package client
/*
#cgo CFLAGS: -O2
#cgo LDFLAGS: -lcrypto -lm
#include "../c/dpf.h"
#include "../c/okvClient.h"
#include "../c/dpf.c"
#include "../c/okvClient.c"
*/
import "C"
import (
"2PPS/lib"
"bufio"
"bytes"
"crypto/rand"
"crypto/sha256"
"crypto/tls"
"encoding/json"
"fmt"
"log"
"math/big"
mr "math/rand"
"net"
"os"
"sort"
"strconv"
"strings"
"sync"
"time"
"unsafe"
"golang.org/x/crypto/nacl/box"
)
type tweet struct {
Topics []string
Text string
}
const leader string = "127.0.0.1:4441"
//needs to be changed at leader/client at the same time
const numClients = 1000
//mylimit=8000
//sudo prlimit --nofile=$mylimit --pid $$; ulimit -n $mylimit
//for every terminal
const dataLength int = 256
//Maximum Transport Unit
const mtu int = 1100
var dbWriteSize int
var round int
var topicList []string
var archiveTopicList []string
var neededSubscriptions int
var publisherAmount int
var goodPadding int
var blocksReceived int
var timeBounds []float64
//gui variables
var guiTweet string
var mainTweets string
var archiveTweets string
var mainInterestsString []string
var archiveInterestsString []string
//this translates to a simulated round length of ~2h
var speedUp float64 = 7200 / ((maxTimePerRound.Seconds()) * 3)
var maxTimePerRound time.Duration = 2 * time.Second
var startTime int
var archiveInterests = make([]int, 1)
var sharedSecret [numClients][2][32]byte = createSharedSecret()
var wantsArchive = make([]byte, 1)
var leaderPublicKey *[32]byte
var followerPublicKey *[32]byte
var clientPrivateKey [numClients]*[32]byte
var clientPublicKey [numClients]*[32]byte
func main() {
f, err := os.OpenFile("evalDataClient", os.O_RDWR|os.O_CREATE|os.O_APPEND, 0666)
if err != nil {
log.Fatalf("error opening file: %v", err)
}
defer f.Close()
log.SetOutput(f)
log.Println("simulated Duration", speedUp)
wg := &sync.WaitGroup{}
for i := 0; i < numClients; i++ {
wg.Add(1)
go Client(i, f)
time.Sleep(1 * time.Millisecond)
}
wg.Wait()
}
func Client(clientNumber int, f *os.File) {
if clientNumber == 0 {
getTimeBounds()
}
generatedPublicKey, generatedPrivateKey, err := box.GenerateKey(rand.Reader)
if err != nil {
panic(err)
}
clientPrivateKey[clientNumber] = generatedPrivateKey
clientPublicKey[clientNumber] = generatedPublicKey
C.initializeCipher()
//initializes the connection to the leader
conf := &tls.Config{
InsecureSkipVerify: true,
}
leaderConn, err := tls.Dial("tcp", leader, conf)
if err != nil {
panic(err)
}
leaderConn.SetDeadline(time.Time{})
//receives topics first so client can participate asap
receiveTopicLists(leaderConn)
//gets the public keys of both servers
var tmpLeaderPubKey [32]byte
_, err = leaderConn.Read(tmpLeaderPubKey[:])
if err != nil {
panic(err)
}
leaderPublicKey = &tmpLeaderPubKey
var tmpFollowerPubKey [32]byte
_, err = leaderConn.Read(tmpFollowerPubKey[:])
if err != nil {
panic(err)
}
followerPublicKey = &tmpFollowerPubKey
//sends own public key
writeTo(leaderConn, clientPublicKey[clientNumber][:])
neededSubscriptionsBytes := readFrom(leaderConn, 4)
neededSubscriptions = byteToInt(neededSubscriptionsBytes)
startTimeBytes := readFrom(leaderConn, 4)
startTime = byteToInt(startTimeBytes)
//setup ends above
//while client is active he is always connected and has to participate
for {
//gets current phase
phase := readFrom(leaderConn, 1)
if phase[0] == 1 {
