forked from mystiq/dex
185 lines
5.6 KiB
Go
185 lines
5.6 KiB
Go
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// 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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"io/ioutil"
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"reflect"
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"strconv"
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"strings"
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"testing"
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)
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// This is a direct translation of the program in
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// testdata/all_instructions.txt.
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var allInstructions = []Instruction{
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LoadConstant{Dst: RegA, Val: 42},
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LoadConstant{Dst: RegX, Val: 42},
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LoadScratch{Dst: RegA, N: 3},
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LoadScratch{Dst: RegX, N: 3},
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LoadAbsolute{Off: 42, Size: 1},
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LoadAbsolute{Off: 42, Size: 2},
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LoadAbsolute{Off: 42, Size: 4},
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LoadIndirect{Off: 42, Size: 1},
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LoadIndirect{Off: 42, Size: 2},
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LoadIndirect{Off: 42, Size: 4},
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LoadMemShift{Off: 42},
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LoadExtension{Num: ExtLen},
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LoadExtension{Num: ExtProto},
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LoadExtension{Num: ExtType},
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LoadExtension{Num: ExtRand},
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StoreScratch{Src: RegA, N: 3},
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StoreScratch{Src: RegX, N: 3},
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ALUOpConstant{Op: ALUOpAdd, Val: 42},
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ALUOpConstant{Op: ALUOpSub, Val: 42},
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ALUOpConstant{Op: ALUOpMul, Val: 42},
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ALUOpConstant{Op: ALUOpDiv, Val: 42},
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ALUOpConstant{Op: ALUOpOr, Val: 42},
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ALUOpConstant{Op: ALUOpAnd, Val: 42},
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ALUOpConstant{Op: ALUOpShiftLeft, Val: 42},
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ALUOpConstant{Op: ALUOpShiftRight, Val: 42},
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ALUOpConstant{Op: ALUOpMod, Val: 42},
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ALUOpConstant{Op: ALUOpXor, Val: 42},
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ALUOpX{Op: ALUOpAdd},
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ALUOpX{Op: ALUOpSub},
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ALUOpX{Op: ALUOpMul},
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ALUOpX{Op: ALUOpDiv},
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ALUOpX{Op: ALUOpOr},
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ALUOpX{Op: ALUOpAnd},
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ALUOpX{Op: ALUOpShiftLeft},
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ALUOpX{Op: ALUOpShiftRight},
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ALUOpX{Op: ALUOpMod},
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ALUOpX{Op: ALUOpXor},
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NegateA{},
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Jump{Skip: 10},
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JumpIf{Cond: JumpEqual, Val: 42, SkipTrue: 8, SkipFalse: 9},
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JumpIf{Cond: JumpNotEqual, Val: 42, SkipTrue: 8},
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JumpIf{Cond: JumpLessThan, Val: 42, SkipTrue: 7},
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JumpIf{Cond: JumpLessOrEqual, Val: 42, SkipTrue: 6},
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JumpIf{Cond: JumpGreaterThan, Val: 42, SkipTrue: 4, SkipFalse: 5},
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JumpIf{Cond: JumpGreaterOrEqual, Val: 42, SkipTrue: 3, SkipFalse: 4},
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JumpIf{Cond: JumpBitsSet, Val: 42, SkipTrue: 2, SkipFalse: 3},
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TAX{},
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TXA{},
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RetA{},
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RetConstant{Val: 42},
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}
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var allInstructionsExpected = "testdata/all_instructions.bpf"
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// Check that we produce the same output as the canonical bpf_asm
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// linux kernel tool.
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func TestInterop(t *testing.T) {
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out, err := Assemble(allInstructions)
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if err != nil {
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t.Fatalf("assembly of allInstructions program failed: %s", err)
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}
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t.Logf("Assembled program is %d instructions long", len(out))
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bs, err := ioutil.ReadFile(allInstructionsExpected)
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if err != nil {
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t.Fatalf("reading %s: %s", allInstructionsExpected, err)
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}
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// First statement is the number of statements, last statement is
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// empty. We just ignore both and rely on slice length.
