

        for name, param in target_model.named_parameters():
            last_params_vars[name] = target_model.state_dict()[name].clone()

        state_key = state_keys[model_id]
        # Synchronize LR and models
        model = local_model
        model.copy_params(target_model.state_dict())
        optimizer = optim.SGD(model.parameters(),
                              lr=helper.params['lr'],
                              momentum=helper.params['momentum'],
                              weight_decay=helper.params['decay'])
        model.train()
        temp_local_epoch = start_epoch - 1

        adversarial_index = -1
        localmodel_poison_epochs = helper.params['poison_epochs']
        if is_poison and state_key in helper.params['adversary_list']:
            for adver_idx in range(0, len(helper.params['adversary_list'])):
                if state_key == helper.params['adversary_list'][adver_idx]:
                    localmodel_poison_epochs = helper.params[str(adver_idx) +
                                                             '_poison_epochs']
                    adversarial_index = adver_idx
                    main.logger.info(
                        f'poison local model {state_key} will poison epochs: {localmodel_poison_epochs}'
                    )
                    break
            if len(helper.params['adversary_list']) == 1:
                adversarial_index = -1  # attack the global trigger

        trigger_names = []
        trigger_values = []
        if adversarial_index == -1:
            for j in range(0, helper.params['trigger_num']):
                for name in helper.params[str(j) + '_poison_trigger_names']:
                    trigger_names.append(name)
                for value in helper.params[str(j) + '_poison_trigger_values']:
                    trigger_values.append(value)
        else:
            trigger_names = helper.params[str(adversarial_index) +
                                          '_poison_trigger_names']
            trigger_values = helper.params[str(adversarial_index) +
                                           '_poison_trigger_values']

        for epoch in range(start_epoch,
                           start_epoch + helper.params['aggr_epoch_interval']):
            # This is for calculating distances
            target_params_vars = dict()
            for name, param in target_model.named_parameters():
                # target_params_vars[name] = last_params_vars[name].clone().detach().requires_grad_(False)
                target_params_vars[name] = last_params_vars[name].detach(
                ).clone()

            if is_poison and state_key in helper.params['adversary_list'] and (
                    epoch in localmodel_poison_epochs):
                main.logger.info('poison_now')
                _, acc_p, _, _ = test.Mytest_poison(helper,
                                                    epoch,
                                                    model,
                                                    is_poison=True,
                                                    visualize=False,
                                                    agent_name_key=state_key)
                main.logger.info(acc_p)
                poison_lr = helper.params['poison_lr']

                if not helper.params['baseline']:
                    if acc_p > 20:
                        poison_lr /= 5
                    if acc_p > 60:
                        poison_lr /= 10

                internal_epoch_num = helper.params['internal_poison_epochs']
                step_lr = helper.params['poison_step_lr']

                poison_optim = optim.SGD(model.parameters(),
                                         lr=poison_lr,
                                         momentum=helper.params['momentum'],
                                         weight_decay=helper.params['decay'])
                scheduler = optim.lr_scheduler.MultiStepLR(
                    poison_optim,
                    gamma=0.1,
                    milestones=[
                        0.2 * internal_epoch_num, 0.8 * internal_epoch_num
                    ])
                # acc = acc_initial
                for internal_epoch in range(1, internal_epoch_num + 1):
                    temp_local_epoch += 1
                    poison_data = helper.statehelper_dic[
                        state_key].get_poison_trainloader()
                    if step_lr:
                        scheduler.step()
                        main.logger.info(f'Current lr: {scheduler.get_lr()}')
                    data_iterator = poison_data
                    poison_data_count = 0
                    total_loss = 0.
                    correct = 0
                    data_size = 0
                    for batch_id, batch in enumerate(data_iterator):
                        for index in range(
                                0, helper.params['poisoning_per_batch']):
                            if index >= len(batch[1]):
                                break
                            batch[1][index] = helper.params[
                                'poison_label_swap']
                            for j in range(0, len(trigger_names)):
                                name = trigger_names[j]
                                value = trigger_values[j]
                                batch[0][index][
                                    helper.feature_dict[name]] = value
                            poison_data_count += 1

                        data, targets = helper.statehelper_dic[
                            state_key].get_batch(poison_data, batch, False)
                        poison_optim.zero_grad()
                        data_size += len(data)
                        output = model(data)
                        class_loss = F.cross_entropy(output, targets)
                        distance_loss = helper.model_dist_norm_var(
                            model, target_params_vars)