//gets current dbWriteSize from leader
dbWriteSizeBytes := readFrom(leaderConn, 4)
dbWriteSize = byteToInt(dbWriteSizeBytes)
//roundAsBytes := readFrom(leaderConn, 4)
roundAsBytes := make([]byte, 4)
_, err = leaderConn.Read(roundAsBytes)
if err != nil {
panic(err)
}
round = byteToInt(roundAsBytes)
if clientNumber == 0 {
fmt.Println("Round ", round)
}
//request virtualAddress from leader via pirQuery
encryptedQueryLeader, encryptedQueryFollower := createAuditPIRQuery(clientNumber)
sendQuerys(encryptedQueryLeader, encryptedQueryFollower, leaderConn, false)
pos := receiveVirtualAddress(sharedSecret[clientNumber], leaderConn)
tweet := getGuiTweet()
//tweet := getRealTweet(clientNumber)
if clientNumber == numClients-1 {
log.Println("Round", round)
log.Println("publisherAmount", publisherAmount)
log.Println("goodPadding", goodPadding)
log.Println("blocksReceived", blocksReceived)
log.Println("goodPadding Percentage", float64(goodPadding)/float64(blocksReceived))
publisherAmount = 0
}
//prep the query
dataSize := len(tweet)
querySize := make([]byte, 4)
cQuerySize := C.int(byteToInt(querySize))
var dpfQueryA *C.uchar
var dpfQueryB *C.uchar
C.prepQuery(C.int(pos), C.int(dbWriteSize), (*C.uchar)(&tweet[0]), C.int(dataSize), &cQuerySize, &dpfQueryA, &dpfQueryB)
intQuerySize := int(cQuerySize) //byteToInt(querySize)
//write the query
queryAPlaintext := C.GoBytes(unsafe.Pointer(dpfQueryA), C.int(intQuerySize))
//encrypts queryA and appends it to message
var nonce [24]byte
//fill nonce with randomness
_, err = rand.Read(nonce[:])
if err != nil {
panic("couldn't get randomness for nonce!")
}
dpfQueryAEncrypted := box.Seal(nonce[:], queryAPlaintext, &nonce, leaderPublicKey, clientPrivateKey[clientNumber])
//encrypts queryB and appends it to message
queryBPlaintext := C.GoBytes(unsafe.Pointer(dpfQueryB), C.int(intQuerySize))
//fill nonce with randomness
_, err = rand.Read(nonce[:])
if err != nil {
panic("couldn't get randomness for nonce!")
}
dpfQueryBEncrypted := box.Seal(nonce[:], queryBPlaintext, &nonce, followerPublicKey, clientPrivateKey[clientNumber])
//writes the dpfQuery to the leader
dpfLengthBytes := intToByte(len(dpfQueryAEncrypted))
writeTo(leaderConn, dpfLengthBytes)
writeTo(leaderConn, dpfQueryAEncrypted)
writeTo(leaderConn, dpfQueryBEncrypted)
C.free(unsafe.Pointer(dpfQueryA))
C.free(unsafe.Pointer(dpfQueryB))
} else if phase[0] == 3 {
/*
possible Values
0 : new client
leader expects sharedSecrets, expects pirQuery
1 : update needed
leader sends topicList, performs local update of sharedSecret, expects pirQuery
2 : no update needed
nothing
*/
subPhase := readFrom(leaderConn, 1)
var encryptedQueryLeader, encryptedQueryFollower []byte
//first time participating
if subPhase[0] == 0 {
receiveTopicLists(leaderConn)
encryptedQueryLeader, encryptedQueryFollower = createPIRQuery(int(subPhase[0]), clientNumber)
sendQuerys(encryptedQueryLeader, encryptedQueryFollower, leaderConn, false)
}
//updates the topic list and what client is interested in
if subPhase[0] == 1 {
receiveTopicLists(leaderConn)
//updates local secret
for index := 0; index < 2; index++ {
sharedSecret[clientNumber][index] = sha256.Sum256(sharedSecret[clientNumber][index][:])
}
encryptedQueryLeader, encryptedQueryFollower = createPIRQuery(int(subPhase[0]), clientNumber)
sendQuerys(encryptedQueryLeader, encryptedQueryFollower, leaderConn, false)