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stmts := strings.Split(string(bs), ",")
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if len(stmts)-2 != len(out) {
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t.Fatalf("test program lengths don't match: %s has %d, Go implementation has %d", allInstructionsExpected, len(stmts)-2, len(allInstructions))
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}
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for i, stmt := range stmts[1 : len(stmts)-2] {
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nums := strings.Split(stmt, " ")
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if len(nums) != 4 {
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t.Fatalf("malformed instruction %d in %s: %s", i+1, allInstructionsExpected, stmt)
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}
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actual := out[i]
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op, err := strconv.ParseUint(nums[0], 10, 16)
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if err != nil {
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t.Fatalf("malformed opcode %s in instruction %d of %s", nums[0], i+1, allInstructionsExpected)
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}
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if actual.Op != uint16(op) {
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t.Errorf("opcode mismatch on instruction %d (%#v): got 0x%02x, want 0x%02x", i+1, allInstructions[i], actual.Op, op)
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}
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jt, err := strconv.ParseUint(nums[1], 10, 8)
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if err != nil {
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t.Fatalf("malformed jt offset %s in instruction %d of %s", nums[1], i+1, allInstructionsExpected)
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}
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if actual.Jt != uint8(jt) {
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t.Errorf("jt mismatch on instruction %d (%#v): got %d, want %d", i+1, allInstructions[i], actual.Jt, jt)
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}
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jf, err := strconv.ParseUint(nums[2], 10, 8)
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if err != nil {
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t.Fatalf("malformed jf offset %s in instruction %d of %s", nums[2], i+1, allInstructionsExpected)
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}
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if actual.Jf != uint8(jf) {
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t.Errorf("jf mismatch on instruction %d (%#v): got %d, want %d", i+1, allInstructions[i], actual.Jf, jf)
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}
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k, err := strconv.ParseUint(nums[3], 10, 32)
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if err != nil {
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t.Fatalf("malformed constant %s in instruction %d of %s", nums[3], i+1, allInstructionsExpected)
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}
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if actual.K != uint32(k) {
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t.Errorf("constant mismatch on instruction %d (%#v): got %d, want %d", i+1, allInstructions[i], actual.K, k)
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}
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}
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}
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// Check that assembly and disassembly match each other.
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//
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// Because we offer "fake" jump conditions that don't appear in the
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// machine code, disassembly won't be a 1:1 match with the original
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// source, although the behavior will be identical. However,
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// reassembling the disassembly should produce an identical program.
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func TestAsmDisasm(t *testing.T) {
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prog1, err := Assemble(allInstructions)
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if err != nil {
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t.Fatalf("assembly of allInstructions program failed: %s", err)
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}
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t.Logf("Assembled program is %d instructions long", len(prog1))
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src, allDecoded := Disassemble(prog1)
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if !allDecoded {
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t.Errorf("Disassemble(Assemble(allInstructions)) produced unrecognized instructions:")
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for i, inst := range src {
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if r, ok := inst.(RawInstruction); ok {
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t.Logf(" insn %d, %#v --> %#v", i+1, allInstructions[i], r)
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}
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}
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}
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prog2, err := Assemble(src)
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if err != nil {
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t.Fatalf("assembly of Disassemble(Assemble(allInstructions)) failed: %s", err)
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}
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if len(prog2) != len(prog1) {
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t.Fatalf("disassembly changed program size: %d insns before, %d insns after", len(prog1), len(prog2))
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}
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if !reflect.DeepEqual(prog1, prog2) {
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t.Errorf("program mutated by disassembly:")
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for i := range prog2 {
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if !reflect.DeepEqual(prog1[i], prog2[i]) {
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t.Logf(" insn %d, s: %#v, p1: %#v, p2: %#v", i+1, allInstructions[i], prog1[i], prog2[i])
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}
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}
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}
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}
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