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bnp.py
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bnp.py
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'''
Pre-activation Distributions Expose Backdoor Neurons
This file is modified based on the following source:
link : https://github.com/RJ-T/NIPS2022_EP_BNP.
The defense method is called bnp.
@article{zheng2022pre,
title={Pre-activation Distributions Expose Backdoor Neurons},
author={Zheng, Runkai and Tang, Rongjun and Li, Jianze and Liu, Li},
journal={Advances in Neural Information Processing Systems},
volume={35},
pages={18667--18680},
year={2022}}
The update include:
1. data preprocess and dataset setting
2. model setting
3. args and config
4. save process
5. new standard: robust accuracy
6. reconstruct the layer norm for convnext and transformer
7. draw the corresponding images of asr and acc according to different proportions
basic sturcture for defense method:
1. basic setting: args
2. attack result(model, train data, test data)
3. dde defense:
a. calculate the entropy of each norm layer
b. prune the model depend on the mask
4. test the result and get ASR, ACC, RC
'''
import argparse
import copy
import os,sys
import numpy as np
import torch
import torch.nn as nn
sys.path.append('../')
sys.path.append(os.getcwd())
from pprint import pformat
import yaml
import logging
import time
from defense.base import defense
import utils.defense_utils.mbns.mbns_model as mbns_model
from utils.aggregate_block.train_settings_generate import argparser_criterion
from utils.trainer_cls import Metric_Aggregator, PureCleanModelTrainer, general_plot_for_epoch
from utils.choose_index import choose_index
from utils.aggregate_block.fix_random import fix_random
from utils.aggregate_block.model_trainer_generate import generate_cls_model
from utils.log_assist import get_git_info
from utils.aggregate_block.dataset_and_transform_generate import get_input_shape, get_num_classes, get_transform
from utils.save_load_attack import load_attack_result, save_defense_result
from utils.bd_dataset_v2 import prepro_cls_DatasetBD_v2
def batch_entropy(x, step_size=0.1):
n_bars = int((x.max()-x.min())/step_size)
entropy = 0
for n in range(n_bars):
num = ((x > x.min() + n*step_size) * (x < x.min() + (n+1)*step_size)).sum(-1)
p = num / x.shape[-1]
entropy += - p * p.log().nan_to_num(0)
return entropy
def bnp_defense(net, u, trainloader, args):
clean_data_loader = trainloader['clean_train']
bd_data_loader = trainloader['bd_train']
net.eval()
bd_data = iter(bd_data_loader).next()[0].to(args.device)
mixture_data = iter(clean_data_loader).next()[0].to(args.device)
params = net.state_dict()
for m in net.modules():
if isinstance(m, nn.BatchNorm2d) or isinstance(m, nn.LayerNorm):
m.collect_stats = True
if isinstance(m, nn.LayerNorm):
m.collect_stats_clean = True
m.collect_stats_bd = False
with torch.no_grad():
net(mixture_data)
for m in net.modules():
if isinstance(m, nn.LayerNorm):
m.collect_stats_bd = True
m.collect_stats_clean = False
with torch.no_grad():
net(bd_data)
for name, m in net.named_modules():
if isinstance(m, nn.BatchNorm2d):
var_2 = m.running_var
var_1 = m.batch_var
mean_2 = m.running_mean
mean_1 = m.batch_mean
kl_div = (var_2/var_1).log() + (var_1+(mean_1-mean_2).pow(2))/(2*var_2) - 1/2
index = (kl_div>kl_div.mean() + u*kl_div.std())
params[name+'.weight'][index] = 0
params[name+'.bias'][index] = 0
elif isinstance(m, nn.LayerNorm):
# We use layer norm to subsitute batch norm in convnext_model and vit_model
var_2 = m.batch_var_bd
var_1 = m.batch_var_clean
mean_2 = m.batch_mean_bd
mean_1 = m.batch_mean_clean
kl_div = (var_2/var_1).log() + (var_1+(mean_1-mean_2).pow(2))/(2*var_2) - 1/2
index = (kl_div>kl_div.mean() + u*kl_div.std())
params[name+'.weight'][index] = 0
params[name+'.bias'][index] = 0
net.load_state_dict(params)
def get_mbns_network(
model_name: str,
num_classes: int = 10,
**kwargs,
):
if model_name == 'preactresnet18':
net = mbns_model.preact_mbns.PreActResNet18(num_classes = num_classes, **kwargs)
elif model_name == 'vgg19_bn':
net = mbns_model.vgg_mbns.vgg19_bn(num_classes = num_classes, **kwargs)
elif model_name == 'densenet161':
net = mbns_model.den_mbns.densenet161(num_classes= num_classes, **kwargs)
elif model_name == 'mobilenet_v3_large':
net = mbns_model.mobilenet_mbns.mobilenet_v3_large(num_classes= num_classes, **kwargs)
elif model_name == 'efficientnet_b3':
net = mbns_model.eff_mbns.efficientnet_b3(num_classes= num_classes, **kwargs)
elif model_name == 'convnext_tiny':
try :
net = mbns_model.conv_mbns.convnext_tiny(num_classes= num_classes,
)
except :
net = mbns_model.conv_new_mbns.convnext_tiny(num_classes= num_classes,
)
elif model_name == 'vit_b_16':
try :
from torchvision.transforms import Resize
net = mbns_model.vit_mbns.vit_b_16(
pretrained = True,
)
net.heads.head = torch.nn.Linear(net.heads.head.in_features, out_features = num_classes, bias=True)
net = torch.nn.Sequential(
Resize((224, 224)),
net,
)
except :
from torchvision.transforms import Resize
net = mbns_model.vit_new_mbns.vit_b_16(
pretrained = True,
)
net.heads.head = torch.nn.Linear(net.heads.head.in_features, out_features = num_classes, bias=True)
net = torch.nn.Sequential(
Resize((224, 224)),
net,
)
else:
raise SystemError('NO valid model match in function generate_cls_model!')