}
receiveTweets(sharedSecret[clientNumber], leaderConn, false, clientNumber)
if len(archiveTopicList) > 0 {
wantsArchive[0] = 1
} else {
wantsArchive[0] = 0
}
writeTo(leaderConn, wantsArchive)
if wantsArchive[0] == 1 && len(archiveTopicList) > 0 {
encryptedQueryLeader, encryptedQueryFollower = createPIRQuery(-1, clientNumber)
sendQuerys(encryptedQueryLeader, encryptedQueryFollower, leaderConn, true)
receiveTweets(sharedSecret[clientNumber], leaderConn, true, clientNumber)
}
} else {
fmt.Println("Phase", phase)
panic("somethin went wrong")
}
}
}
//creates and sends the pirQuerys for each server
func createPIRQuery(subPhase int, clientNumber int) ([]byte, []byte) {
topicsOfInterest := interestsToInt(mainInterestsString, 0)
//topicsOfInterest := make([]int, neededSubscriptions)
if len(topicsOfInterest) == 0 {
topicsOfInterest = make([]int, neededSubscriptions)
topicsOfInterest[0] = 0
}
fmt.Println("tpcofinterest", topicsOfInterest)
tmpNeededSubscriptions := neededSubscriptions
if tmpNeededSubscriptions > len(topicList) {
tmpNeededSubscriptions = len(topicList)
}
tmptopicsOfInterest := make([]int, len(topicsOfInterest))
copy(tmptopicsOfInterest, topicsOfInterest)
tmpTopicList := make([]string, len(topicList))
copy(tmpTopicList, topicList)
if wantsArchive[0] == 1 && subPhase == -1 {
tmpNeededSubscriptions = len(archiveInterests)
if tmpNeededSubscriptions > len(archiveTopicList) {
tmpNeededSubscriptions = len(archiveTopicList)
}
tmptopicsOfInterest = interestsToInt(archiveInterestsString, 1)
if len(tmptopicsOfInterest) == 0 {
tmptopicsOfInterest = make([]int, neededSubscriptions)
tmptopicsOfInterest[0] = 0
}
tmpTopicList = archiveTopicList
}
//creates fake topicsOfInterest if client is boooring
if len(tmptopicsOfInterest) < tmpNeededSubscriptions && subPhase != -1 {
tmptopicsOfInterest = addFakeInterests(len(tmpTopicList), tmptopicsOfInterest, false)
}
//pirQuery [topicsOfInterest][serverAmount][topicAmount]byte
pirQuerys := make([][][]byte, len(tmptopicsOfInterest))
for i := range pirQuerys {
pirQuerys[i] = make([][]byte, 2)
for j := range pirQuerys[i] {
pirQuerys[i][j] = make([]byte, len(tmpTopicList))
}
}
//for leader
//pirQuery will be filled with random bits
for topic := range tmptopicsOfInterest {
for index := range tmpTopicList {
bit, err := rand.Int(rand.Reader, big.NewInt(2))
if err != nil {
panic(err)
}
pirQuerys[topic][0][index] = byte(bit.Int64())
}
}
tmptopicsOfInterestBytes := make([]byte, len(tmpTopicList))
for index := range tmptopicsOfInterest {
if tmptopicsOfInterest[index] == 1 {
tmptopicsOfInterestBytes[index] = 1
}
}
for topicIndex, topic := range tmptopicsOfInterest {
for index := range tmpTopicList {
if topic == index {
if pirQuerys[topicIndex][0][index] == 1 {
pirQuerys[topicIndex][1][index] = 0
} else {
pirQuerys[topicIndex][1][index] = 1
}
} else {
if pirQuerys[topicIndex][0][index] == 0 {
pirQuerys[topicIndex][1][index] = 0
} else {
pirQuerys[topicIndex][1][index] = 1
}
}
}
}
//flattens the querys to be able to send them more efficently
messagesFlattened := make([][]byte, 2)
//adds the sharedSecret to the first pirQuery when first time participating
if subPhase == 0 {
for server := 0; server < 2; server++ {
messagesFlattened[server] = append(messagesFlattened[server], sharedSecret[clientNumber][server][:]...)
