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432 lines
13 KiB
432 lines
13 KiB
/*
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* Minio Cloud Storage, (C) 2016 Minio, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package cmd
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import (
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"encoding/hex"
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"errors"
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"hash/crc32"
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"path"
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"sync"
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"time"
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errors2 "github.com/minio/minio/pkg/errors"
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"github.com/tidwall/gjson"
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)
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// Returns number of errors that occurred the most (incl. nil) and the
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// corresponding error value. NB When there is more than one error value that
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// occurs maximum number of times, the error value returned depends on how
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// golang's map orders keys. This doesn't affect correctness as long as quorum
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// value is greater than or equal to simple majority, since none of the equally
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// maximal values would occur quorum or more number of times.
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func reduceErrs(errs []error, ignoredErrs []error) (maxCount int, maxErr error) {
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errorCounts := make(map[error]int)
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errs = errors2.Causes(errs)
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for _, err := range errs {
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if errors2.IsErrIgnored(err, ignoredErrs...) {
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continue
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}
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errorCounts[err]++
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}
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max := 0
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for err, count := range errorCounts {
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switch {
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case max < count:
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max = count
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maxErr = err
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// Prefer `nil` over other error values with the same
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// number of occurrences.
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case max == count && err == nil:
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maxErr = err
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}
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}
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return max, maxErr
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}
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// reduceQuorumErrs behaves like reduceErrs by only for returning
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// values of maximally occurring errors validated against a generic
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// quorum number that can be read or write quorum depending on usage.
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// Additionally a special error is provided to be returned in case
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// quorum is not satisfied.
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func reduceQuorumErrs(errs []error, ignoredErrs []error, quorum int, quorumErr error) (maxErr error) {
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var maxCount int
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maxCount, maxErr = reduceErrs(errs, ignoredErrs)
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switch {
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case maxErr == nil && maxCount >= quorum:
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// Success in quorum.
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case maxErr != nil && maxCount >= quorum:
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// Errors in quorum.
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maxErr = errors2.Trace(maxErr, errs...)
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default:
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// No quorum satisfied.
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maxErr = errors2.Trace(quorumErr, errs...)
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}
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return
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}
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// reduceReadQuorumErrs behaves like reduceErrs but only for returning
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// values of maximally occurring errors validated against readQuorum.
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func reduceReadQuorumErrs(errs []error, ignoredErrs []error, readQuorum int) (maxErr error) {
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return reduceQuorumErrs(errs, ignoredErrs, readQuorum, errXLReadQuorum)
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}
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// reduceWriteQuorumErrs behaves like reduceErrs but only for returning
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// values of maximally occurring errors validated against writeQuorum.
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func reduceWriteQuorumErrs(errs []error, ignoredErrs []error, writeQuorum int) (maxErr error) {
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return reduceQuorumErrs(errs, ignoredErrs, writeQuorum, errXLWriteQuorum)
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}
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// Similar to 'len(slice)' but returns the actual elements count
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// skipping the unallocated elements.
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func diskCount(disks []StorageAPI) int {
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diskCount := 0
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for _, disk := range disks {
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if disk == nil {
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continue
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}
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diskCount++
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}
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return diskCount
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}
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// hashOrder - hashes input key to return consistent
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// hashed integer slice. Returned integer order is salted
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// with an input key. This results in consistent order.
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// NOTE: collisions are fine, we are not looking for uniqueness
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// in the slices returned.
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func hashOrder(key string, cardinality int) []int {
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if cardinality <= 0 {
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// Returns an empty int slice for cardinality < 0.
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return nil
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}
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nums := make([]int, cardinality)
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keyCrc := crc32.Checksum([]byte(key), crc32.IEEETable)
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start := int(keyCrc % uint32(cardinality))
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for i := 1; i <= cardinality; i++ {
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nums[i-1] = 1 + ((start + i) % cardinality)
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}
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return nums
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}
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func parseXLStat(xlMetaBuf []byte) (si statInfo, e error) {
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// obtain stat info.
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stat := statInfo{}
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// fetching modTime.
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modTime, err := time.Parse(time.RFC3339, gjson.GetBytes(xlMetaBuf, "stat.modTime").String())
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if err != nil {
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return si, err
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}
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stat.ModTime = modTime
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// obtain Stat.Size .
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stat.Size = gjson.GetBytes(xlMetaBuf, "stat.size").Int()
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return stat, nil
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}
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func parseXLVersion(xlMetaBuf []byte) string {
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return gjson.GetBytes(xlMetaBuf, "version").String()
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}
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func parseXLFormat(xlMetaBuf []byte) string {
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return gjson.GetBytes(xlMetaBuf, "format").String()
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}
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func parseXLRelease(xlMetaBuf []byte) string {
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return gjson.GetBytes(xlMetaBuf, "minio.release").String()
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}
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func parseXLErasureInfo(xlMetaBuf []byte) (ErasureInfo, error) {
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erasure := ErasureInfo{}
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erasureResult := gjson.GetBytes(xlMetaBuf, "erasure")
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// parse the xlV1Meta.Erasure.Distribution.
