1a29bf0ee2
* dashboard, p2p: visualize peers * dashboard: change scale to green to red
260 lines
7.7 KiB
Go
260 lines
7.7 KiB
Go
package maxminddb
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import (
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"bytes"
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"errors"
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"fmt"
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"net"
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"reflect"
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)
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const (
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// NotFound is returned by LookupOffset when a matched root record offset
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// cannot be found.
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NotFound = ^uintptr(0)
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dataSectionSeparatorSize = 16
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)
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var metadataStartMarker = []byte("\xAB\xCD\xEFMaxMind.com")
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// Reader holds the data corresponding to the MaxMind DB file. Its only public
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// field is Metadata, which contains the metadata from the MaxMind DB file.
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type Reader struct {
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hasMappedFile bool
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buffer []byte
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decoder decoder
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Metadata Metadata
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ipv4Start uint
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}
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// Metadata holds the metadata decoded from the MaxMind DB file. In particular
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// in has the format version, the build time as Unix epoch time, the database
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// type and description, the IP version supported, and a slice of the natural
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// languages included.
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type Metadata struct {
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BinaryFormatMajorVersion uint `maxminddb:"binary_format_major_version"`
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BinaryFormatMinorVersion uint `maxminddb:"binary_format_minor_version"`
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BuildEpoch uint `maxminddb:"build_epoch"`
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DatabaseType string `maxminddb:"database_type"`
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Description map[string]string `maxminddb:"description"`
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IPVersion uint `maxminddb:"ip_version"`
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Languages []string `maxminddb:"languages"`
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NodeCount uint `maxminddb:"node_count"`
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RecordSize uint `maxminddb:"record_size"`
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}
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// FromBytes takes a byte slice corresponding to a MaxMind DB file and returns
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// a Reader structure or an error.
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func FromBytes(buffer []byte) (*Reader, error) {
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metadataStart := bytes.LastIndex(buffer, metadataStartMarker)
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if metadataStart == -1 {
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return nil, newInvalidDatabaseError("error opening database: invalid MaxMind DB file")
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}
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metadataStart += len(metadataStartMarker)
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metadataDecoder := decoder{buffer[metadataStart:]}
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var metadata Metadata
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rvMetdata := reflect.ValueOf(&metadata)
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_, err := metadataDecoder.decode(0, rvMetdata, 0)
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if err != nil {
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return nil, err
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}
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searchTreeSize := metadata.NodeCount * metadata.RecordSize / 4
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dataSectionStart := searchTreeSize + dataSectionSeparatorSize
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dataSectionEnd := uint(metadataStart - len(metadataStartMarker))
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if dataSectionStart > dataSectionEnd {
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return nil, newInvalidDatabaseError("the MaxMind DB contains invalid metadata")
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}
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d := decoder{
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buffer[searchTreeSize+dataSectionSeparatorSize : metadataStart-len(metadataStartMarker)],
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}
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reader := &Reader{
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buffer: buffer,
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decoder: d,
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Metadata: metadata,
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ipv4Start: 0,
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}
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reader.ipv4Start, err = reader.startNode()
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return reader, err
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}
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func (r *Reader) startNode() (uint, error) {
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if r.Metadata.IPVersion != 6 {
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return 0, nil
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}
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nodeCount := r.Metadata.NodeCount
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node := uint(0)
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var err error
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for i := 0; i < 96 && node < nodeCount; i++ {
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node, err = r.readNode(node, 0)
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if err != nil {
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return 0, err
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}
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}
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return node, err
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}
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// Lookup takes an IP address as a net.IP structure and a pointer to the
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// result value to Decode into.
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func (r *Reader) Lookup(ipAddress net.IP, result interface{}) error {
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if r.buffer == nil {
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return errors.New("cannot call Lookup on a closed database")
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}
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pointer, err := r.lookupPointer(ipAddress)
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if pointer == 0 || err != nil {
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return err
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}
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return r.retrieveData(pointer, result)
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}
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// LookupOffset maps an argument net.IP to a corresponding record offset in the
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// database. NotFound is returned if no such record is found, and a record may
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// otherwise be extracted by passing the returned offset to Decode. LookupOffset
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// is an advanced API, which exists to provide clients with a means to cache
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// previously-decoded records.