                        loss = helper.params['alpha_loss'] * class_loss + (
                            1 - helper.params['alpha_loss']) * distance_loss
                        loss.backward()
                        # get gradients
                        if helper.params[
                                'aggregation_methods'] == config.AGGR_FOOLSGOLD:
                            for i, (name, params) in enumerate(
                                    model.named_parameters()):
                                if params.requires_grad:
                                    if internal_epoch == 1 and batch_id == 0:
                                        client_grad.append(params.grad.clone())
                                    else:
                                        client_grad[i] += params.grad.clone()
                        poison_optim.step()
                        total_loss += loss.data
                        pred = output.data.max(1)[
                            1]  # get the index of the max log-probability
                        correct += pred.eq(
                            targets.data.view_as(pred)).cpu().sum().item()

                    acc = 100.0 * (float(correct) / float(data_size))
                    total_l = total_loss / data_size

                    main.logger.info(
                        '_PoisonTrain {}, epoch {:3d}, local model {}, internal_epoch {:3d}, Avg loss: {:.4f},'
                        'Accuracy: {}/{} ({:.4f}%), train_poison_data_count{}'.
                        format(model.name, epoch, state_key, internal_epoch,
                               total_l, correct, data_size, acc,
                               poison_data_count))

                    csv_record.train_result.append([
                        state_key, temp_local_epoch, epoch, internal_epoch,
                        total_l.item(), acc, correct, data_size
                    ])
                    if helper.params['vis_train']:
                        model.train_vis(main.vis,
                                        temp_local_epoch,
                                        acc,
                                        loss=total_l,
                                        eid=helper.params['environment_name'],
                                        is_poisoned=True,
                                        name=state_key)
                    num_samples_dict[state_key] = data_size

                # internal epoch finish
                main.logger.info(
                    f'Global model norm: {helper.model_global_norm(target_model)}.'
                )
                main.logger.info(
                    f'Norm before scaling: {helper.model_global_norm(model)}. '
                    f'Distance: {helper.model_dist_norm(model, target_params_vars)}'
                )

                # Adversary wants to scale his weights. Baseline model doesn't do this
                # Some NORM work happening here
                if not helper.params['baseline']:
                    clip_rate = helper.params['scale_weights_poison']
                    main.logger.info(f"Scaling by {clip_rate}")
                    for key, value in model.state_dict().items():
                        target_val = last_params_vars[key]
                        new_value = target_val + (value -
                                                  target_val) * clip_rate
                        model.state_dict()[key].copy_(new_value)
                    distance = helper.model_dist_norm(model,
                                                      target_params_vars)
                    main.logger.info(
                        f'Scaled Norm after poisoning: '
                        f'{helper.model_global_norm(model)}, distance: {distance}'
                    )

                distance = helper.model_dist_norm(model, target_params_vars)
                main.logger.info(
                    f"Total norm for {curr_adversary_count} "
                    f"adversaries is: {helper.model_global_norm(model)}. distance: {distance}"
                )

            else:
                for internal_epoch in range(
                        1, helper.params['internal_epochs'] + 1):
                    temp_local_epoch += 1
                    train_data = helper.statehelper_dic[
                        state_key].get_trainloader()
                    data_iterator = train_data
                    total_loss = 0.
                    correct = 0
                    data_size = 0
                    for batch_id, batch in enumerate(data_iterator):
                        optimizer.zero_grad()
                        data, targets = helper.statehelper_dic[
                            state_key].get_batch(data_iterator,
                                                 batch,
                                                 eval=False)
                        data_size += len(data)
                        output = model(data)
                        loss = F.cross_entropy(output, targets)
                        loss.backward()

                        # get gradients
                        if helper.params[
                                'aggregation_methods'] == config.AGGR_FOOLSGOLD:
                            for i, (name, params) in enumerate(
                                    model.named_parameters()):
                                if params.requires_grad:
                                    if internal_epoch == 1 and batch_id == 0:
                                        client_grad.append(params.grad.clone())
                                    else:
                                        client_grad[i] += params.grad.clone()