return net
class bnp(defense):
def __init__(self,args):
with open(args.yaml_path, 'r') as f:
defaults = yaml.safe_load(f)
defaults.update({k:v for k,v in args.__dict__.items() if v is not None})
args.__dict__ = defaults
args.terminal_info = sys.argv
args.num_classes = get_num_classes(args.dataset)
args.input_height, args.input_width, args.input_channel = get_input_shape(args.dataset)
args.img_size = (args.input_height, args.input_width, args.input_channel)
args.dataset_path = f"{args.dataset_path}/{args.dataset}"
self.args = args
if 'result_file' in args.__dict__ :
if args.result_file is not None:
self.set_result(args.result_file)
def add_arguments(parser):
parser.add_argument('--device', type=str, help='cuda, cpu')
parser.add_argument("-pm","--pin_memory", type=lambda x: str(x) in ['True', 'true', '1'], help = "dataloader pin_memory")
parser.add_argument("-nb","--non_blocking", type=lambda x: str(x) in ['True', 'true', '1'], help = ".to(), set the non_blocking = ?")
parser.add_argument("-pf", '--prefetch', type=lambda x: str(x) in ['True', 'true', '1'], help='use prefetch')
parser.add_argument('--amp', type=lambda x: str(x) in ['True','true','1'])
parser.add_argument('--checkpoint_load', type=str, help='the location of load model')
parser.add_argument('--checkpoint_save', type=str, help='the location of checkpoint where model is saved')
parser.add_argument('--log', type=str, help='the location of log')
parser.add_argument("--dataset_path", type=str, help='the location of data')
parser.add_argument('--dataset', type=str, help='mnist, cifar10, cifar100, gtrsb, tiny')
parser.add_argument('--result_file', type=str, help='the location of result')
parser.add_argument('--epochs', type=int)
parser.add_argument('--batch_size', type=int)
parser.add_argument("--num_workers", type=float)
parser.add_argument('--lr', type=float)
parser.add_argument('--lr_scheduler', type=str, help='the scheduler of lr')
parser.add_argument('--steplr_stepsize', type=int)
parser.add_argument('--steplr_gamma', type=float)
parser.add_argument('--steplr_milestones', type=list)
parser.add_argument('--model', type=str, help='resnet18')
parser.add_argument('--client_optimizer', type=int)
parser.add_argument('--sgd_momentum', type=float)
parser.add_argument('--wd', type=float, help='weight decay of sgd')
parser.add_argument('--frequency_save', type=int,
help=' frequency_save, 0 is never')
parser.add_argument('--random_seed', type=int, help='random seed')
parser.add_argument('--yaml_path', type=str, default="./config/defense/bnp/config.yaml", help='the path of yaml')
#set the parameter for the bnp defense
parser.add_argument('--u', type=float, help='u in the bnp defense')
parser.add_argument('--u_min', type=float, help='the default minimum value of u')
parser.add_argument('--u_max', type=float, help='the default maximum value of u')
parser.add_argument('--u_num', type=float, help='the default number of u')
parser.add_argument('--ratio', type=float, help='the ratio of clean data loader')
parser.add_argument('--index', type=str, help='index of clean data')
def set_result(self, result_file):
attack_file = 'record/' + result_file
save_path = 'record/' + result_file + '/defense/bnp/'
if not (os.path.exists(save_path)):
os.makedirs(save_path)
# assert(os.path.exists(save_path))
self.args.save_path = save_path
if self.args.checkpoint_save is None:
self.args.checkpoint_save = save_path + 'checkpoint/'
if not (os.path.exists(self.args.checkpoint_save)):
os.makedirs(self.args.checkpoint_save)
if self.args.log is None:
self.args.log = save_path + 'log/'
if not (os.path.exists(self.args.log)):
os.makedirs(self.args.log)
self.result = load_attack_result(attack_file + '/attack_result.pt')
def set_trainer(self, model):
self.trainer = PureCleanModelTrainer(
model,
)
def set_logger(self):
args = self.args
logFormatter = logging.Formatter(
fmt='%(asctime)s [%(levelname)-8s] [%(filename)s:%(lineno)d] %(message)s',
datefmt='%Y-%m-%d:%H:%M:%S',
)
logger = logging.getLogger()
fileHandler = logging.FileHandler(args.log + '/' + time.strftime("%Y_%m_%d_%H_%M_%S", time.localtime()) + '.log')
fileHandler.setFormatter(logFormatter)
logger.addHandler(fileHandler)
consoleHandler = logging.StreamHandler()
consoleHandler.setFormatter(logFormatter)
logger.addHandler(consoleHandler)
logger.setLevel(logging.INFO)
logging.info(pformat(args.__dict__))
try:
logging.info(pformat(get_git_info()))
except:
logging.info('Getting git info fails.')
