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Golang Safety

Defensive Golang coding to prevent panics, silent data corruption, and subtle runtime bugs. Use when encountering nil panics, append aliasing, map concurrent...
防御性Golang编程,防止panic、静默数据损坏和隐蔽运行时bug。适用于处理nil panic、append别名、map并发访问等问题。
samber samber 来源
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概述

Persona: You are a defensive Go engineer. You treat every untested assumption about nil, capacity, and numeric range as a latent crash waiting to happen.

Go Safety: Correctness & Defensive Coding

Prevents programmer mistakes — bugs, panics, and silent data corruption in normal (non-adversarial) code. Security handles attackers; safety handles ourselves.

Best Practices Summary

  1. Prefer generics over any when the type set is known — compiler catches mismatches instead of runtime panics
  2. Always use safe type assertions — for normal interfaces use comma-ok (v, ok := x.(T)); for reflection in Go 1.25+ prefer reflect.TypeAssertT over value.Interface().(T).
  3. Typed nil pointer in an interface is not == nil — the type descriptor makes it non-nil
  4. Writing to a nil map panics — always initialize before use
  5. append may reuse the backing array — both slices share memory if capacity allows, silently corrupting each other
  6. Return defensive copies from exported functions — otherwise callers mutate your internals
  7. defer runs at function exit, not loop iteration — extract loop body to a function
  8. Integer conversions truncate silentlyint64 to int32 wraps without error
  9. Float arithmetic is not exact — use epsilon comparison or math/big
  10. Design useful zero values — nil map fields panic on first write; use lazy init
  11. Use sync.Once for lazy init — guarantees exactly-once even under concurrency

Nil Safety

Nil-related panics are the most common crash in Go.

The nil interface trap

Interfaces store (type, value). An interface is nil only when both are nil. Returning a typed nil pointer sets the type descriptor, making it non-nil:

// ✗ Dangerous — interface{type: *MyHandler, value: nil} is not == nil
func getHandler() http.Handler {
    var h *MyHandler // nil pointer
    if !enabled {
        return h // interface{type: *MyHandler, value: nil} != nil
    }
    return h
}

// ✓ Good — return nil explicitly
func getHandler() http.Handler {
    if !enabled {
        return nil // interface{type: nil, value: nil} == nil
    }
    return &MyHandler{}
}

Nil map, slice, and channel behavior

TypeIndex into nilWrite to nilLen/Cap of nilRange over nil
---------------
MapZero valuepanic00 iterations
Slicepanicpanic00 iterations
ChannelBlocks foreverBlocks forever0Blocks forever
// ✗ Bad — nil map panics on write
var m map[string]int
m["key"] = 1

// ✓ Good — initialize or lazy-init in methods
m := make(map[string]int)

func (r *Registry) Add(name string, val int) {
    if r.items == nil { r.items = make(map[string]int) }
    r.items[name] = val
}

See Nil Safety Deep Dive for nil receivers, nil in generics, and nil interface performance.

Slice & Map Safety

Slice aliasing — the append trap

append reuses the backing array if capacity allows. Both slices then share memory:

// ✗ Dangerous — a and b share backing array
a := make([]int, 3, 5)
b := append(a, 4)
b[0] = 99 // also modifies a[0]

// ✓ Good — full slice expression forces new allocation
b := append(a[:len(a):len(a)], 4)

Map concurrent access

Maps MUST NOT be accessed concurrently — → see samber/cc-skills-golang@golang-concurrency for sync primitives.

See Slice and Map Deep Dive for range pitfalls, subslice memory retention, and slices.Clone/maps.Clone.

Numeric Safety

Implicit type conversions truncate silently

// ✗ Bad — silently wraps around if val > math.MaxInt32 (3B becomes -1.29B)
var val int64 = 3_000_000_000
i32 := int32(val) // -1294967296 (silent wraparound)

// ✓ Good — check before converting
if val > math.MaxInt32 || val < math.MinInt32 {
    return fmt.Errorf("value %d overflows int32", val)
}
i32 := int32(val)

Float comparison

// ✗ Bad — floating point arithmetic is not exact
var a, b, c float64 = 0.1, 0.2, 0.3
a+b == c // false

// ✓ Good — use epsilon comparison
const epsilon = 1e-9
math.Abs((a+b)-c) < epsilon // true

Division by zero

Integer division by zero panics. Float division by zero produces +Inf, -Inf, or NaN.

func avg(total, count int) (int, error) {
    if count == 0 {
        return 0, errors.New("division by zero")
    }
    return total / count, nil
}

For integer overflow as a security vulnerability, see the samber/cc-skills-golang@golang-security skill section.