                        optimizer.step()
                        total_loss += loss.data
                        pred = output.data.max(1)[
                            1]  # get the index of the max log-probability
                        correct += pred.eq(
                            targets.data.view_as(pred)).cpu().sum().item()

                    acc = 100.0 * (float(correct) / float(data_size))
                    total_l = total_loss / data_size

                    main.logger.info(
                        '_Train {}, epoch {:3d}, local model {}, internal_epoch {:3d}, Avg loss: {:.4f},'
                        ' Accuracy: {}/{} ({:.4f}%)'.format(
                            model.name, epoch, state_key, internal_epoch,
                            total_l, correct, data_size, acc))
                    csv_record.train_result.append([
                        state_key, temp_local_epoch, epoch, internal_epoch,
                        total_l.item(), acc, correct, data_size
                    ])

                    if helper.params['vis_train']:
                        model.train_vis(main.vis,
                                        temp_local_epoch,
                                        acc,
                                        loss=total_l,
                                        eid=helper.params['environment_name'],
                                        is_poisoned=False,
                                        name=state_key)
                    num_samples_dict[state_key] = data_size

            # test local model after internal epoch train finish
            """
            Attributes/Metrics over one epoch
            e_correct: no. of correct predictions in this epoch
            e_total: total samples in this epoch
            """
            e_loss, e_acc, e_correct, e_total = test.Mytest(
                helper,
                epoch,
                model,
                is_poison=False,
                visualize=True,
                agent_name_key=state_key)
            csv_record.test_result.append(
                [state_key, epoch, e_loss, e_acc, e_correct, e_total])

            if is_poison:
                if state_key in helper.params['adversary_list'] and (
                        epoch in localmodel_poison_epochs):
                    e_loss, e_acc, e_correct, e_total = test.Mytest_poison(
                        helper,
                        epoch,
                        model,
                        is_poison=True,
                        visualize=True,
                        agent_name_key=state_key)
                    csv_record.poisontest_result.append(
                        [state_key, epoch, e_loss, e_acc, e_correct, e_total])

                # test on local triggers
                if state_key in helper.params['adversary_list']:
                    if helper.params['vis_trigger_split_test']:
                        model.trigger_agent_test_vis(
                            main.vis,
                            epoch,
                            acc=e_acc,
                            loss=None,
                            eid=helper.params['environment_name'],
                            name=state_key + "_combine")

                    e_loss, e_acc, e_correct, e_total = test.Mytest_poison_agent_trigger(
                        helper, model, agent_name_key=state_key)
                    csv_record.poisontriggertest_result.append([
                        state_key, state_key + "_trigger", "", epoch, e_loss,
                        e_acc, e_correct, e_total
                    ])
                    if helper.params['vis_trigger_split_test']:
                        model.trigger_agent_test_vis(
                            main.vis,
                            epoch,
                            acc=e_acc,
                            loss=None,
                            eid=helper.params['environment_name'],
                            name=state_key + "_trigger")
            # update the weight and bias
            local_model_update_dict = dict()
            for name, data in model.state_dict().items():
                local_model_update_dict[name] = torch.zeros(data.shape)
                local_model_update_dict[name] = (data - last_params_vars[name])
                last_params_vars[name] = copy.deepcopy(data)

            if helper.params['aggregation_methods'] == config.AGGR_FOOLSGOLD:
                epochs_local_upd_list.append(client_grad)
            else:
                epochs_local_upd_list.append(local_model_update_dict)

        epochs_submit_upd_dict[state_key] = epochs_local_upd_list

    return epochs_submit_upd_dict, num_samples_dict
Esempio n. 2
0
            is_poison=False,
            visualize=True,
            agent_name_key="global")
        csv_record.test_result.append([
            "global", temp_global_epoch, epoch_loss, epoch_acc, epoch_corret,
            epoch_total
        ])
        if len(csv_record.scale_temp_one_row) > 0:
            csv_record.scale_temp_one_row.append(round(epoch_acc, 4))

        if helper.params['is_poison']:

            epoch_loss, epoch_acc_p, epoch_corret, epoch_total = test.Mytest_poison(
                helper=helper,
                epoch=temp_global_epoch,
                model=helper.target_model,
                is_poison=True,
                visualize=True,
                agent_name_key="global")

            csv_record.posiontest_result.append([
                "global", temp_global_epoch, epoch_loss, epoch_acc_p,
                epoch_corret, epoch_total
            ])

