wg-quicker/vendor/github.com/nbutton23/zxcvbn-go/matching/spatialMatch.go

89 lines
2.4 KiB
Go

package matching
import (
"strings"
"github.com/nbutton23/zxcvbn-go/adjacency"
"github.com/nbutton23/zxcvbn-go/entropy"
"github.com/nbutton23/zxcvbn-go/match"
)
const spatialMatcherName = "SPATIAL"
//FilterSpatialMatcher can be pass to zxcvbn-go.PasswordStrength to skip that matcher
func FilterSpatialMatcher(m match.Matcher) bool {
return m.ID == spatialMatcherName
}
func spatialMatch(password string) (matches []match.Match) {
for _, graph := range adjacencyGraphs {
if graph.Graph != nil {
matches = append(matches, spatialMatchHelper(password, graph)...)
}
}
return matches
}
func spatialMatchHelper(password string, graph adjacency.Graph) (matches []match.Match) {
for i := 0; i < len(password)-1; {
j := i + 1
lastDirection := -99 //an int that it should never be!
turns := 0
shiftedCount := 0
for {
prevChar := password[j-1]
found := false
foundDirection := -1
curDirection := -1
//My graphs seem to be wrong. . . and where the hell is qwerty
adjacents := graph.Graph[string(prevChar)]
//Consider growing pattern by one character if j hasn't gone over the edge
if j < len(password) {
curChar := password[j]
for _, adj := range adjacents {
curDirection++
if strings.Index(adj, string(curChar)) != -1 {
found = true
foundDirection = curDirection
if strings.Index(adj, string(curChar)) == 1 {
//index 1 in the adjacency means the key is shifted, 0 means unshifted: A vs a, % vs 5, etc.
//for example, 'q' is adjacent to the entry '2@'. @ is shifted w/ index 1, 2 is unshifted.
shiftedCount++
}
if lastDirection != foundDirection {
//adding a turn is correct even in the initial case when last_direction is null:
//every spatial pattern starts with a turn.
turns++
lastDirection = foundDirection
}
break
}
}
}
//if the current pattern continued, extend j and try to grow again
if found {
j++
} else {
//otherwise push the pattern discovered so far, if any...
//don't consider length 1 or 2 chains.
if j-i > 2 {
matchSpc := match.Match{Pattern: "spatial", I: i, J: j - 1, Token: password[i:j], DictionaryName: graph.Name}
matchSpc.Entropy = entropy.SpatialEntropy(matchSpc, turns, shiftedCount)
matches = append(matches, matchSpc)
}
//. . . and then start a new search from the rest of the password
i = j
break
}
}
}
return matches
}