def set_devices(self):
# self.device = torch.device(
# (
# f"cuda:{[int(i) for i in self.args.device[5:].split(',')][0]}" if "," in self.args.device else self.args.device
# # since DataParallel only allow .to("cuda")
# ) if torch.cuda.is_available() else "cpu"
# )
self.device =self.args.device
def mitigation(self):
self.set_devices()
fix_random(self.args.random_seed)
# Prepare model, optimizer, scheduler
net = get_mbns_network(self.args.model,self.args.num_classes,norm_layer=mbns_model.BatchNorm2d_MBNS)
net.load_state_dict(self.result['model'])
if "," in self.device:
net = torch.nn.DataParallel(
net,
device_ids=[int(i) for i in self.args.device[5:].split(",")] # eg. "cuda:2,3,7" -> [2,3,7]
)
self.args.device = f'cuda:{net.device_ids[0]}'
net.to(self.args.device)
else:
net.to(self.args.device)
# criterion = nn.CrossEntropyLoss()
criterion = argparser_criterion(args)
trainloader_all = {}
train_tran = get_transform(self.args.dataset, *([self.args.input_height,self.args.input_width]) , train = True)
train_dataset = self.result['bd_train'].wrapped_dataset
data_set_without_tran = train_dataset
data_set_o = self.result['bd_train']
data_set_o.wrapped_dataset = data_set_without_tran
data_set_o.wrap_img_transform = train_tran
data_loader = torch.utils.data.DataLoader(data_set_o, batch_size=self.args.batch_size, num_workers=self.args.num_workers, shuffle=True, pin_memory=args.pin_memory)
trainloader_backdoor = data_loader
trainloader_all['bd_train'] = trainloader_backdoor
train_tran = get_transform(self.args.dataset, *([self.args.input_height,self.args.input_width]) , train = True)
clean_dataset = prepro_cls_DatasetBD_v2(self.result['clean_train'].wrapped_dataset)
data_all_length = len(clean_dataset)
ran_idx = choose_index(self.args, data_all_length)
log_index = self.args.log + 'index.txt'
np.savetxt(log_index, ran_idx, fmt='%d')
clean_dataset.subset(ran_idx)
data_set_without_tran = clean_dataset
data_set_o = self.result['clean_train']
data_set_o.wrapped_dataset = data_set_without_tran
data_set_o.wrap_img_transform = train_tran
data_loader = torch.utils.data.DataLoader(data_set_o, batch_size=self.args.batch_size, num_workers=self.args.num_workers, shuffle=True, pin_memory=args.pin_memory)
trainloader_clean = data_loader
trainloader_all['clean_train'] = trainloader_clean
test_tran = get_transform(self.args.dataset, *([self.args.input_height,self.args.input_width]) , train = False)
data_bd_testset = self.result['bd_test']
data_bd_testset.wrap_img_transform = test_tran
data_bd_loader = torch.utils.data.DataLoader(data_bd_testset, batch_size=self.args.batch_size, num_workers=self.args.num_workers,drop_last=False,pin_memory=args.pin_memory)
data_clean_testset = self.result['clean_test']
data_clean_testset.wrap_img_transform = test_tran
data_clean_loader = torch.utils.data.DataLoader(data_clean_testset, batch_size=self.args.batch_size, num_workers=self.args.num_workers,drop_last=False,pin_memory=args.pin_memory)
default_u = np.linspace(self.args.u_min, self.args.u_max, self.args.u_num)
agg_all = Metric_Aggregator()
clean_test_loss_list = []
bd_test_loss_list = []
test_acc_list = []
test_asr_list = []
test_ra_list = []
for u in default_u:
model_copy = copy.deepcopy(net)
model_copy.eval()
bnp_defense(model_copy, self.args.u, trainloader_all, args)
# model.eval()
model_copy.eval()
test_dataloader_dict = {}
test_dataloader_dict["clean_test_dataloader"] = data_clean_loader
test_dataloader_dict["bd_test_dataloader"] = data_bd_loader
self.set_trainer(model_copy)
self.trainer.set_with_dataloader(
