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162 lines
4.1 KiB
162 lines
4.1 KiB
package cap
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import "errors"
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// GetFlag determines if the requested bit is enabled in the Flag
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// vector of the capability Set.
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func (c *Set) GetFlag(vec Flag, val Value) (bool, error) {
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if c == nil || len(c.flat) == 0 {
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// Checked this first, because otherwise we are sure
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// cInit has been called.
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return false, ErrBadSet
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}
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offset, mask, err := bitOf(vec, val)
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if err != nil {
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return false, err
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}
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c.mu.RLock()
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defer c.mu.RUnlock()
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return c.flat[offset][vec]&mask != 0, nil
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}
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// SetFlag sets the requested bits to the indicated enable state. This
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// function does not perform any security checks, so values can be set
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// out-of-order. Only when the Set is used to SetProc() etc., will the
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// bits be checked for validity and permission by the kernel. If the
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// function returns an error, the Set will not be modified.
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func (c *Set) SetFlag(vec Flag, enable bool, val ...Value) error {
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if c == nil || len(c.flat) == 0 {
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// Checked this first, because otherwise we are sure
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// cInit has been called.
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return ErrBadSet
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}
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c.mu.Lock()
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defer c.mu.Unlock()
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// Make a backup.
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replace := make([]uint32, words)
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for i := range replace {
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replace[i] = c.flat[i][vec]
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}
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var err error
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for _, v := range val {
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offset, mask, err2 := bitOf(vec, v)
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if err2 != nil {
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err = err2
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break
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}
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if enable {
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c.flat[offset][vec] |= mask
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} else {
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c.flat[offset][vec] &= ^mask
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}
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}
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if err == nil {
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return nil
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}
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// Clean up.
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for i, bits := range replace {
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c.flat[i][vec] = bits
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}
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return err
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}
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// Clear fully clears a capability set.
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func (c *Set) Clear() error {
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if c == nil || len(c.flat) == 0 {
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return ErrBadSet
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}
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// startUp.Do(cInit) is not called here because c cannot be
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// initialized except via this package and doing that will
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// perform that call at least once (sic).
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c.mu.Lock()
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defer c.mu.Unlock()
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c.flat = make([]data, words)
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c.nsRoot = 0
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return nil
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}
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// ErrBadValue indicates a bad capability value was specified.
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var ErrBadValue = errors.New("bad capability value")
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// bitOf converts from a Value into the offset and mask for a
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// specific Value bit in the compressed (kernel ABI) representation of
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// a capability vector. If the requested bit is unsupported, an error
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// is returned.
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func bitOf(vec Flag, val Value) (uint, uint32, error) {
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if vec > Inheritable || val > Value(words*32) {
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return 0, 0, ErrBadValue
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}
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u := uint(val)
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return u / 32, uint32(1) << (u % 32), nil
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}
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// allMask returns the mask of valid bits in the all mask for index.
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func allMask(index uint) (mask uint32) {
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if maxValues == 0 {
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panic("uninitialized package")
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}
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base := 32 * uint(index)
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if maxValues <= base {
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return
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}
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if maxValues >= 32+base {
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mask = ^mask
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return
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}
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mask = uint32((uint64(1) << (maxValues % 32)) - 1)
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return
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}
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// forceFlag sets 'all' capability values (supported by the kernel) of
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// a flag vector to enable.
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func (c *Set) forceFlag(vec Flag, enable bool) error {
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if c == nil || len(c.flat) == 0 || vec > Inheritable {
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return ErrBadSet
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}
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m := uint32(0)
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if enable {
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m = ^m
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}
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c.mu.Lock()
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defer c.mu.Unlock()
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for i := range c.flat {
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c.flat[i][vec] = m & allMask(uint(i))
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}
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return nil
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}
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// ClearFlag clears a specific vector of Values associated with the
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// specified Flag.
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func (c *Set) ClearFlag(vec Flag) error {
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return c.forceFlag(vec, false)
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}
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// Compare returns 0 if c and d are identical in content. Otherwise,
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// this function returns a non-zero value of 3 independent bits:
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// (differE ? 1:0) | (differP ? 2:0) | (differI ? 4:0). The Differs()
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// function can be used to test for a difference in a specific Flag.
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func (c *Set) Compare(d *Set) (uint, error) {
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if c == nil || len(c.flat) == 0 || d == nil || len(d.flat) == 0 {
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return 0, ErrBadSet
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}
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var cf uint
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for i := 0; i < words; i++ {
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if c.flat[i][Effective]^d.flat[i][Effective] != 0 {
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cf |= (1 << Effective)
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}
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if c.flat[i][Permitted]^d.flat[i][Permitted] != 0 {
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cf |= (1 << Permitted)
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}
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if c.flat[i][Inheritable]^d.flat[i][Inheritable] != 0 {
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cf |= (1 << Inheritable)
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}
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}
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return cf, nil
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}
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// Differs processes the result of Compare and determines if the
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// Flag's components were different.
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func Differs(cf uint, vec Flag) bool {
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return cf&(1<<vec) != 0
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}
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