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func (r *Reader) LookupOffset(ipAddress net.IP) (uintptr, error) {
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if r.buffer == nil {
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return 0, errors.New("cannot call LookupOffset on a closed database")
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}
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pointer, err := r.lookupPointer(ipAddress)
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if pointer == 0 || err != nil {
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return NotFound, err
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}
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return r.resolveDataPointer(pointer)
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}
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// Decode the record at |offset| into |result|. The result value pointed to
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// must be a data value that corresponds to a record in the database. This may
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// include a struct representation of the data, a map capable of holding the
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// data or an empty interface{} value.
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//
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// If result is a pointer to a struct, the struct need not include a field
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// for every value that may be in the database. If a field is not present in
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// the structure, the decoder will not decode that field, reducing the time
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// required to decode the record.
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//
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// As a special case, a struct field of type uintptr will be used to capture
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// the offset of the value. Decode may later be used to extract the stored
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// value from the offset. MaxMind DBs are highly normalized: for example in
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// the City database, all records of the same country will reference a
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// single representative record for that country. This uintptr behavior allows
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// clients to leverage this normalization in their own sub-record caching.
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func (r *Reader) Decode(offset uintptr, result interface{}) error {
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if r.buffer == nil {
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return errors.New("cannot call Decode on a closed database")
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}
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return r.decode(offset, result)
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}
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func (r *Reader) decode(offset uintptr, result interface{}) error {
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rv := reflect.ValueOf(result)
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if rv.Kind() != reflect.Ptr || rv.IsNil() {
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return errors.New("result param must be a pointer")
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}
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_, err := r.decoder.decode(uint(offset), reflect.ValueOf(result), 0)
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return err
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}
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func (r *Reader) lookupPointer(ipAddress net.IP) (uint, error) {
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if ipAddress == nil {
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return 0, errors.New("ipAddress passed to Lookup cannot be nil")
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}
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ipV4Address := ipAddress.To4()
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if ipV4Address != nil {
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ipAddress = ipV4Address
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}
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if len(ipAddress) == 16 && r.Metadata.IPVersion == 4 {
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return 0, fmt.Errorf("error looking up '%s': you attempted to look up an IPv6 address in an IPv4-only database", ipAddress.String())
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}
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return r.findAddressInTree(ipAddress)
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}
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func (r *Reader) findAddressInTree(ipAddress net.IP) (uint, error) {
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bitCount := uint(len(ipAddress) * 8)
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var node uint
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if bitCount == 32 {
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node = r.ipv4Start
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}
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nodeCount := r.Metadata.NodeCount
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for i := uint(0); i < bitCount && node < nodeCount; i++ {
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bit := uint(1) & (uint(ipAddress[i>>3]) >> (7 - (i % 8)))
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var err error
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node, err = r.readNode(node, bit)
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if err != nil {
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return 0, err
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}
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}
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if node == nodeCount {
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// Record is empty
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return 0, nil
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} else if node > nodeCount {
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return node, nil
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}
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return 0, newInvalidDatabaseError("invalid node in search tree")
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}
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func (r *Reader) readNode(nodeNumber uint, index uint) (uint, error) {
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RecordSize := r.Metadata.RecordSize
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baseOffset := nodeNumber * RecordSize / 4
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var nodeBytes []byte
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var prefix uint
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switch RecordSize {
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case 24:
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offset := baseOffset + index*3
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nodeBytes = r.buffer[offset : offset+3]
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case 28:
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prefix = uint(r.buffer[baseOffset+3])
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if index != 0 {
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prefix &= 0x0F
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} else {
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prefix = (0xF0 & prefix) >> 4
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}
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offset := baseOffset + index*4
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nodeBytes = r.buffer[offset : offset+3]
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case 32:
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offset := baseOffset + index*4
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nodeBytes = r.buffer[offset : offset+4]
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default:
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return 0, newInvalidDatabaseError("unknown record size: %d", RecordSize)
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}
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return uintFromBytes(prefix, nodeBytes), nil
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}
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func (r *Reader) retrieveData(pointer uint, result interface{}) error {
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offset, err := r.resolveDataPointer(pointer)
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if err != nil {
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return err
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}
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return r.decode(offset, result)
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}
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func (r *Reader) resolveDataPointer(pointer uint) (uintptr, error) {
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var resolved = uintptr(pointer - r.Metadata.NodeCount - dataSectionSeparatorSize)
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if resolved > uintptr(len(r.buffer)) {
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return 0, newInvalidDatabaseError("the MaxMind DB file's search tree is corrupt")
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}
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return resolved, nil
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}
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