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fae6e9ade4
* feat(kprobe): Add basic kprobe support for x86_64 * feat: add ebpf support (#912) - 实现bpf()一部分命令,包括几种基本map,相关的helper函数 - 实现部分perf相关的数据结构 - 暂时为文件实现简单mmap - 实现一个使用kprobe统计syscall 调用次数的ebpf程序 对eBPF支持程度(基本): - 简单的eBPF程序(没有指定特殊的Map) - 使用内核已经实现的Map的eBPF程序 - 可以和kprobe配合使用 - 内核Map相关的接口定义已经实现,添加新的Map较为简单 不支持的功能: - 区分不同的eBPF程序类型(Network/Cgroup)并限定可调用的helper函数集 - 与内核其它跟踪机制配合(tracepoint) - 其它helper和Map todo - [ ] 修改mmap,需要讨论,因为这个和块缓存层相关 - [x] 添加文档 - [x] 修复可能的错误 - [x] 增加rbpf版本信息 * feat: add /sys/devices/system/cpu/possible file * feat: add /sys/devices/system/cpu/online
75 lines
2.8 KiB
Rust
75 lines
2.8 KiB
Rust
// SPDX-License-Identifier: (Apache-2.0 OR MIT)
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// Copyright 2017 6WIND S.A. <quentin.monnet@6wind.com>
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#[macro_use]
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extern crate json;
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extern crate elf;
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use std::path::PathBuf;
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extern crate rbpf;
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use rbpf::disassembler;
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// Turn a program into a JSON string.
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//
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// Relies on `json` crate.
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//
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// You may copy this function and adapt it according to your needs. For instance, you may want to:
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//
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// * Remove the "desc" (description) attributes from the output.
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// * Print integers as integers, and not as strings containing their hexadecimal representation
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// (just replace the relevant `format!()` calls by the commented values.
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fn to_json(prog: &[u8]) -> String {
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// This call returns a high-level representation of the instructions, with the two parts of
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// `LD_DW_IMM` instructions merged, and name and descriptions of the instructions.
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// If you prefer to use a lower-level representation, use `ebpf::to_insn_vec()` function
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// instead.
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let insns = disassembler::to_insn_vec(prog);
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let mut json_insns = vec![];
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for insn in insns {
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json_insns.push(object!(
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"opc" => format!("{:#x}", insn.opc), // => insn.opc,
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"dst" => format!("{:#x}", insn.dst), // => insn.dst,
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"src" => format!("{:#x}", insn.src), // => insn.src,
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"off" => format!("{:#x}", insn.off), // => insn.off,
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// Warning: for imm we use a i64 instead of a i32 (to have correct values for
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// `lddw` operation. If we print a number in the JSON this is not a problem, the
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// internal i64 has the same value with extended sign on 32 most significant bytes.
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// If we print the hexadecimal value as a string however, we want to cast as a i32
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// to prevent all other instructions to print spurious `ffffffff` prefix if the
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// number is negative. When values takes more than 32 bits with `lddw`, the cast
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// has no effect and the complete value is printed anyway.
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"imm" => format!("{:#x}", insn.imm as i32), // => insn.imm,
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"desc" => insn.desc
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));
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}
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json::stringify_pretty(
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object!(
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"size" => json_insns.len(),
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"insns" => json_insns
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),
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4,
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)
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}
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// Load a program from an object file, and prints it to standard output as a JSON string.
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fn main() {
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// Let's reuse this file from `load_elf/example`.
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let filename = "examples/load_elf__block_a_port.elf";
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let path = PathBuf::from(filename);
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let file = match elf::File::open_path(path) {
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Ok(f) => f,
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Err(e) => panic!("Error: {:?}", e),
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};
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let text_scn = match file.get_section(".classifier") {
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Some(s) => s,
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None => panic!("Failed to look up .classifier section"),
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};
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let prog = &text_scn.data;
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println!("{}", to_json(prog));
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}
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