mirror of
https://github.com/ceph/ceph-csi.git
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47b202554e
This commit adds the Azure SDK for Azure key vault KMS integration to the Ceph CSI driver. Signed-off-by: Praveen M <m.praveen@ibm.com>
187 lines
5.3 KiB
Go
187 lines
5.3 KiB
Go
// Copyright 2013 Google Inc. All rights reserved.
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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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// Package diff implements a linewise diff algorithm.
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package diff
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import (
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"bytes"
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"fmt"
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"strings"
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)
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// Chunk represents a piece of the diff. A chunk will not have both added and
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// deleted lines. Equal lines are always after any added or deleted lines.
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// A Chunk may or may not have any lines in it, especially for the first or last
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// chunk in a computation.
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type Chunk struct {
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Added []string
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Deleted []string
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Equal []string
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}
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func (c *Chunk) empty() bool {
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return len(c.Added) == 0 && len(c.Deleted) == 0 && len(c.Equal) == 0
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}
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// Diff returns a string containing a line-by-line unified diff of the linewise
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// changes required to make A into B. Each line is prefixed with '+', '-', or
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// ' ' to indicate if it should be added, removed, or is correct respectively.
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func Diff(A, B string) string {
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aLines := strings.Split(A, "\n")
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bLines := strings.Split(B, "\n")
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chunks := DiffChunks(aLines, bLines)
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buf := new(bytes.Buffer)
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for _, c := range chunks {
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for _, line := range c.Added {
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fmt.Fprintf(buf, "+%s\n", line)
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}
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for _, line := range c.Deleted {
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fmt.Fprintf(buf, "-%s\n", line)
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}
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for _, line := range c.Equal {
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fmt.Fprintf(buf, " %s\n", line)
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}
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}
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return strings.TrimRight(buf.String(), "\n")
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}
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// DiffChunks uses an O(D(N+M)) shortest-edit-script algorithm
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// to compute the edits required from A to B and returns the
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// edit chunks.
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func DiffChunks(a, b []string) []Chunk {
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// algorithm: http://www.xmailserver.org/diff2.pdf
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// We'll need these quantities a lot.
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alen, blen := len(a), len(b) // M, N
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// At most, it will require len(a) deletions and len(b) additions
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// to transform a into b.
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maxPath := alen + blen // MAX
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if maxPath == 0 {
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// degenerate case: two empty lists are the same
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return nil
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}
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// Store the endpoint of the path for diagonals.
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// We store only the a index, because the b index on any diagonal
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// (which we know during the loop below) is aidx-diag.
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// endpoint[maxPath] represents the 0 diagonal.
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//
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// Stated differently:
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// endpoint[d] contains the aidx of a furthest reaching path in diagonal d
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endpoint := make([]int, 2*maxPath+1) // V
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saved := make([][]int, 0, 8) // Vs
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save := func() {
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dup := make([]int, len(endpoint))
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copy(dup, endpoint)
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saved = append(saved, dup)
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}
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var editDistance int // D
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dLoop:
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for editDistance = 0; editDistance <= maxPath; editDistance++ {
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// The 0 diag(onal) represents equality of a and b. Each diagonal to
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// the left is numbered one lower, to the right is one higher, from
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// -alen to +blen. Negative diagonals favor differences from a,
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// positive diagonals favor differences from b. The edit distance to a
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// diagonal d cannot be shorter than d itself.
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//
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// The iterations of this loop cover either odds or evens, but not both,
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// If odd indices are inputs, even indices are outputs and vice versa.
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for diag := -editDistance; diag <= editDistance; diag += 2 { // k
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var aidx int // x
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switch {
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case diag == -editDistance:
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// This is a new diagonal; copy from previous iter
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aidx = endpoint[maxPath-editDistance+1] + 0
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case diag == editDistance:
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// This is a new diagonal; copy from previous iter
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aidx = endpoint[maxPath+editDistance-1] + 1
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case endpoint[maxPath+diag+1] > endpoint[maxPath+diag-1]:
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// diagonal d+1 was farther along, so use that
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aidx = endpoint[maxPath+diag+1] + 0
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default:
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// diagonal d-1 was farther (or the same), so use that
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aidx = endpoint[maxPath+diag-1] + 1
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}
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// On diagonal d, we can compute bidx from aidx.
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bidx := aidx - diag // y
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// See how far we can go on this diagonal before we find a difference.
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for aidx < alen && bidx < blen && a[aidx] == b[bidx] {
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aidx++
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bidx++
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}
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// Store the end of the current edit chain.
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endpoint[maxPath+diag] = aidx
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// If we've found the end of both inputs, we're done!
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if aidx >= alen && bidx >= blen {
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save() // save the final path
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break dLoop
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}
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}
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save() // save the current path
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}
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if editDistance == 0 {
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return nil
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}
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chunks := make([]Chunk, editDistance+1)
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x, y := alen, blen
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for d := editDistance; d > 0; d-- {
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endpoint := saved[d]
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diag := x - y
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insert := diag == -d || (diag != d && endpoint[maxPath+diag-1] < endpoint[maxPath+diag+1])
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x1 := endpoint[maxPath+diag]
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var x0, xM, kk int
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if insert {
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kk = diag + 1
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x0 = endpoint[maxPath+kk]
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xM = x0
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} else {
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kk = diag - 1
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x0 = endpoint[maxPath+kk]
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xM = x0 + 1
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}
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y0 := x0 - kk
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var c Chunk
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if insert {
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c.Added = b[y0:][:1]
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} else {
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c.Deleted = a[x0:][:1]
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}
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if xM < x1 {
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c.Equal = a[xM:][:x1-xM]
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}
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x, y = x0, y0
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chunks[d] = c
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}
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if x > 0 {
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chunks[0].Equal = a[:x]
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}
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if chunks[0].empty() {
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chunks = chunks[1:]
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}
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if len(chunks) == 0 {
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return nil
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}
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return chunks
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}
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