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disResult := erasureResult.Get("distribution").Array()
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distribution := make([]int, len(disResult))
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for i, dis := range disResult {
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distribution[i] = int(dis.Int())
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}
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erasure.Distribution = distribution
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erasure.Algorithm = erasureResult.Get("algorithm").String()
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erasure.DataBlocks = int(erasureResult.Get("data").Int())
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erasure.ParityBlocks = int(erasureResult.Get("parity").Int())
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erasure.BlockSize = erasureResult.Get("blockSize").Int()
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erasure.Index = int(erasureResult.Get("index").Int())
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checkSumsResult := erasureResult.Get("checksum").Array()
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// Parse xlMetaV1.Erasure.Checksum array.
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checkSums := make([]ChecksumInfo, len(checkSumsResult))
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for i, v := range checkSumsResult {
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algorithm := BitrotAlgorithmFromString(v.Get("algorithm").String())
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if !algorithm.Available() {
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return erasure, errors2.Trace(errBitrotHashAlgoInvalid)
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}
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hash, err := hex.DecodeString(v.Get("hash").String())
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if err != nil {
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return erasure, errors2.Trace(err)
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}
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checkSums[i] = ChecksumInfo{Name: v.Get("name").String(), Algorithm: algorithm, Hash: hash}
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}
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erasure.Checksums = checkSums
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return erasure, nil
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}
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func parseXLParts(xlMetaBuf []byte) []objectPartInfo {
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// Parse the XL Parts.
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partsResult := gjson.GetBytes(xlMetaBuf, "parts").Array()
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partInfo := make([]objectPartInfo, len(partsResult))
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for i, p := range partsResult {
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info := objectPartInfo{}
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info.Number = int(p.Get("number").Int())
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info.Name = p.Get("name").String()
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info.ETag = p.Get("etag").String()
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info.Size = p.Get("size").Int()
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partInfo[i] = info
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}
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return partInfo
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}
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func parseXLMetaMap(xlMetaBuf []byte) map[string]string {
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// Get xlMetaV1.Meta map.
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metaMapResult := gjson.GetBytes(xlMetaBuf, "meta").Map()
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metaMap := make(map[string]string)
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for key, valResult := range metaMapResult {
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metaMap[key] = valResult.String()
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}
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return metaMap
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}
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// Constructs XLMetaV1 using `gjson` lib to retrieve each field.
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func xlMetaV1UnmarshalJSON(xlMetaBuf []byte) (xlMeta xlMetaV1, e error) {
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// obtain version.
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xlMeta.Version = parseXLVersion(xlMetaBuf)
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// obtain format.
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xlMeta.Format = parseXLFormat(xlMetaBuf)
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// Parse xlMetaV1.Stat .
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stat, err := parseXLStat(xlMetaBuf)
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if err != nil {
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return xlMeta, err
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}
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xlMeta.Stat = stat
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// parse the xlV1Meta.Erasure fields.
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xlMeta.Erasure, err = parseXLErasureInfo(xlMetaBuf)
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if err != nil {
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return xlMeta, err
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}
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// Parse the XL Parts.
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xlMeta.Parts = parseXLParts(xlMetaBuf)
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// Get the xlMetaV1.Realse field.
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xlMeta.Minio.Release = parseXLRelease(xlMetaBuf)
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// parse xlMetaV1.
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xlMeta.Meta = parseXLMetaMap(xlMetaBuf)
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return xlMeta, nil
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}
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// read xl.json from the given disk, parse and return xlV1MetaV1.Parts.
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func readXLMetaParts(disk StorageAPI, bucket string, object string) ([]objectPartInfo, error) {
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// Reads entire `xl.json`.
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xlMetaBuf, err := disk.ReadAll(bucket, path.Join(object, xlMetaJSONFile))
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if err != nil {
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return nil, errors2.Trace(err)
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}
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// obtain xlMetaV1{}.Partsusing `github.com/tidwall/gjson`.
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xlMetaParts := parseXLParts(xlMetaBuf)
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return xlMetaParts, nil
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}
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// read xl.json from the given disk and parse xlV1Meta.Stat and xlV1Meta.Meta using gjson.
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func readXLMetaStat(disk StorageAPI, bucket string, object string) (si statInfo, mp map[string]string, e error) {
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// Reads entire `xl.json`.
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xlMetaBuf, err := disk.ReadAll(bucket, path.Join(object, xlMetaJSONFile))
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if err != nil {
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return si, nil, errors2.Trace(err)
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}
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// obtain version.
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xlVersion := parseXLVersion(xlMetaBuf)
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// obtain format.
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xlFormat := parseXLFormat(xlMetaBuf)
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// Validate if the xl.json we read is sane, return corrupted format.
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if !isXLMetaFormatValid(xlVersion, xlFormat) {
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// For version mismatchs and unrecognized format, return corrupted format.
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return si, nil, errors2.Trace(errCorruptedFormat)
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}
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// obtain xlMetaV1{}.Meta using `github.com/tidwall/gjson`.
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xlMetaMap := parseXLMetaMap(xlMetaBuf)
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// obtain xlMetaV1{}.Stat using `github.com/tidwall/gjson`.
