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- #!/usr/bin/env python2
- import sys,os
- import subprocess
- import re
- def gen_dockerfile( image_name, app_name, bin_name, proj_dir) :
- if not os.path.exists(proj_dir + "/Tools/build") :
- os.makedirs(proj_dir + "/Tools/build")
- df =open(proj_dir + "/Tools/build/Dockerfile" + '.' + app_name, 'w')
- df.write('# This file is auto-generated, any edits will be overwritten\n')
- df.write('\n')
- # Choose the base image from the user input
- df.write('FROM '+ image_name + '\n')
- df.write('\n')
- # SWITCH to ROOT
- df.write('# SWITCH to root \n')
- df.write('USER root \n')
- df.write('\n')
-
- # DOWNLOAD dependencies
- df.write('# Download dependencies\n')
- df.write('RUN apt-get update \\\n')
- df.write(' && apt-get install -y openssl libjemalloc-dev python python-pip python-dev \\\n')
- df.write(' && pip install protobuf \\\n')
- df.write(' && pip install pycrypto \n')
- df.write('# Temporal fixes for Dependencies Issue #1: libcrypto.so.1.0.0 and libssl.so.1.0.0 have different locations \n')
- df.write('RUN ln -s /usr/lib/x86_64-linux-gnu/libcrypto.so.1.0.0 /lib/x86_64-linux-gnu/libcrypto.so.1.0.0 \\\n')
- df.write(' && ln -s /usr/lib/x86_64-linux-gnu/libssl.so.1.0.0 /lib/x86_64-linux-gnu/libssl.so.1.0.0 \n')
- # SETUP Directory Structure
- print "cwd: "+ proj_dir
- df.write('# Setup Directory Structure \n')
- df.write('RUN mkdir -p ' + proj_dir + '/LibOS/shim/test/apps/' + app_name + ' \\\n')
- df.write(' && mkdir -p ' + proj_dir + '/Pal/src/host/Linux-SGX/signer \\\n')
- df.write(' && mkdir -p ' + proj_dir + '/Runtime \\\n')
- df.write(' && mkdir /gbin \n')
- # COPY system files
- df.write('# Copy system files \n')
- df.write('COPY Runtime/* ' + proj_dir + '/Runtime/ \n')
- df.write('COPY Pal/src/Makefile.Host ' + proj_dir + '/Pal/src/Makefile.Host \n')
- df.write('COPY Pal/src/host/Linux-SGX/signer/* ' + proj_dir + '/Pal/src/host/Linux-SGX/signer/ \n')
- # COPY tools for building app instance
- df.write('# Copy tools for building app instance\n')
- df.write('COPY Tools/build/tools/* /gbin/ \n')
- df.write('COPY Tools/gen_manifest /gbin/ \n')
- # Generating manifest file for target app
- df.write('# Generating manifest for target app \n')
- df.write('RUN /gbin/gen_manifest ' + app_name + ' ' + bin_name + ' ' + proj_dir + '\n')
- # Sign Enclave
- df.write('# Signing Enclave \n')
- df.write('RUN cd ' + proj_dir + '/LibOS/shim/test/apps/' + app_name + ' && \ \n'
- ' '+ proj_dir + '/Pal/src/host/Linux-SGX/signer/pal-sgx-sign -libpal ' + proj_dir +
- '/Pal/src/host/Linux-SGX/../../../../Runtime/libpal-Linux-SGX.so -key ' + proj_dir +
- '/Pal/src/host/Linux-SGX/signer/enclave-key.pem -output ' + app_name + '.manifest.sgx ' +
- '-manifest ' + app_name + '.manifest \n')
- # Remove signing key
- df.write('# Removing key after signing \n')
- # TODO
-
- # Overwrite Entry Point
- df.write('ENTRYPOINT ["/bin/bash", "/gbin/app_exec"] \n')
- df.close()
- def make_exec(path) :
- mode = os.stat(path).st_mode
- mode |= (mode & 0o444) >> 2 # copy R bits to X
- os.chmod(path, mode)
- def gen_app_executor(app_name, bin_cmd, proj_dir) :
- if not os.path.exists(proj_dir + "/Tools/build/tools") :
- os.makedirs(proj_dir + "/Tools/build/tools")
- e_path = proj_dir + "/Tools/build/tools/app_exec"
- print "e_path: " + e_path
- ef = open(e_path, "w")
- make_exec(e_path)
- ef.write('#!/usr/bin/env bash\n\n')
- ef.write('cd ' + proj_dir + '/LibOS/shim/test/apps/' + app_name +'\n')
- ef.write('# Generate EINITOKEN \n')
- ef.write(proj_dir + '/Pal/src/host/Linux-SGX/signer/pal-sgx-get-token -output '
- + app_name + '.token -sig ' + app_name + '.sig \n')
- ef.write('# Run the application \n')
- ef.write('SGX=1 ./' + app_name + '.manifest.sgx ' + bin_cmd + '\n')
-
- ef.close()
-
- if __name__ == "__main__":
- if len(sys.argv) < 3:
- print "Usage: gsce run [Image name] "
- exit()
- image_name = sys.argv[-1]
- image_match = re.match(r'([^:]*)(:*)(.*)', image_name)
- if image_match :
- app_name = image_match.group(1)
- print "app_name: " + app_name
- inspect_cmd = "sudo docker inspect --format '{{.Config.Cmd}}' " + image_name
- res = subprocess.check_output(inspect_cmd, shell=True).strip()
- print res
- match = re.match(r'\[([^\s]*)\s*(.*)\]', res)
- bin_name = match.group(1)
- if match.group(2) :
- bin_cmd = match.group(2)
- else :
- bin_cmd = ""
- print "bin_name: " + bin_name + " bin_cmd: " + bin_cmd
- # Store the rest arguments as docker run arguments
- docker_str = " " + " ".join(sys.argv[2:-1])
-
- # print image_cmd
- proj_dir = os.path.abspath(os.getcwd() + "/../")
- # STEP 1: Generating Dockerfile
- gen_dockerfile(image_name, app_name, bin_name, proj_dir)
-
- # STEP 2: Generating entry point execute script
- gen_app_executor(app_name, bin_cmd, proj_dir)
- # STEP 3: Building new docker image with generated Dockerfile
- os.chdir('..')
- os.system("sudo docker build -f Tools/build/Dockerfile." + app_name + " -t gsc_" + app_name + " .\n")
- # STEP 4: Run GSC with the target app
- os.system("sudo docker run -i -t" + docker_str +" --device=/dev/gsgx --device=/dev/isgx -v /var/run/aesmd/aesm.socket:/var/run/aesmd/aesm.socket gsc_"+app_name+"\n")
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