            # test on local triggers
            csv_record.poisontriggertest_result.append([
                "global", "combine", "", temp_global_epoch, epoch_loss,
                epoch_acc_p, epoch_corret, epoch_total
            ])
            if helper.params['vis_trigger_split_test']:
def ImageTrain(helper, start_epoch, local_model, target_model, is_poison,
               agent_name_keys):
    epochs_submit_update_dict = dict()
    num_samples_dict = dict()
    current_number_of_adversaries = 0
    for temp_name in agent_name_keys:
        if temp_name in helper.params['adversary_list']:
            current_number_of_adversaries += 1

    for model_id in range(helper.params['no_models']):
        epochs_local_update_list = []
        last_local_model = dict()
        client_grad = []  # only works for aggr_epoch_interval=1

        for name, data in target_model.state_dict().items():
            last_local_model[name] = target_model.state_dict()[name].clone()

        agent_name_key = agent_name_keys[model_id]
        ## Synchronize LR and models
        model = local_model
        model.copy_params(target_model.state_dict())
        optimizer = torch.optim.SGD(model.parameters(),
                                    lr=helper.params['lr'],
                                    momentum=helper.params['momentum'],
                                    weight_decay=helper.params['decay'])
        model.train()
        adversarial_index = -1
        localmodel_poison_epochs = helper.params['poison_epochs']
        if is_poison and agent_name_key in helper.params['adversary_list']:
            for temp_index in range(0, len(helper.params['adversary_list'])):
                if int(agent_name_key
                       ) == helper.params['adversary_list'][temp_index]:
                    adversarial_index = temp_index
                    localmodel_poison_epochs = helper.params[str(temp_index) +
                                                             '_poison_epochs']
                    main.logger.info(
                        f'poison local model {agent_name_key} index {adversarial_index} '
                    )
                    break
            if len(helper.params['adversary_list']) == 1:
                adversarial_index = -1  # the global pattern

        for epoch in range(start_epoch,
                           start_epoch + helper.params['aggr_epoch_interval']):

            target_params_variables = dict()
            for name, param in target_model.named_parameters():
                target_params_variables[name] = last_local_model[name].clone(
                ).detach().requires_grad_(False)

            if epoch in helper.params['generation_epoch'] and helper.params[
                    'is_generated']:
                if adversarial_index == -1:
                    if model_id == 0:
                        for i in range(0, helper.params['trigger_num']):
                            if helper.params['generation_epoch'][i] == epoch:
                                print("generating_trigger")
                                generate_trigger(helper, i)
                else:
                    print("generating_trigger")
                    generate_trigger(helper, adversarial_index)
            if is_poison and agent_name_key in helper.params[
                    'adversary_list'] and (epoch in localmodel_poison_epochs):
                main.logger.info('poison_now')

                poison_lr = helper.params['poison_lr']
                internal_epoch_num = helper.params['internal_poison_epochs']
                step_lr = helper.params['poison_step_lr']

                poison_optimizer = torch.optim.SGD(
                    model.parameters(),
                    lr=poison_lr,
                    momentum=helper.params['momentum'],
                    weight_decay=helper.params['decay'])
                scheduler = torch.optim.lr_scheduler.MultiStepLR(
                    poison_optimizer,
                    milestones=[
                        0.2 * internal_epoch_num, 0.8 * internal_epoch_num
                    ],
                    gamma=0.1)
                temp_local_epoch = (epoch - 1) * internal_epoch_num
                for internal_epoch in range(1, internal_epoch_num + 1):
                    temp_local_epoch += 1
                    _, data_iterator = helper.train_data[agent_name_key]
                    poison_data_count = 0
                    total_loss = 0.
                    correct = 0
                    dataset_size = 0
                    dis2global_list = []
                    for batch_id, batch in enumerate(data_iterator):
                        data, targets, poison_num = helper.get_poison_batch(
                            batch,
                            adversarial_index=adversarial_index,
                            evaluation=False)
                        poison_optimizer.zero_grad()
                        dataset_size += len(data)
                        poison_data_count += poison_num

                        output = model(data)
                        class_loss = nn.functional.cross_entropy(
                            output, targets)

                        distance_loss = helper.model_dist_norm_var(
                            model, target_params_variables)
                        # Lmodel = αLclass + (1 − α)Lano; alpha_loss =1 fixed
                        loss = helper.params['alpha_loss'] * class_loss + \
                               (1 - helper.params['alpha_loss']) * distance_loss
                        loss.backward()