### the train_dataload has nothing to do with the backdoor defense
train_dataloader = data_bd_loader,
test_dataloader_dict = test_dataloader_dict,
criterion = criterion,
optimizer = None,
scheduler = None,
device = self.args.device,
amp = self.args.amp,
frequency_save = self.args.frequency_save,
save_folder_path = self.args.save_path,
save_prefix = 'bnp',
prefetch = self.args.prefetch,
prefetch_transform_attr_name = "ori_image_transform_in_loading",
non_blocking = self.args.non_blocking,
)
clean_test_loss_avg_over_batch, \
bd_test_loss_avg_over_batch, \
test_acc, \
test_asr, \
test_ra = self.trainer.test_current_model(
test_dataloader_dict, self.args.device,
)
clean_test_loss_list.append(clean_test_loss_avg_over_batch)
bd_test_loss_list.append(bd_test_loss_avg_over_batch)
test_acc_list.append(test_acc)
test_asr_list.append(test_asr)
test_ra_list.append(test_ra)
agg_all({
"u": u,
"clean_test_loss_avg_over_batch": clean_test_loss_avg_over_batch,
"bd_test_loss_avg_over_batch": bd_test_loss_avg_over_batch,
"test_acc": test_acc,
"test_asr": test_asr,
"test_ra": test_ra,
})
general_plot_for_epoch(
{
"Test C-Acc": test_acc_list,
"Test ASR": test_asr_list,
"Test RA": test_ra_list,
},
save_path=f"{args.save_path}u_step_acc_like_metric_plots.png",
ylabel="percentage",
)
general_plot_for_epoch(
{
"Test Clean Loss": clean_test_loss_list,
"Test Backdoor Loss": bd_test_loss_list,
},
save_path=f"{args.save_path}u_step_loss_metric_plots.png",
ylabel="percentage",
)
general_plot_for_epoch(
{
"u": default_u,
},
save_path=f"{args.save_path}u_step_plots.png",
ylabel="percentage",
)
agg_all.to_dataframe().to_csv(f"{args.save_path}u_step_df.csv")
agg = Metric_Aggregator()
bnp_defense(net, self.args.u, trainloader_all, args)
test_dataloader_dict = {}
test_dataloader_dict["clean_test_dataloader"] = data_clean_loader
test_dataloader_dict["bd_test_dataloader"] = data_bd_loader
model = generate_cls_model(self.args.model,self.args.num_classes)
model.load_state_dict(net.state_dict())
self.set_trainer(model)
self.trainer.set_with_dataloader(
train_dataloader = trainloader_backdoor,
test_dataloader_dict = test_dataloader_dict,
criterion = criterion,
optimizer = None,
scheduler = None,
device = self.args.device,
amp = self.args.amp,
frequency_save = self.args.frequency_save,
save_folder_path = self.args.save_path,
save_prefix = 'bnp',
prefetch = self.args.prefetch,
prefetch_transform_attr_name = "ori_image_transform_in_loading",
non_blocking = self.args.non_blocking,
)
clean_test_loss_avg_over_batch, \
bd_test_loss_avg_over_batch, \
test_acc, \
test_asr, \
test_ra = self.trainer.test_current_model(
test_dataloader_dict, self.args.device,
)
agg({
"u": self.args.u,
"clean_test_loss_avg_over_batch": clean_test_loss_avg_over_batch,
"bd_test_loss_avg_over_batch": bd_test_loss_avg_over_batch,
"test_acc": test_acc,
"test_asr": test_asr,
"test_ra": test_ra,
})
agg.to_dataframe().to_csv(f"{args.save_path}bnp_df_summary.csv")
result = {}
result['model'] = model
save_defense_result(
model_name=args.model,
num_classes=args.num_classes,
model=model.cpu().state_dict(),
save_path=args.save_path,
)
return result
def defense(self,result_file):
self.set_result(result_file)
self.set_logger()
result = self.mitigation()
return result
if __name__ == '__main__':
parser = argparse.ArgumentParser(description=sys.argv[0])
bnp.add_arguments(parser)
args = parser.parse_args()
method = bnp(args)
if "result_file" not in args.__dict__:
args.result_file = 'defense_test_badnet'
elif args.result_file is None:
args.result_file = 'defense_test_badnet'
result = method.defense(args.result_file)