mirror of https://github.com/vacp2p/research.git
182 lines
5.0 KiB
Go
182 lines
5.0 KiB
Go
package main
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import "fmt"
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import "log"
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import "encoding/hex"
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import "crypto/sha256"
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import "github.com/cbergoon/merkletree"
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// Rough API
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// eg swarm feeds, etc - any trusted point
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// getRoot(method, groupID)
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// list or merkle root and payment
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// to untrusted node
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// sync(root, [have], node) payment?
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//verify
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//slash
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//court
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// TODO: There should be a simple way to go from trustedMR and some partial content, and say whether
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// (a) content is in MR with that trusted root (b) say if tree is complete
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// Partial verification - illustration:
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// C->A, C->B. B->h(3), B->h(4). C is trusted root hash that I have.
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// From untrusted peer, I get data 4, h(3) and A, and can thus prove integrity, with partial fetch (4)
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// define how untrusted nodes get in first place
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// TestContent implements the Content interface provided by merkletree,
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// it represents the content stored in the tree.
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// NOTE: x can be a completely encrypted payload
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type TestContent struct {
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x string
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}
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// CalculateHash hashes the value of a TestContent
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func (t TestContent) CalculateHash() ([]byte, error) {
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h := sha256.New()
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if _, err := h.Write([]byte(t.x)); err != nil {
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return nil, err
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}
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return h.Sum(nil), nil
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}
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// Equals tests for equality of two Contents
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func (t TestContent) Equals(other merkletree.Content) (bool, error) {
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return t.x == other.(TestContent).x, nil
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}
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func toHex(merkletree []byte) string {
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return hex.EncodeToString(merkletree)
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}
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func fromHex(merkletree string) []byte {
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res, err := hex.DecodeString(merkletree)
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if err != nil {
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log.Fatal(err)
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}
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return res
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}
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// Get merkle root from trusted location
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// TODO: Implement location/method logic and groupID dispatching, hardcoding for now
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// NOTE: Built up from the following:
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// var list []merkletree.Content
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// list = append(list, TestContent{x: "Hello"})
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// list = append(list, TestContent{x: "Hi"})
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// list = append(list, TestContent{x: "Hey"})
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// list = append(list, TestContent{x: "Hola"})
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//
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// t, err := merkletree.NewTree(list)
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// TODO: see how this can be used: mt.GetMerklePath
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func getTrustedRoot(location string, groupID string) string {
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return "5f30cc80133b9394156e24b233f0c4be32b24e44bb3381f02c7ba52619d0febc"
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}
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// Pull gets difference between what you have and what you know you can have
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// NOTE: This can happen from any untrusted location, as the integritry can be proven
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// TODO: Should return a list of payloads
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// XXX: For now, switch between good and bad case
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func pull(location string, mr string, haves []string) []string {
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var diff []string
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// TODO: There's third case, not bad data but missing data
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// Also deal with multiple items
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if location == "byzantine" {
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diff = append(diff, "xxx")
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} else {
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diff = append(diff, "4")
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}
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return diff
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}
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func main() {
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fmt.Printf("Hello Merkleslash\n")
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var list []merkletree.Content
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list = append(list, TestContent{x: "Hello"})
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list = append(list, TestContent{x: "Hi"})
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list = append(list, TestContent{x: "Hey"})
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// XXX: Let's assume we don't have this part of the tree
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//list = append(list, TestContent{x: "Hola"})
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t, err := merkletree.NewTree(list)
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if err != nil {
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log.Fatal(err)
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}
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mr := t.MerkleRoot()
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mrHex := hex.EncodeToString(mr)
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log.Println("Merkle Root:" , mrHex)
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// mr2, err := hex.DecodeString(mrHex)
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// if err != nil {
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// log.Fatal(err)
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// }
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// log.Println("Merkle Root" , mr2)
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vt, err := t.VerifyTree()
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if err != nil {
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log.Fatal(err)
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}
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log.Println("Verify Tree:", vt)
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vc, err := t.VerifyContent(list[0])
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if err != nil {
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log.Fatal(err)
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}
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log.Println("Verify Content:", vc)
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//log.Println(t)
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// 1. Get trusted root
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newMR := getTrustedRoot("", "")
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log.Println("Trusted root:", newMR)
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// 2. Sync difference
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var emptyList []string
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// NOTE: Byzantine case
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location := "byzantine"
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payloads := pull(location, newMR, emptyList)
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//log.Println("Pulled payloads:", payloads)
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content := TestContent{x: payloads[0]}
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contents := list
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contents = append(contents, content)
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// Build up untrusted tree and compare it with contents
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untrusted := t
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// XXX: is there no way to append to tree?
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err = untrusted.RebuildTreeWith(contents)
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untrustedRoot := hex.EncodeToString(untrusted.MerkleRoot())
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log.Println("Untrusted root [Byzantine case]:", untrustedRoot)
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log.Println("Good data [Good case]?", untrustedRoot == newMR)
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// NOTE: Good case
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// TODO: partial case
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location2 := "good"
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payloads2 := pull(location2, newMR, emptyList)
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//log.Println("Pulled payloads:", payloads)
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content2 := TestContent{x: payloads2[0]}
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contents2 := list
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contents2 = append(contents2, content2)
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// Build up untrusted tree and compare it with contents
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untrusted2 := t
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// XXX: is there no way to append to tree?
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err = untrusted.RebuildTreeWith(contents)
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untrustedRoot2 := hex.EncodeToString(untrusted2.MerkleRoot())
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log.Println("Untrusted root [Good case]:", untrustedRoot2)
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log.Println("Good data [Good case]?", untrustedRoot2 == newMR)
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// Some more cases, let's tease them out
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// 1) No data, only trusted root, good feedback (enhancement: partial list of other childs)
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// 2) Some data
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} |