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xlStat, err := parseXLStat(xlMetaBuf)
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if err != nil {
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return si, nil, errors2.Trace(err)
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}
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// Return structured `xl.json`.
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return xlStat, xlMetaMap, nil
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}
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// readXLMeta reads `xl.json` and returns back XL metadata structure.
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func readXLMeta(disk StorageAPI, bucket string, object string) (xlMeta xlMetaV1, err error) {
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// Reads entire `xl.json`.
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xlMetaBuf, err := disk.ReadAll(bucket, path.Join(object, xlMetaJSONFile))
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if err != nil {
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return xlMetaV1{}, errors2.Trace(err)
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}
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// obtain xlMetaV1{} using `github.com/tidwall/gjson`.
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xlMeta, err = xlMetaV1UnmarshalJSON(xlMetaBuf)
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if err != nil {
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return xlMetaV1{}, errors2.Trace(err)
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}
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// Return structured `xl.json`.
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return xlMeta, nil
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}
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// Reads all `xl.json` metadata as a xlMetaV1 slice.
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// Returns error slice indicating the failed metadata reads.
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func readAllXLMetadata(disks []StorageAPI, bucket, object string) ([]xlMetaV1, []error) {
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errs := make([]error, len(disks))
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metadataArray := make([]xlMetaV1, len(disks))
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var wg = &sync.WaitGroup{}
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// Read `xl.json` parallelly across disks.
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for index, disk := range disks {
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if disk == nil {
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errs[index] = errDiskNotFound
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continue
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}
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wg.Add(1)
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// Read `xl.json` in routine.
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go func(index int, disk StorageAPI) {
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defer wg.Done()
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var err error
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metadataArray[index], err = readXLMeta(disk, bucket, object)
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if err != nil {
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errs[index] = err
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return
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}
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}(index, disk)
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}
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// Wait for all the routines to finish.
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wg.Wait()
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// Return all the metadata.
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return metadataArray, errs
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}
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// Return shuffled partsMetadata depending on distribution.
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func shufflePartsMetadata(partsMetadata []xlMetaV1, distribution []int) (shuffledPartsMetadata []xlMetaV1) {
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if distribution == nil {
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return partsMetadata
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}
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shuffledPartsMetadata = make([]xlMetaV1, len(partsMetadata))
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// Shuffle slice xl metadata for expected distribution.
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for index := range partsMetadata {
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blockIndex := distribution[index]
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shuffledPartsMetadata[blockIndex-1] = partsMetadata[index]
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}
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return shuffledPartsMetadata
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}
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// shuffleDisks - shuffle input disks slice depending on the
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// erasure distribution. Return shuffled slice of disks with
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// their expected distribution.
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func shuffleDisks(disks []StorageAPI, distribution []int) (shuffledDisks []StorageAPI) {
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if distribution == nil {
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return disks
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}
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shuffledDisks = make([]StorageAPI, len(disks))
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// Shuffle disks for expected distribution.
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for index := range disks {
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blockIndex := distribution[index]
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shuffledDisks[blockIndex-1] = disks[index]
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}
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return shuffledDisks
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}
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// unshuffleIndex - performs reverse of the shuffleDisks operations
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// for a single 0-based index.
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func unshuffleIndex(n int, distribution []int) int {
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for i, v := range distribution {
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if v-1 == n {
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return i
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}
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}
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return -1
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}
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// evalDisks - returns a new slice of disks where nil is set if
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// the corresponding error in errs slice is not nil
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func evalDisks(disks []StorageAPI, errs []error) []StorageAPI {
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if len(errs) != len(disks) {
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errorIf(errors.New("unexpected disks/errors slice length"), "unable to evaluate internal disks")
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return nil
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}
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newDisks := make([]StorageAPI, len(disks))
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for index := range errs {
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if errs[index] == nil {
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newDisks[index] = disks[index]
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} else {
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newDisks[index] = nil
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}
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}
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return newDisks
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}
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// Errors specifically generated by calculatePartSizeFromIdx function.
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var (
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errPartSizeZero = errors.New("Part size cannot be zero")
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errPartSizeIndex = errors.New("Part index cannot be smaller than 1")
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)
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// calculatePartSizeFromIdx calculates the part size according to input index.
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// returns error if totalSize is -1, partSize is 0, partIndex is 0.
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func calculatePartSizeFromIdx(totalSize int64, partSize int64, partIndex int) (currPartSize int64, err error) {
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if totalSize < 0 {
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return 0, errors2.Trace(errInvalidArgument)
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}
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if partSize == 0 {
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return 0, errors2.Trace(errPartSizeZero)
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}
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if partIndex < 1 {
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return 0, errors2.Trace(errPartSizeIndex)
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}
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if totalSize > 0 {
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// Compute the total count of parts
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partsCount := totalSize/partSize + 1
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// Return the part's size
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switch {
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case int64(partIndex) < partsCount:
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currPartSize = partSize
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case int64(partIndex) == partsCount:
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// Size of last part
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currPartSize = totalSize % partSize
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default:
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currPartSize = 0
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}
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}
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return currPartSize, nil
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}
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