                        # get gradients
                        if helper.params[
                                'aggregation_methods'] == config.AGGR_FOOLSGOLD:
                            for i, (name, params) in enumerate(
                                    model.named_parameters()):
                                if params.requires_grad:
                                    if internal_epoch == 1 and batch_id == 0:
                                        client_grad.append(params.grad.clone())
                                    else:
                                        client_grad[i] += params.grad.clone()

                        poison_optimizer.step()
                        total_loss += loss.data
                        pred = output.data.max(1)[
                            1]  # get the index of the max log-probability
                        correct += pred.eq(
                            targets.data.view_as(pred)).cpu().sum().item()

                        if helper.params["batch_track_distance"]:
                            # we can calculate distance to this model now.
                            temp_data_len = len(data_iterator)
                            distance_to_global_model = helper.model_dist_norm(
                                model, target_params_variables)
                            dis2global_list.append(distance_to_global_model)
                            model.track_distance_batch_vis(
                                vis=main.vis,
                                epoch=temp_local_epoch,
                                data_len=temp_data_len,
                                batch=batch_id,
                                distance_to_global_model=
                                distance_to_global_model,
                                eid=helper.params['environment_name'],
                                name=str(agent_name_key),
                                is_poisoned=True)

                    if step_lr:
                        scheduler.step()
                        main.logger.info(f'Current lr: {scheduler.get_lr()}')

                    acc = 100.0 * (float(correct) / float(dataset_size))
                    total_l = total_loss / dataset_size
                    main.logger.info(
                        '___PoisonTrain {} ,  epoch {:3d}, local model {}, internal_epoch {:3d},  Average loss: {:.4f}, '
                        'Accuracy: {}/{} ({:.4f}%), train_poison_data_count: {}'
                        .format(model.name, epoch, agent_name_key,
                                internal_epoch, total_l, correct, dataset_size,
                                acc, poison_data_count))
                    csv_record.train_result.append([
                        agent_name_key, temp_local_epoch, epoch,
                        internal_epoch,
                        total_l.item(), acc, correct, dataset_size
                    ])
                    if helper.params['vis_train']:
                        model.train_vis(main.vis,
                                        temp_local_epoch,
                                        acc,
                                        loss=total_l,
                                        eid=helper.params['environment_name'],
                                        is_poisoned=True,
                                        name=str(agent_name_key))
                    num_samples_dict[agent_name_key] = dataset_size
                    if helper.params["batch_track_distance"]:
                        main.logger.info(
                            f'MODEL {model_id}. P-norm is {helper.model_global_norm(model):.4f}. '
                            f'Distance to the global model: {dis2global_list}. '
                        )

                # internal epoch finish
                main.logger.info(
                    f'Global model norm: {helper.model_global_norm(target_model)}.'
                )
                main.logger.info(
                    f'Norm before scaling: {helper.model_global_norm(model)}. '
                    f'Distance: {helper.model_dist_norm(model, target_params_variables)}'
                )

                if not helper.params['baseline']:
                    main.logger.info(f'will scale.')
                    epoch_loss, epoch_acc, epoch_corret, epoch_total = test.Mytest(
                        helper=helper,
                        epoch=epoch,
                        model=model,
                        is_poison=False,
                        visualize=False,
                        agent_name_key=agent_name_key)
                    csv_record.test_result.append([
                        agent_name_key, epoch, epoch_loss, epoch_acc,
                        epoch_corret, epoch_total
                    ])

                    epoch_loss, epoch_acc, epoch_corret, epoch_total = test.Mytest_poison(
                        helper=helper,
                        epoch=epoch,
                        model=model,
                        is_poison=True,
                        visualize=False,
                        agent_name_key=agent_name_key)
                    csv_record.posiontest_result.append([
                        agent_name_key, epoch, epoch_loss, epoch_acc,
                        epoch_corret, epoch_total
                    ])

                    clip_rate = helper.params['scale_weights_poison']
                    main.logger.info(f"Scaling by  {clip_rate}")
                    for key, value in model.state_dict().items():
                        target_value = last_local_model[key]
                        new_value = target_value + (value -
                                                    target_value) * clip_rate
                        model.state_dict()[key].copy_(new_value)
                    distance = helper.model_dist_norm(model,
                                                      target_params_variables)
                    main.logger.info(
                        f'Scaled Norm after poisoning: '
                        f'{helper.model_global_norm(model)}, distance: {distance}'
                    )
                    csv_record.scale_temp_one_row.append(epoch)
                    csv_record.scale_temp_one_row.append(round(distance, 4))
                    if helper.params["batch_track_distance"]:
                        temp_data_len = len(
                            helper.train_data[agent_name_key][1])
                        model.track_distance_batch_vis(
                            vis=main.vis,
                            epoch=temp_local_epoch,
                            data_len=temp_data_len,
                            batch=temp_data_len - 1,
                            distance_to_global_model=distance,
                            eid=helper.params['environment_name'],
                            name=str(agent_name_key),
                            is_poisoned=True)

