package cap import ( "fmt" "testing" ) func TestAllMask(t *testing.T) { oldMask := maxValues oldWords := words defer func() { maxValues = oldMask words = oldWords }() maxValues = 35 words = 3 vs := []struct { val Value index uint bit uint32 mask uint32 }{ {val: CHOWN, index: 0, bit: 0x1, mask: ^uint32(0)}, {val: 38, index: 1, bit: (1 << 6), mask: 0x7}, {val: 34, index: 1, bit: (1 << 2), mask: 0x7}, {val: 65, index: 2, bit: (1 << 1), mask: 0}, } for i, v := range vs { index, bit, err := bitOf(Inheritable, v.val) if err != nil { t.Fatalf("[%d] %v(%d) - not bitOf: %v", i, v.val, v.val, err) } else if index != v.index { t.Errorf("[%d] %v(%d) - index: got=%d want=%d", i, v.val, v.val, index, v.index) } if bit != v.bit { t.Errorf("[%d] %v(%d) - bit: got=%b want=%b", i, v.val, v.val, bit, v.bit) } if mask := allMask(index); mask != v.mask { t.Errorf("[%d] %v(%d) - mask: got=%b want=%b", i, v.val, v.val, mask, v.mask) } } } func TestString(t *testing.T) { a := CHOWN if got, want := a.String(), "cap_chown"; got != want { t.Fatalf("pretty basic failure: got=%q, want=%q", got, want) } } func TestText(t *testing.T) { vs := []struct { from, to string err error }{ {"", "", ErrBadText}, {"=", "=", nil}, {"= cap_chown+iep cap_chown-i", "cap_chown=ep", nil}, {"= cap_setfcap,cap_chown+iep cap_chown-i", "cap_setfcap=eip cap_chown+ep", nil}, {"cap_setfcap,cap_chown=iep cap_chown-i", "cap_setfcap=eip cap_chown+ep", nil}, {"=i =p", "=p", nil}, {"all+pie", "=eip", nil}, {"all=p+ie-e", "=ip", nil}, } for i, v := range vs { c, err := FromText(v.from) if err != v.err { t.Errorf("[%d] parsing %q failed: got=%v, want=%v", i, v.from, err, v.err) continue } if err != nil { continue } to := c.String() if to != v.to { t.Errorf("[%d] failed to stringify cap: %q -> got=%q, want=%q", i, v.from, to, v.to) } if d, err := FromText(to); err != nil { t.Errorf("[%d] failed to reparse %q: %v", i, to, err) } else if got := d.String(); got != to { t.Errorf("[%d] failed to stringify %q getting %q", i, to, got) } } } func same(a, b *Set) error { if (a == nil) != (b == nil) { return fmt.Errorf("nil-ness miscompare: %q vs %v", a, b) } if a == nil { return nil } if a.nsRoot != b.nsRoot { return fmt.Errorf("capabilities differ in nsRoot: a=%d b=%d", a.nsRoot, b.nsRoot) } for i, f := range a.flat { g := b.flat[i] for s := Effective; s <= Inheritable; s++ { if got, want := f[s], g[s]; got != want { return fmt.Errorf("capabilities differ: a[%d].flat[%v]=0x%08x b[%d].flat[%v]=0x%08x", i, s, got, i, s, want) } } } return nil } func confirmExpectedExport(t *testing.T, info string, c *Set, size uint) { if ex, err := c.Export(); err != nil { t.Fatalf("[%s] failed to export empty set: %v", info, err) } else if n := 5 + 3*size; uint(len(ex)) != n { t.Fatalf("[%s] wrong length: got=%d [%0x] want=%d", info, len(ex), ex, n) } else if im, err := Import(ex); err != nil { t.Fatalf("[%s] failed to import empty set: %v", info, err) } else if got, want := im.String(), c.String(); got != want { t.Fatalf("[%s] import != export: got=%q want=%q [%02x]", info, got, want, ex) } } func TestImportExport(t *testing.T) { wantQ := "=ep cap_chown-e 63+ip" if q, err := FromText(wantQ); err != nil { t.Fatalf("failed to parse %q: %v", wantQ, err) } else if gotQ := q.String(); gotQ != wantQ { t.Fatalf("static test failed %q -> q -> %q", wantQ, gotQ) } // Sanity check empty import/export. c := NewSet() confirmExpectedExport(t, "empty", c, MinExtFlagSize) // Now keep flipping bits on and off and validate that all // forms of import/export work. for i := uint(0); i < 7000; i += 13 { s := Flag(i % 3) v := Value(i % (maxValues + 3)) c.SetFlag(s, i&17 < 8, v) if ex, err := c.Export(); err != nil { t.Fatalf("[%d] failed to export (%q): %v", i, c, err) } else if im, err := Import(ex); err != nil { t.Fatalf("[%d] failed to import (%q) set: %v", i, c, err) } else if got, want := im.String(), c.String(); got != want { t.Fatalf("[%d] import != export: got=%q want=%q [%02x]", i, got, want, ex) } else if parsed, err := FromText(got); err != nil { t.Fatalf("[%d] failed to parse %q: %v", i, got, err) } else if err := same(c, parsed); err != nil { t.Fatalf("[%d] miscompare (%q vs. %q): %v", i, got, parsed, err) } } oMin := MinExtFlagSize for j := uint(0); j < 5; j++ { t.Logf("exporting with min flag size %d", j) MinExtFlagSize = j c = NewSet() for i := uint(0); i < maxValues; i++ { s := Flag(i % 3) v := Value(i) c.SetFlag(s, true, v) size := 1 + i/8 if size < MinExtFlagSize { size = MinExtFlagSize } confirmExpectedExport(t, fmt.Sprintf("%d added %d %v %v", j, i, s, v), c, size) } } MinExtFlagSize = oMin } func TestIAB(t *testing.T) { vs := []struct { text string bad bool }{ {text: "cup_full", bad: true}, {text: ""}, {text: "!%cap_chown"}, {text: "!cap_chown,^cap_setuid"}, {text: "cap_chown,cap_setuid"}, {text: "^cap_chown,cap_setuid"}, {text: "^cap_chown,!cap_setuid"}, } for i, v := range vs { want := v.text iab, err := IABFromText(want) if err != nil { if v.bad { continue } t.Errorf("[%d] want=%q, got=%q", i, want, iab) continue } if got := iab.String(); got != want { t.Errorf("[%d] got=%q want=%q", i, got, want) } } one, err := GetPID(1) if err != nil { t.Fatalf("failed to get init's capabilities: %v", err) } iab := IABInit() iab.Fill(Amb, one, Permitted) for i := 0; i < words; i++ { if iab.i[i] != iab.a[i] { t.Errorf("[%d] i=0x%08x != a=0x%08x", i, iab.i[i], iab.a[i]) } } one.ClearFlag(Inheritable) iab.Fill(Inh, one, Inheritable) for i := 0; i < words; i++ { if iab.i[i] != iab.a[i] { t.Errorf("[%d] i=0x%08x != a=0x%08x", i, iab.i[i], iab.a[i]) } } for n := uint(0); n < 1000; n += 13 { enabled := ((n % 5) & 2) != 0 vec := Vector(n % 3) c := Value(n % maxValues) if err := iab.SetVector(vec, enabled, c); err != nil { t.Errorf("[%d] failed to set vec=%v enabled=%v %q in %q", n, vec, enabled, c, iab) continue } replay, err := IABFromText(iab.String()) if err != nil { t.Errorf("failed to replay: %v", err) continue } for i := 0; i < words; i++ { if replay.i[i] != iab.i[i] || replay.a[i] != iab.a[i] || replay.nb[i] != iab.nb[i] { t.Errorf("[%d,%d] got=%q want=%q", n, i, replay, iab) } } } } func TestFuncLaunch(t *testing.T) { if _, err := FuncLauncher(func(data interface{}) error { return nil }).Launch(nil); err != nil { t.Fatalf("trivial launcher failed: %v", err) } for i := 0; i < 100; i++ { expect := i & 1 before, err := Prctl(prGetKeepCaps) if err != nil { t.Fatalf("failed to get PR_KEEP_CAPS: %v", err) } if before != expect { t.Fatalf("invalid initial state: got=%d want=%d", before, expect) } if _, err := FuncLauncher(func(data interface{}) error { was, ok := data.(int) if !ok { return fmt.Errorf("data was not an int: %v", data) } if _, err := Prctlw(prSetKeepCaps, uintptr(1-was)); err != nil { return err } if v, err := Prctl(prGetKeepCaps); err != nil { return err } else if v == was { return fmt.Errorf("PR_KEEP_CAPS unchanged: got=%d, want=%v", v, 1-was) } // All good. return nil }).Launch(before); err != nil { t.Fatalf("trivial launcher failed: %v", err) } // Now validate that the main process is still OK. if after, err := Prctl(prGetKeepCaps); err != nil { t.Fatalf("failed to get PR_KEEP_CAPS: %v", err) } else if before != after { t.Fatalf("FuncLauncher leaked privileged state: got=%v want=%v", after, before) } // Now force the other way if _, err := Prctlw(prSetKeepCaps, uintptr(1-expect)); err != nil { t.Fatalf("[%d] attempt to flip PR_KEEP_CAPS failed: %v", i, err) } } } func TestFill(t *testing.T) { c, err := FromText("cap_setfcap=p") if err != nil { t.Fatalf("failed to parse: %v", err) } c.Fill(Effective, Permitted) c.ClearFlag(Permitted) c.Fill(Inheritable, Effective) c.ClearFlag(Effective) if got, want := c.String(), "cap_setfcap=i"; got != want { t.Errorf("Fill failed: got=%q want=%q", got, want) } }