// ObjectIDForKey returns the object ID (table or database) for 'key', // or (_, false) if not within the structured key space. func ObjectIDForKey(key roachpb.RKey) (uint32, bool) { if key.Equal(roachpb.RKeyMax) { return 0, false } if encoding.PeekType(key) != encoding.Int { // TODO(marc): this should eventually return SystemDatabaseID. return 0, false } // Consume first encoded int. _, id64, err := encoding.DecodeUvarintAscending(key) return uint32(id64), err == nil }
// validateRangeMetaKey validates that the given key is a valid Range Metadata // key. This checks only the constraints common to forward and backwards scans: // correct prefix and not exceeding KeyMax. func validateRangeMetaKey(key roachpb.RKey) error { // KeyMin is a valid key. if key.Equal(roachpb.RKeyMin) { return nil } // Key must be at least as long as Meta1Prefix. if len(key) < len(Meta1Prefix) { return NewInvalidRangeMetaKeyError("too short", key) } prefix, body := key[:len(Meta1Prefix)], key[len(Meta1Prefix):] if !prefix.Equal(Meta2Prefix) && !prefix.Equal(Meta1Prefix) { return NewInvalidRangeMetaKeyError("not a meta key", key) } if roachpb.RKeyMax.Less(body) { return NewInvalidRangeMetaKeyError("body of meta key range lookup is > KeyMax", key) } return nil }
// MetaScanBounds returns the range [start,end) within which the desired meta // record can be found by means of an engine scan. The given key must be a // valid RangeMetaKey as defined by validateRangeMetaKey. // TODO(tschottdorf): a lot of casting going on inside. func MetaScanBounds(key roachpb.RKey) (roachpb.Key, roachpb.Key, error) { if err := validateRangeMetaKey(key); err != nil { return nil, nil, err } if key.Equal(Meta2KeyMax) { return nil, nil, NewInvalidRangeMetaKeyError("Meta2KeyMax can't be used as the key of scan", key) } if key.Equal(roachpb.RKeyMin) { // Special case KeyMin: find the first entry in meta1. return Meta1Prefix, Meta1Prefix.PrefixEnd(), nil } if key.Equal(Meta1KeyMax) { // Special case Meta1KeyMax: this is the last key in Meta1, we don't want // to start at Next(). return Meta1KeyMax, Meta1Prefix.PrefixEnd(), nil } // Otherwise find the first entry greater than the given key in the same meta prefix. return key.Next().AsRawKey(), key[:len(Meta1Prefix)].PrefixEnd().AsRawKey(), nil }
// MetaReverseScanBounds returns the range [start,end) within which the desired // meta record can be found by means of a reverse engine scan. The given key // must be a valid RangeMetaKey as defined by validateRangeMetaKey. func MetaReverseScanBounds(key roachpb.RKey) (roachpb.Key, roachpb.Key, error) { if err := validateRangeMetaKey(key); err != nil { return nil, nil, err } if key.Equal(roachpb.RKeyMin) || key.Equal(Meta1Prefix) { return nil, nil, NewInvalidRangeMetaKeyError("KeyMin and Meta1Prefix can't be used as the key of reverse scan", key) } if key.Equal(Meta2Prefix) { // Special case Meta2Prefix: this is the first key in Meta2, and the scan // interval covers all of Meta1. return Meta1Prefix, key.Next().AsRawKey(), nil } // Otherwise find the first entry greater than the given key and find the last entry // in the same prefix. For MVCCReverseScan the endKey is exclusive, if we want to find // the range descriptor the given key specified,we need to set the key.Next() as the // MVCCReverseScan`s endKey. For example: // If we have ranges [a,f) and [f,z), then we'll have corresponding meta records // at f and z. If you're looking for the meta record for key f, then you want the // second record (exclusive in MVCCReverseScan), hence key.Next() below. return key[:len(Meta1Prefix)].AsRawKey(), key.Next().AsRawKey(), nil }