mirror of
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151 lines
4.0 KiB
Go
151 lines
4.0 KiB
Go
// Copyright 2016 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package bpf
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import (
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"errors"
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"fmt"
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)
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// A VM is an emulated BPF virtual machine.
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type VM struct {
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filter []Instruction
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}
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// NewVM returns a new VM using the input BPF program.
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func NewVM(filter []Instruction) (*VM, error) {
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if len(filter) == 0 {
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return nil, errors.New("one or more Instructions must be specified")
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}
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for i, ins := range filter {
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check := len(filter) - (i + 1)
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switch ins := ins.(type) {
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// Check for out-of-bounds jumps in instructions
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case Jump:
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if check <= int(ins.Skip) {
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return nil, fmt.Errorf("cannot jump %d instructions; jumping past program bounds", ins.Skip)
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}
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case JumpIf:
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if check <= int(ins.SkipTrue) {
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return nil, fmt.Errorf("cannot jump %d instructions in true case; jumping past program bounds", ins.SkipTrue)
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}
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if check <= int(ins.SkipFalse) {
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return nil, fmt.Errorf("cannot jump %d instructions in false case; jumping past program bounds", ins.SkipFalse)
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}
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case JumpIfX:
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if check <= int(ins.SkipTrue) {
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return nil, fmt.Errorf("cannot jump %d instructions in true case; jumping past program bounds", ins.SkipTrue)
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}
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if check <= int(ins.SkipFalse) {
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return nil, fmt.Errorf("cannot jump %d instructions in false case; jumping past program bounds", ins.SkipFalse)
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}
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// Check for division or modulus by zero
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case ALUOpConstant:
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if ins.Val != 0 {
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break
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}
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switch ins.Op {
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case ALUOpDiv, ALUOpMod:
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return nil, errors.New("cannot divide by zero using ALUOpConstant")
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}
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// Check for unknown extensions
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case LoadExtension:
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switch ins.Num {
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case ExtLen:
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default:
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return nil, fmt.Errorf("extension %d not implemented", ins.Num)
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}
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}
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}
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// Make sure last instruction is a return instruction
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switch filter[len(filter)-1].(type) {
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case RetA, RetConstant:
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default:
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return nil, errors.New("BPF program must end with RetA or RetConstant")
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}
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// Though our VM works using disassembled instructions, we
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// attempt to assemble the input filter anyway to ensure it is compatible
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// with an operating system VM.
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_, err := Assemble(filter)
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return &VM{
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filter: filter,
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}, err
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}
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// Run runs the VM's BPF program against the input bytes.
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// Run returns the number of bytes accepted by the BPF program, and any errors
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// which occurred while processing the program.
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func (v *VM) Run(in []byte) (int, error) {
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var (
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// Registers of the virtual machine
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regA uint32
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regX uint32
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regScratch [16]uint32
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// OK is true if the program should continue processing the next
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// instruction, or false if not, causing the loop to break
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ok = true
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)
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// TODO(mdlayher): implement:
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// - NegateA:
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// - would require a change from uint32 registers to int32
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// registers
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// TODO(mdlayher): add interop tests that check signedness of ALU
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// operations against kernel implementation, and make sure Go
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// implementation matches behavior
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for i := 0; i < len(v.filter) && ok; i++ {
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ins := v.filter[i]
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switch ins := ins.(type) {
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case ALUOpConstant:
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regA = aluOpConstant(ins, regA)
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case ALUOpX:
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regA, ok = aluOpX(ins, regA, regX)
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case Jump:
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i += int(ins.Skip)
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case JumpIf:
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jump := jumpIf(ins, regA)
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i += jump
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case JumpIfX:
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jump := jumpIfX(ins, regA, regX)
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i += jump
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case LoadAbsolute:
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regA, ok = loadAbsolute(ins, in)
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case LoadConstant:
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regA, regX = loadConstant(ins, regA, regX)
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case LoadExtension:
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regA = loadExtension(ins, in)
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case LoadIndirect:
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regA, ok = loadIndirect(ins, in, regX)
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case LoadMemShift:
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regX, ok = loadMemShift(ins, in)
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case LoadScratch:
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regA, regX = loadScratch(ins, regScratch, regA, regX)
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case RetA:
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return int(regA), nil
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case RetConstant:
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return int(ins.Val), nil
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case StoreScratch:
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regScratch = storeScratch(ins, regScratch, regA, regX)
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case TAX:
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regX = regA
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case TXA:
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regA = regX
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default:
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return 0, fmt.Errorf("unknown Instruction at index %d: %T", i, ins)
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}
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}
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return 0, nil
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}
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