220 lines
6.2 KiB
Go
220 lines
6.2 KiB
Go
package dsig
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import (
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"sort"
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"strings"
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"github.com/beevik/etree"
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"github.com/russellhaering/goxmldsig/etreeutils"
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)
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// Canonicalizer is an implementation of a canonicalization algorithm.
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type Canonicalizer interface {
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Canonicalize(el *etree.Element) ([]byte, error)
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Algorithm() AlgorithmID
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}
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type c14N10ExclusiveCanonicalizer struct {
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InclusiveNamespaces map[string]struct{}
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}
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// MakeC14N10ExclusiveCanonicalizerWithPrefixList constructs an exclusive Canonicalizer
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// from a PrefixList in NMTOKENS format (a white space separated list).
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func MakeC14N10ExclusiveCanonicalizerWithPrefixList(prefixList string) Canonicalizer {
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prefixes := strings.Fields(prefixList)
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prefixSet := make(map[string]struct{}, len(prefixes))
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for _, prefix := range prefixes {
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prefixSet[prefix] = struct{}{}
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}
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return &c14N10ExclusiveCanonicalizer{
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InclusiveNamespaces: prefixSet,
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}
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}
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// Canonicalize transforms the input Element into a serialized XML document in canonical form.
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func (c *c14N10ExclusiveCanonicalizer) Canonicalize(el *etree.Element) ([]byte, error) {
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scope := make(map[string]c14nSpace)
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return canonicalSerialize(excCanonicalPrep(el, scope, c.InclusiveNamespaces))
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}
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func (c *c14N10ExclusiveCanonicalizer) Algorithm() AlgorithmID {
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return CanonicalXML10ExclusiveAlgorithmId
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}
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type c14N11Canonicalizer struct{}
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// MakeC14N11Canonicalizer constructs an inclusive canonicalizer.
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func MakeC14N11Canonicalizer() Canonicalizer {
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return &c14N11Canonicalizer{}
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}
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// Canonicalize transforms the input Element into a serialized XML document in canonical form.
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func (c *c14N11Canonicalizer) Canonicalize(el *etree.Element) ([]byte, error) {
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scope := make(map[string]struct{})
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return canonicalSerialize(canonicalPrep(el, scope))
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}
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func (c *c14N11Canonicalizer) Algorithm() AlgorithmID {
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return CanonicalXML11AlgorithmId
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}
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func composeAttr(space, key string) string {
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if space != "" {
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return space + ":" + key
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}
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return key
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}
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type c14nSpace struct {
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a etree.Attr
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used bool
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}
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const nsSpace = "xmlns"
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// excCanonicalPrep accepts an *etree.Element and recursively transforms it into one
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// which is ready for serialization to exclusive canonical form. Specifically this
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// entails:
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//
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// 1. Stripping re-declarations of namespaces
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// 2. Stripping unused namespaces
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// 3. Sorting attributes into canonical order.
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//
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// NOTE(russell_h): Currently this function modifies the passed element.
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func excCanonicalPrep(el *etree.Element, _nsAlreadyDeclared map[string]c14nSpace, inclusiveNamespaces map[string]struct{}) *etree.Element {
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//Copy alreadyDeclared map (only contains namespaces)
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nsAlreadyDeclared := make(map[string]c14nSpace, len(_nsAlreadyDeclared))
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for k := range _nsAlreadyDeclared {
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nsAlreadyDeclared[k] = _nsAlreadyDeclared[k]
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}
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//Track the namespaces used on the current element
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nsUsedHere := make(map[string]struct{})
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//Make sure to track the element namespace for the case:
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//<foo:bar xmlns:foo="..."/>
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if el.Space != "" {
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nsUsedHere[el.Space] = struct{}{}
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}
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toRemove := make([]string, 0, 0)
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for _, a := range el.Attr {
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switch a.Space {
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case nsSpace:
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//For simplicity, remove all xmlns attribues; to be added in one pass
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//later. Otherwise, we need another map/set to track xmlns attributes
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//that we left alone.
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toRemove = append(toRemove, a.Space+":"+a.Key)
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if _, ok := nsAlreadyDeclared[a.Key]; !ok {
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//If we're not tracking ancestor state already for this namespace, add
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//it to the map
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nsAlreadyDeclared[a.Key] = c14nSpace{a: a, used: false}
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}
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// This algorithm accepts a set of namespaces which should be treated
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// in an inclusive fashion. Specifically that means we should keep the
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// declaration of that namespace closest to the root of the tree. We can
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// accomplish that be pretending it was used by this element.
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_, inclusive := inclusiveNamespaces[a.Key]
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if inclusive {
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nsUsedHere[a.Key] = struct{}{}
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}
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default:
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//We only track namespaces, so ignore attributes without one.
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if a.Space != "" {
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nsUsedHere[a.Space] = struct{}{}
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}
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}
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}
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//Remove all attributes so that we can add them with much-simpler logic
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for _, attrK := range toRemove {
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el.RemoveAttr(attrK)
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}
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//For all namespaces used on the current element, declare them if they were
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//not declared (and used) in an ancestor.
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for k := range nsUsedHere {
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spc := nsAlreadyDeclared[k]
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//If previously unused, mark as used
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if !spc.used {
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el.Attr = append(el.Attr, spc.a)
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spc.used = true
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//Assignment here is only to update the pre-existing `used` tracking value
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nsAlreadyDeclared[k] = spc
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}
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}
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//Canonicalize all children, passing down the ancestor tracking map
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for _, child := range el.ChildElements() {
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excCanonicalPrep(child, nsAlreadyDeclared, inclusiveNamespaces)
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}
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//Sort attributes lexicographically
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sort.Sort(etreeutils.SortedAttrs(el.Attr))
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return el.Copy()
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}
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// canonicalPrep accepts an *etree.Element and transforms it into one which is ready
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// for serialization into inclusive canonical form. Specifically this
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// entails:
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//
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// 1. Stripping re-declarations of namespaces
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// 2. Sorting attributes into canonical order
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//
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// Inclusive canonicalization does not strip unused namespaces.
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//
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// TODO(russell_h): This is very similar to excCanonicalPrep - perhaps they should
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// be unified into one parameterized function?
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func canonicalPrep(el *etree.Element, seenSoFar map[string]struct{}) *etree.Element {
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_seenSoFar := make(map[string]struct{})
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for k, v := range seenSoFar {
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_seenSoFar[k] = v
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}
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ne := el.Copy()
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sort.Sort(etreeutils.SortedAttrs(ne.Attr))
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if len(ne.Attr) != 0 {
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for _, attr := range ne.Attr {
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if attr.Space != nsSpace {
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continue
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}
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key := attr.Space + ":" + attr.Key
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if _, seen := _seenSoFar[key]; seen {
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ne.RemoveAttr(attr.Space + ":" + attr.Key)
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} else {
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_seenSoFar[key] = struct{}{}
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}
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}
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}
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for i, token := range ne.Child {
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childElement, ok := token.(*etree.Element)
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if ok {
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ne.Child[i] = canonicalPrep(childElement, _seenSoFar)
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}
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}
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return ne
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}
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func canonicalSerialize(el *etree.Element) ([]byte, error) {
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doc := etree.NewDocument()
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doc.SetRoot(el)
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doc.WriteSettings = etree.WriteSettings{
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CanonicalAttrVal: true,
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CanonicalEndTags: true,
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CanonicalText: true,
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}
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return doc.WriteToBytes()
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}
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