terraform-provider-gitea/vendor/github.com/zclconf/go-cty/cty/ctystrings/prefix.go
dependabot[bot] 84c9110a24
Bump github.com/hashicorp/terraform-plugin-sdk/v2 from 2.24.1 to 2.26.0
Bumps [github.com/hashicorp/terraform-plugin-sdk/v2](https://github.com/hashicorp/terraform-plugin-sdk) from 2.24.1 to 2.26.0.
- [Release notes](https://github.com/hashicorp/terraform-plugin-sdk/releases)
- [Changelog](https://github.com/hashicorp/terraform-plugin-sdk/blob/main/CHANGELOG.md)
- [Commits](https://github.com/hashicorp/terraform-plugin-sdk/compare/v2.24.1...v2.26.0)

---
updated-dependencies:
- dependency-name: github.com/hashicorp/terraform-plugin-sdk/v2
  dependency-type: direct:production
  update-type: version-update:semver-minor
...

Signed-off-by: dependabot[bot] <support@github.com>
2023-03-20 20:25:53 +00:00

140 lines
5.8 KiB
Go

package ctystrings
import (
"fmt"
"unicode/utf8"
"github.com/apparentlymart/go-textseg/v13/textseg"
"golang.org/x/text/unicode/norm"
)
// SafeKnownPrefix takes a string intended to represent a known prefix of
// another string and modifies it so that it would be safe to use with
// byte-based prefix matching against another NFC-normalized string. It
// also takes into account grapheme cluster boundaries and trims off any
// suffix that could potentially be an incomplete grapheme cluster.
//
// Specifically, SafeKnownPrefix first applies NFC normalization to the prefix
// and then trims off one or more characters from the end of the string which
// could potentially be transformed into a different character if another
// string were appended to it. For example, a trailing latin letter will
// typically be trimmed because appending a combining diacritic mark would
// transform it into a different character.
//
// This transformation is important whenever the remainder of the string is
// arbitrary user input not directly controlled by the application. If an
// application can guarantee that the remainder of the string will not begin
// with combining marks then it is safe to instead just normalize the prefix
// string with [Normalize].
//
// Note that this function only takes into account normalization boundaries
// and does _not_ take into account grapheme cluster boundaries as defined
// by Unicode Standard Annex #29.
func SafeKnownPrefix(prefix string) string {
prefix = Normalize(prefix)
// Our starting approach here is essentially what a streaming parser would
// do when consuming a Unicode string in chunks and needing to determine
// what prefix of the current buffer is safe to process without waiting for
// more information, which is described in TR15 section 13.1
// "Buffering with Unicode Normalization":
// https://unicode.org/reports/tr15/#Buffering_with_Unicode_Normalization
//
// The general idea here is to find the last character in the string that
// could potentially start a sequence of codepoints that would combine
// together, and then truncate the string to exclude that character and
// everything after it.
form := norm.NFC
lastBoundary := form.LastBoundary([]byte(prefix))
if lastBoundary != -1 && lastBoundary != len(prefix) {
prefix = prefix[:lastBoundary]
// If we get here then we've already shortened the prefix and so
// further analysis below is unnecessary because it would be relying
// on an incomplete prefix anyway.
return prefix
}
// Now we'll use the textseg package's grapheme cluster scanner to scan
// as far through the string as we can without the scanner telling us
// that it would need more bytes to decide.
//
// This step is conservative because the grapheme cluster rules are not
// designed with prefix-matching in mind. In the base case we'll just
// always discard the last grapheme cluster, although we do have some
// special cases for trailing codepoints that can't possibly combine with
// subsequent codepoints to form a single grapheme cluster and which seem
// likely to arise often in practical use.
remain := []byte(prefix)
prevBoundary := 0
thisBoundary := 0
for len(remain) > 0 {
advance, _, err := textseg.ScanGraphemeClusters(remain, false)
if err != nil {
// ScanGraphemeClusters should never return an error because
// any sequence of valid UTF-8 encodings is valid input.
panic(fmt.Sprintf("textseg.ScanGraphemeClusters returned error: %s", err))
}
if advance == 0 {
// If we have at least one byte remaining but the scanner cannot
// advance then that means the remainder might be an incomplete
// grapheme cluster and so we need to stop here, discarding the
// rest of the input. However, we do now know that we can safely
// include what we found on the previous iteration of this loop.
prevBoundary = thisBoundary
break
}
prevBoundary = thisBoundary
thisBoundary += advance
remain = remain[advance:]
}
// This is our heuristic for detecting cases where we can be sure that
// the above algorithm was too conservative because the last segment
// we found is definitely not subject to the grapheme cluster "do not split"
// rules.
suspect := prefix[prevBoundary:thisBoundary]
if sequenceMustEndGraphemeCluster(suspect) {
prevBoundary = thisBoundary
}
return prefix[:prevBoundary]
}
// sequenceMustEndGraphemeCluster is a heuristic we use to avoid discarding
// the final grapheme cluster of a prefix in SafeKnownPrefix by recognizing
// that a particular sequence is one known to not be subject to any of
// the UAX29 "do not break" rules.
//
// If this function returns true then it is safe to include the given byte
// sequence at the end of a safe prefix. Otherwise we don't know whether or
// not it is safe.
func sequenceMustEndGraphemeCluster(s string) bool {
// For now we're only considering sequences that represent a single
// codepoint. We'll assume that any sequence of two or more codepoints
// that could be a grapheme cluster might be extendable.
if utf8.RuneCountInString(s) != 1 {
return false
}
r, _ := utf8.DecodeRuneInString(s)
// Our initial ruleset is focused on characters that are commonly used
// as delimiters in text intended for both human and machine use, such
// as JSON documents.
//
// We don't include any letters or digits of any script here intentionally
// because those are the ones most likely to be subject to combining rules
// in either current or future Unicode specifications.
//
// We can safely grow this set over time, but we should be very careful
// about shrinking it because it could cause value refinements to loosen
// and thus cause results that were once known to become unknown.
switch r {
case '-', '_', ':', ';', '/', '\\', ',', '.', '(', ')', '{', '}', '[', ']', '|', '?', '!', '~', ' ', '\t', '@', '#', '$', '%', '^', '&', '*', '+', '"', '\'':
return true
default:
return false
}
}