                distance = helper.model_dist_norm(model,
                                                  target_params_variables)
                main.logger.info(
                    f"Total norm for {current_number_of_adversaries} "
                    f"adversaries is: {helper.model_global_norm(model)}. distance: {distance}"
                )

            else:
                temp_local_epoch = (epoch -
                                    1) * helper.params['internal_epochs']
                for internal_epoch in range(
                        1, helper.params['internal_epochs'] + 1):
                    temp_local_epoch += 1

                    _, data_iterator = helper.train_data[agent_name_key]
                    total_loss = 0.
                    correct = 0
                    dataset_size = 0
                    dis2global_list = []
                    for batch_id, batch in enumerate(data_iterator):

                        optimizer.zero_grad()
                        data, targets = helper.get_batch(data_iterator,
                                                         batch,
                                                         evaluation=False)

                        dataset_size += len(data)
                        output = model(data)
                        loss = nn.functional.cross_entropy(output, targets)
                        loss.backward()

                        # get gradients
                        if helper.params[
                                'aggregation_methods'] == config.AGGR_FOOLSGOLD:
                            for i, (name, params) in enumerate(
                                    model.named_parameters()):
                                if params.requires_grad:
                                    if internal_epoch == 1 and batch_id == 0:
                                        client_grad.append(params.grad.clone())
                                    else:
                                        client_grad[i] += params.grad.clone()

                        optimizer.step()
                        total_loss += loss.data
                        pred = output.data.max(1)[
                            1]  # get the index of the max log-probability
                        correct += pred.eq(
                            targets.data.view_as(pred)).cpu().sum().item()

                        if helper.params["vis_train_batch_loss"]:
                            cur_loss = loss.data
                            temp_data_len = len(data_iterator)
                            model.train_batch_vis(
                                vis=main.vis,
                                epoch=temp_local_epoch,
                                data_len=temp_data_len,
                                batch=batch_id,
                                loss=cur_loss,
                                eid=helper.params['environment_name'],
                                name=str(agent_name_key),
                                win='train_batch_loss',
                                is_poisoned=False)
                        if helper.params["batch_track_distance"]:
                            # we can calculate distance to this model now
                            temp_data_len = len(data_iterator)
                            distance_to_global_model = helper.model_dist_norm(
                                model, target_params_variables)
                            dis2global_list.append(distance_to_global_model)
                            model.track_distance_batch_vis(
                                vis=main.vis,
                                epoch=temp_local_epoch,
                                data_len=temp_data_len,
                                batch=batch_id,
                                distance_to_global_model=
                                distance_to_global_model,
                                eid=helper.params['environment_name'],
                                name=str(agent_name_key),
                                is_poisoned=False)

                    acc = 100.0 * (float(correct) / float(dataset_size))
                    total_l = total_loss / dataset_size
                    main.logger.info(
                        '___Train {},  epoch {:3d}, local model {}, internal_epoch {:3d},  Average loss: {:.4f}, '
                        'Accuracy: {}/{} ({:.4f}%)'.format(
                            model.name, epoch, agent_name_key, internal_epoch,
                            total_l, correct, dataset_size, acc))
                    csv_record.train_result.append([
                        agent_name_key, temp_local_epoch, epoch,
                        internal_epoch,
                        total_l.item(), acc, correct, dataset_size
                    ])

                    if helper.params['vis_train']:
                        model.train_vis(main.vis,
                                        temp_local_epoch,
                                        acc,
                                        loss=total_l,
                                        eid=helper.params['environment_name'],
                                        is_poisoned=False,
                                        name=str(agent_name_key))
                    num_samples_dict[agent_name_key] = dataset_size

                    if helper.params["batch_track_distance"]:
                        main.logger.info(
                            f'MODEL {model_id}. P-norm is {helper.model_global_norm(model):.4f}. '
                            f'Distance to the global model: {dis2global_list}. '
                        )

