for n := 1; n <= 1024; n++ {

if n > 16 && testing.Short() {

n += n >> 3

}

for alignP := 0; alignP < 8; alignP++ {

for alignQ := 0; alignQ < 8; alignQ++ {

for alignD := 0; alignD < 8; alignD++ {

p := make([]byte, alignP+n, alignP+n+100)[alignP:]

q := make([]byte, alignQ+n, alignQ+n+100)[alignQ:]

if n&1 != 0 {

p = p[:n]

} else {

q = q[:n]

}

rand.Read(p)

rand.Read(q)

d := make([]byte, alignD+n+100)

rand.Read(d)

want := bytes.Clone(d)

for i := range n {

want[alignD+i] = p[i] ^ q[i]

}

if nn := XORBytes(d[alignD:], p, q); !bytes.Equal(d, want) {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d:\n\tp = %x\n\tq = %x\n\td = %x\n\twant %x\n", n, alignP, alignQ, alignD, p, q, d, want)

} else if nn != n {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %d, want %d", n, alignP, alignQ, alignD, nn, n)

}

p1 := bytes.Clone(p)

if nn := XORBytes(p, p, q); !bytes.Equal(p, want[alignD:alignD+n]) {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d:\n\tp = %x\n\tq = %x\n\td = %x\n\twant %x\n", n, alignP, alignQ, alignD, p, q, d, want)

} else if nn != n {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %d, want %d", n, alignP, alignQ, alignD, nn, n)

}

if nn := XORBytes(q, p1, q); !bytes.Equal(q, want[alignD:alignD+n]) {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d:\n\tp = %x\n\tq = %x\n\td = %x\n\twant %x\n", n, alignP, alignQ, alignD, p, q, d, want)

} else if nn != n {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %d, want %d", n, alignP, alignQ, alignD, nn, n)

}

if nn := XORBytes(p, p, p); !bytes.Equal(p, make([]byte, n)) {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %x, want %x", n, alignP, alignQ, alignD, p, make([]byte, n))

} else if nn != n {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %d, want %d", n, alignP, alignQ, alignD, nn, n)

}

if nn := XORBytes(p1, q, q); !bytes.Equal(p1, make([]byte, n)) {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %x, want %x", n, alignP, alignQ, alignD, p1, make([]byte, n))

} else if nn != n {

t.Errorf("n=%d alignP=%d alignQ=%d alignD=%d: got %d, want %d", n, alignP, alignQ, alignD, nn, n)

}

}

}

}

}

mustPanic(t, "subtle.XORBytes: dst too short", func() {

XORBytes(nil, make([]byte, 1), make([]byte, 1))

})

mustPanic(t, "subtle.XORBytes: dst too short", func() {

XORBytes(make([]byte, 1), make([]byte, 2), make([]byte, 3))

})

mustPanic(t, "subtle.XORBytes: invalid overlap", func() {

x := make([]byte, 3)

XORBytes(x, x[1:], make([]byte, 2))

})

mustPanic(t, "subtle.XORBytes: invalid overlap", func() {

x := make([]byte, 3)

XORBytes(x, make([]byte, 2), x[1:])

})

dst := make([]byte, 1<<15)

data0 := make([]byte, 1<<15)

data1 := make([]byte, 1<<15)

sizes := []int64{1 << 3, 1 << 7, 1 << 11, 1 << 13, 1 << 15}

for _, size := range sizes {

b.Run(fmt.Sprintf("%dBytes", size), func(b *testing.B) {

s0 := data0[:size]

s1 := data1[:size]

b.SetBytes(int64(size))

for i := 0; i < b.N; i++ {

XORBytes(dst, s0, s1)

}

})

}

dst := make([]byte, 8+1<<11)

data0 := make([]byte, 8+1<<11)

data1 := make([]byte, 8+1<<11)

sizes := []int64{1 << 3, 1 << 7, 1 << 11}

for _, size := range sizes {

for offset := int64(0); offset < 8; offset++ {

b.Run(fmt.Sprintf("%dBytes%dOffset", size, offset), func(b *testing.B) {

d := dst[offset : offset+size]

s0 := data0[offset : offset+size]

s1 := data1[offset : offset+size]

b.SetBytes(int64(size))

for i := 0; i < b.N; i++ {

XORBytes(d, s0, s1)

}

})

}

}

t.Helper()

defer func() {

t.Helper()

switch msg := recover().(type) {

case nil:

t.Errorf("expected panic(%q), but did not panic", expected)

case string:

if msg != expected {

t.Errorf("expected panic(%q), but got panic(%q)", expected, msg)

}

default:

t.Errorf("expected panic(%q), but got panic(%T%v)", expected, msg, msg)

}

}()

f()