Resource Safety

defer in loops — resource accumulation

defer runs at _function_ exit, not loop iteration. Resources accumulate until the function returns:

// ✗ Bad — all files stay open until function returns
for _, path := range paths {
    f, _ := os.Open(path)
    defer f.Close() // deferred until function exits
    process(f)
}

// ✓ Good — extract to function so defer runs per iteration
for _, path := range paths {
    if err := processOne(path); err != nil { return err }
}
func processOne(path string) error {
    f, err := os.Open(path)
    if err != nil { return err }
    defer f.Close()
    return process(f)
}

Goroutine leaks

→ See samber/cc-skills-golang@golang-concurrency for goroutine lifecycle and leak prevention.

Immutability & Defensive Copying

Exported functions returning slices/maps SHOULD return defensive copies.

Protecting struct internals

// ✗ Bad — exported slice field, anyone can mutate
type Config struct {
    Hosts []string
}

// ✓ Good — unexported field with accessor returning a copy
type Config struct {
    hosts []string
}

func (c *Config) Hosts() []string {
    return slices.Clone(c.hosts)
}

Initialization Safety

Zero-value design

Design types so var x MyType is safe — prevents "forgot to initialize" bugs:

var mu sync.Mutex   // ✓ usable at zero value
var buf bytes.Buffer // ✓ usable at zero value

// ✗ Bad — nil map panics on write
type Cache struct { data map[string]any }

sync.Once for lazy initialization

type DB struct {
    once sync.Once
    conn *sql.DB
}

func (db *DB) connection() *sql.DB {
    db.once.Do(func() {
        db.conn, _ = sql.Open("postgres", connStr)
    })
    return db.conn
}

init() function pitfalls

→ See samber/cc-skills-golang@golang-design-patterns for why init() should be avoided in favor of explicit constructors.

Enforce with Linters

Many safety pitfalls are caught automatically by linters: errcheck, forcetypeassert, nilerr, govet, staticcheck. See the samber/cc-skills-golang@golang-lint skill for configuration and usage.

Go 1.25+ reflection type assertions

For reflection code, prefer reflect.TypeAssert[T] over value.Interface().(T).

v := reflect.ValueOf(x)
if s, ok := reflect.TypeAssert[string](v); ok {
    use(s)
}

Cross-References

  • → See samber/cc-skills-golang@golang-concurrency skill for concurrent access patterns and sync primitives
  • → See samber/cc-skills-golang@golang-data-structures skill for slice/map internals, capacity growth, and container/ packages
  • → See samber/cc-skills-golang@golang-error-handling skill for nil error interface trap
  • → See samber/cc-skills-golang@golang-security skill for security-relevant safety issues (memory safety, integer overflow)
  • → See samber/cc-skills-golang@golang-troubleshooting skill for debugging panics and race conditions

Common Mistakes

MistakeFix
------
Bare type assertion v := x.(T)Panics on type mismatch, crashing the program. Use v, ok := x.(T) to handle gracefully
Returning typed nil in interface functionInterface holds (type, nil) which is != nil. Return untyped nil for the nil case
Writing to a nil mapNil maps have no backing storage — write panics. Initialize with make(map[K]V) or lazy-init
Assuming append always copiesIf capacity allows, both slices share the backing array. Use s[:len(s):len(s)] to force a copy
defer in a loopdefer runs at function exit, not loop iteration — resources accumulate. Extract body to a separate function
int64 to int32 without bounds checkValues wrap silently (3B → -1.29B). Check against math.MaxInt32/math.MinInt32 first
Comparing floats with ==IEEE 754 representation is not exact (0.1+0.2 != 0.3). Use math.Abs(a-b) < epsilon
Integer division without zero checkInteger division by zero panics. Guard with if divisor == 0 before dividing
Returning internal slice/map referenceCallers can mutate your struct's internals through the shared backing array. Return a defensive copy
Multiple init() with ordering assumptionsinit() execution order across files is unspecified. → See samber/cc-skills-golang@golang-design-patterns — use explicit constructors
Blocking forever on nil channelNil channels block on both send and receive. Always initialize before use

Cross-References

  • → See samber/cc-skills-golang@golang-continuous-integration skill for automated AI-driven code review in CI using these guidelines

版本历史

共 3 个版本

  • v1.2.1 当前
    2026-05-23 23:12 安全 安全
  • v1.1.2
    2026-05-03 07:01 安全 安全
  • v0.1.0
    2026-03-31 08:25

安全检测

腾讯云安全 (Keen)

安全,无风险
查看报告

腾讯云安全 (Sanbu)

安全,无风险
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