bpftime:用于Uprobe, sycall和内核用户交互的用户空间eBPF运行时

Yusheng Zheng, Tong Yu, Yiwei Yang, Yanpeng Hu, XiaoZheng Lai, Andrew Quinn
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引用次数: 0

摘要

在以内核为中心的操作中,eBPF的探测组件经常遇到性能瓶颈,这主要归因于上下文切换带来的开销。将eBPF操作转换到用户空间可以绕过这些障碍,从而优化性能。这还增强了可配置性,并消除了对内核eBPF的根访问或特权的必要性,从而最大限度地减少了内核攻击面。本文介绍了一种新的用户空间eBPF运行时bpftime,它利用二进制重写来实现探测和系统调用钩子功能。通过bpftime, userspaceuprobe实现了10倍的速度提升,而不需要双重上下文切换。此外,这个运行时还促进了进程内系统调用的编程挂钩,既安全又有效。Bpftime可以无缝地附加到任何正在运行的进程,从而限制了重新启动或手动重新编译的需要。我们的实现还扩展到共享内存中的进程间eBPF映射,以满足摘要聚合或控制平面通信需求。与现有的eBPF工具链(如clang和libbpf)保持兼容性,不仅简化了用户空间eBPF的开发而无需任何修改,而且还通过BTF支持CO-RE。通过bpftime,我们不仅增强了探针性能,还扩展了eBPF运行时在用户空间中的多功能性和用户友好性,为更高效、更安全的内核操作铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
bpftime: userspace eBPF Runtime for Uprobe, Syscall and Kernel-User Interactions
In kernel-centric operations, the uprobe component of eBPF frequently encounters performance bottlenecks, largely attributed to the overheads borne by context switches. Transitioning eBPF operations to user space bypasses these hindrances, thereby optimizing performance. This also enhances configurability and obviates the necessity for root access or privileges for kernel eBPF, subsequently minimizing the kernel attack surface. This paper introduces bpftime, a novel user-space eBPF runtime, which leverages binary rewriting to implement uprobe and syscall hook capabilities. Through bpftime, userspace uprobes achieve a 10x speed enhancement compared to their kernel counterparts without requiring dual context switches. Additionally, this runtime facilitates the programmatic hooking of syscalls within a process, both safely and efficiently. Bpftime can be seamlessly attached to any running process, limiting the need for either a restart or manual recompilation. Our implementation also extends to interprocess eBPF Maps within shared memory, catering to summary aggregation or control plane communication requirements. Compatibility with existing eBPF toolchains such as clang and libbpf is maintained, not only simplifying the development of user-space eBPF without necessitating any modifications but also supporting CO-RE through BTF. Through bpftime, we not only enhance uprobe performance but also extend the versatility and user-friendliness of eBPF runtime in user space, paving the way for more efficient and secure kernel operations.
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