                # test local model after internal epoch finishing
                epoch_loss, epoch_acc, epoch_corret, epoch_total = test.Mytest(
                    helper=helper,
                    epoch=epoch,
                    model=model,
                    is_poison=False,
                    visualize=True,
                    agent_name_key=agent_name_key)
                csv_record.test_result.append([
                    agent_name_key, epoch, epoch_loss, epoch_acc, epoch_corret,
                    epoch_total
                ])

            if is_poison:
                if agent_name_key in helper.params['adversary_list'] and (
                        epoch in localmodel_poison_epochs):
                    epoch_loss, epoch_acc, epoch_corret, epoch_total = test.Mytest_poison(
                        helper=helper,
                        epoch=epoch,
                        model=model,
                        is_poison=True,
                        visualize=True,
                        agent_name_key=agent_name_key)
                    csv_record.posiontest_result.append([
                        agent_name_key, epoch, epoch_loss, epoch_acc,
                        epoch_corret, epoch_total
                    ])

                #  test on local triggers
                if agent_name_key in helper.params['adversary_list']:
                    if helper.params['vis_trigger_split_test']:
                        model.trigger_agent_test_vis(
                            vis=main.vis,
                            epoch=epoch,
                            acc=epoch_acc,
                            loss=None,
                            eid=helper.params['environment_name'],
                            name=str(agent_name_key) + "_combine")

                    epoch_loss, epoch_acc, epoch_corret, epoch_total = \
                        test.Mytest_poison_agent_trigger(helper=helper, model=model, agent_name_key=agent_name_key)
                    csv_record.poisontriggertest_result.append([
                        agent_name_key,
                        str(agent_name_key) + "_trigger", "", epoch,
                        epoch_loss, epoch_acc, epoch_corret, epoch_total
                    ])
                    if helper.params['vis_trigger_split_test']:
                        model.trigger_agent_test_vis(
                            vis=main.vis,
                            epoch=epoch,
                            acc=epoch_acc,
                            loss=None,
                            eid=helper.params['environment_name'],
                            name=str(agent_name_key) + "_trigger")

            # update the model weight
            local_model_update_dict = dict()
            for name, data in model.state_dict().items():
                local_model_update_dict[name] = torch.zeros_like(data)
                local_model_update_dict[name] = (data - last_local_model[name])
                last_local_model[name] = copy.deepcopy(data)

            if helper.params['aggregation_methods'] == config.AGGR_FOOLSGOLD:
                epochs_local_update_list.append(client_grad)
            else:
                epochs_local_update_list.append(local_model_update_dict)

        epochs_submit_update_dict[agent_name_key] = epochs_local_update_list

    return epochs_submit_update_dict, num_samples_dict
Esempio n. 4
0
        # clear the weight_accumulator
        weight_accumulator = helper.init_weight_accumulator(helper.target_model)

        temp_global_epoch = epoch + helper.params['aggr_epoch_interval'] - 1

        e_loss, e_acc, e_correct, e_total = test.Mytest(helper, temp_global_epoch, helper.target_model, 
                                                        is_poison=False, visualize=True, agent_name_key="global")
        
        csv_record.test_result.append(["global", temp_global_epoch, e_loss, e_acc, e_correct, e_total])
        
        if len(csv_record.scale_temp_one_row) > 0:
            csv_record.scale_temp_one_row.append(round(e_acc, 4))

        if helper.params['is_poison']:

            e_loss, e_acc_p, e_correct, e_total = test.Mytest_poison(helper, temp_global_epoch, helper.target_model,
                                                                     is_poison=True, visualize=True, agent_name_key="global")

            csv_record.poisontest_result.append(["global", temp_global_epoch, e_loss, e_acc_p, e_correct, e_total])

            # test on local triggers
            csv_record.poisontriggertest_result.append(["global", "combine", "", temp_global_epoch, e_loss, 
                                                        e_acc_p, e_correct, e_total])

            if helper.params['vis_trigger_split_test']:
                helper.target_model.trigger_agent_test_vis(vis=vis, epoch=epoch, acc=e_acc_p, loss=None,
                                                           eid=helper.params['environment_name'],
                                                           name="global_combine")

            if len(helper.params['adversary_list']) == 1:  # centralized attack
                if helper.params['centralized_test_trigger'] == True:  # centralized attack test on local triggers
                    for j in range(0, helper.params['trigger_num']):