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- Graphene Library OS
- A Linux-compatible Library OS for Multi-Process Applications
- 1. WHAT IS GRAPHENE?
- Graphene Library OS is a project to provided lightweight guest OSes with
- support for Linux multi-process applications. Comparable to virtual
- machines, Graphene can run applications in an isolated environment, with
- virtualization benefits such as guest customization, platform independence
- and migration.
- Graphene Library OS is a work published in Eurosys 2014. For more
- information. see the paper: Tsai, et al, "Cooperation and Security Isolation
- of Library OSes for Multi-Process Applications", Eurosys 2014.
- 2. HOW TO BUILD GRAPHENE?
- Graphene Library OS is consist of five parts:
- - Instrumented GNU Library C
- - LibOS (a shared library named "libsysdb.so")
- - PAL, a.k.a Platform Adaption Layer (a shared library named "libpal.so")
- - Reference monitor (a shared library named "libpal_sec.so")
- - Minor kernel customization and kernel modules
- Graphene Library OS currently only works on x86_64 architecture.
- Graphene Library OS is tested to be compiling and running on Ubuntu 12.04/14.04
- (both server and desktop version), along with Linux kernel 3.5/3.14.
- We recommand to build and install Graphene with the same host platform.
- Other distributions of 64-bit Linux can potentially, but the result is not
- guaranteed. If you find Graphene not working on other distributions, please
- contact us with a detailed bug report.
- The following packages are required for building Graphene: (can be installed
- with 'apt-get install')
- - build-essential
- - autoconf
- - gawk
- To build the system, simply run the following commands in the root of the
- source tree:
- make
- make install
- (Add Graphene kernel as a boot option by commands like "update-grub")
- (reboot and choose the Graphene kernel)
- Please note that the building process may pause before building the Linux
- kernel, because it requires you to provide a sensible configuration file
- (.config). The Graphene kernel requires the following options to be enabled
- in the configuration:
- - CONFIG_GRAPHENE=y
- - CONFIG_GRAPHENE_BULK_IPC=y
- - CONFIG_GRAPHENE_ISOLATE=y
- Each part of Graphene can be built separately in the subdirectories.
- To build Graphene library OS with debug symbol, run "make debug" instead of
- "make".
- For more details about the building and installation, see the Graphene github
- Wiki page: <https://github.com/oscarlab/graphene/wiki>.
- 3. HOW TO RUN AN APPLICATION IN GRAPHENE?
- Graphene library OS uses PAL (libpal.so) as a loader to bootstrap an
- application in the library OS. To start Graphene, PAL (libpal.so) will have
- to be run as an executable, with the name of the program, and a "manifest
- file" given from the command line. Graphene provides three options for
- spcifying the programs and manifest files:
- option 1: (automatic manifest)
- [PATH_TO_PAL]/libpal.so [PROGRAM] [ARGUMENTS]...
- (Manifest file: "[PROGRAM].manifest" or "manifest")
- option 2: (given manifest)
- [PATH_TO_PAL]/libpal.so [MANIFEST] [ARGUMENTS]...
- option 3: (manifest as a script)
- [PATH_TO_MANIFEST]/[MANIFEST] [ARGUMENTS]...
- (Manifest must have "#![PATH_TO_PAL]/libpal.so" as the first line)
- Using "libpal.so" as loader to start Graphene will not attach the applications
- to the Graphene reference monitor. Tha applications will have better
- performance, but no strong security isolation. To attach the applications to
- the Graphene reference monitor, Graphene must be started with the PAL
- reference monitor loader (libpal_sec.so). Graphene provides three options for
- spcifying the programs and manifest files to the loader:
- option 4: (automatic manifest - with reference monitor)
- [PATH_TO_PAL]/libpal.so [PROGRAM] [ARGUMENTS]...
- (Manifest file: "[PROGRAM].manifest" or "manifest")
- option 5: (given manifest - with reference monitor)
- [PATH_TO_PAL]/libpal.so [MANIFEST] [ARGUMENTS]...
- option 6: (manifest as a script - with reference monitor)
- [PATH_TO_MANIFEST]/[MANIFEST] [ARGUMENTS]...
- (Manifest must have "#![PATH_TO_PAL]/libpal.so" as the first line)
- Although manifest files are optional for Graphene, running an application
- usually requires some minimal configuration in its manifest file. A
- sensible manifest file will include paths to the library OS and GNU
- library C, environment variables such as LD_LIBRARY_PATH, file systems to
- be mounted, and isolation rules to be enforced in the reference monitor.
- Here is an example of manifest files:
- loader.preload = file:LibOS/shim/src/libsysdb.so
- loader.env.LDL_LIBRAY_PATH = /lib
- fs.mount.root.type = chroot
- fs.mount.root.uri = file:/
- fs.mount.other.glibc.type = chroot
- fs.mount.other.glibc.path = /lib
- fs.mount.other.glibc.uri = file:LibOS/build
- More examples can be found in the test directories (LibOS/shim/test). We have
- also tested several commercial applications such as GCC, Bash and Apache,
- and the manifest files that bootstrap them in Graphene are provided in the
- individual directories.
- For more information and the detail of the manifest syntax, see the Graphene
- github Wiki page: <https://github.com/oscarlab/graphene/wiki>.
- 4. HOW TO CONTACT THE MAINTAINER?
- For any questions or bug reports, please contact us:
- Chia-Che Tsai <chitsai@cs.stonybrook.edu>
- Donald Porter <porter@cs.stonybrook.edu>
- or post an issue on our github repository:
- <https://github.com/oscarlab/graphene/issues>
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