}
}
for server := range messagesFlattened {
for topic := range pirQuerys {
messagesFlattened[server] = append(messagesFlattened[server], pirQuerys[topic][server]...)
}
}
var nonce [24]byte
_, err := rand.Read(nonce[:])
if err != nil {
panic("couldn't get randomness for nonce!")
}
encryptedQueryLeader := box.Seal(nonce[:], messagesFlattened[0], &nonce, leaderPublicKey, clientPrivateKey[clientNumber])
_, err = rand.Read(nonce[:])
if err != nil {
panic("couldn't get randomness for nonce!")
}
encryptedQueryFollower := box.Seal(nonce[:], messagesFlattened[1], &nonce, followerPublicKey, clientPrivateKey[clientNumber])
return encryptedQueryLeader, encryptedQueryFollower
}
func sendQuerys(encryptedQueryLeader, encryptedQueryFollower []byte, leaderConn net.Conn, getArchive bool) {
encryptedLength := len(encryptedQueryLeader)
//sends the pirQuerysLength to the leader
writeTo(leaderConn, intToByte(encryptedLength))
//sends the pirQuerys to the leader
writeTo(leaderConn, encryptedQueryLeader)
writeTo(leaderConn, encryptedQueryFollower)
if getArchive {
writeTo(leaderConn, intToByte(len(archiveInterests)))
}
}
func receiveVirtualAddress(sharedSecret [2][32]byte, leaderConn net.Conn) int {
virtualAddressByte := readFrom(leaderConn, 4)
//xores the sharedSecret
for h := 0; h < 2; h++ {
for i := 0; i < 4; i++ {
virtualAddressByte[i] = virtualAddressByte[i] ^ sharedSecret[h][i]
}
}
return byteToInt(virtualAddressByte)
}
func receiveTweets(sharedSecret [2][32]byte, leaderConn net.Conn, getArchive bool, clientNumber int) {
tmpNeededSubscriptions := neededSubscriptions
if tmpNeededSubscriptions > len(topicList) {
tmpNeededSubscriptions = len(topicList)
}
if getArchive {
tmpNeededSubscriptions = len(archiveInterests)
if tmpNeededSubscriptions > len(archiveTopicList) {
tmpNeededSubscriptions = len(archiveTopicList)
}
}
for i := 0; i < tmpNeededSubscriptions; i++ {
if !getArchive {
blocksReceived++
}
//client receives tweets
tweetsLengthBytes := readFrom(leaderConn, 4)
tweetsLength := byteToInt(tweetsLengthBytes)
tweets := readFrom(leaderConn, tweetsLength)
//expand sharedSecret so it is of right length
expandBy := len(tweets) / 32
expandedSharedSecrets := make([][]byte, 2)
for i := 0; i < 2; i++ {
for j := 0; j < expandBy; j++ {
expandedSharedSecrets[i] = append(expandedSharedSecrets[i], sharedSecret[i][:]...)
}
}
//xors the received messge into the message to display
for i := 0; i < 2; i++ {
lib.Xor(expandedSharedSecrets[i][:], tweets)
}
index := strings.Index(string(tweets), ";;")
if index != -1 {
textArr := strings.Split(string(tweets), ";;;")
text := textArr[:len(textArr)-1]
if text[1] != "" {
text[1] = text[1][1:]
}
ok := strings.Contains(text[0], text[1])
if !ok {
goodPadding++
}
fmt.Println("received", text[0])
if getArchive {
if !strings.Contains(archiveTweets, text[0]) {
archiveTweets += text[0] + ";"
}
} else {
if !strings.Contains(mainTweets, text[0]) {
mainTweets += text[0] + ";"
}
}
} else if index == -1 && tweets[0] != 0 {
fmt.Println("error")
fmt.Println("round", round, string(tweets), "length", len(tweets))
return
}
}
}
func GetTweets(whereFrom int) string {
var tweets string
var recTweets string
if whereFrom == 0 {
recTweets = mainTweets
mainTweets = ""
} else {
recTweets = archiveTweets
archiveTweets = ""
fmt.Println("archive", recTweets)
}
tweetArr := strings.Split(recTweets, ";;")
for _, str := range tweetArr {
strArr := strings.Split(str, ";")
tweets += "# " + strArr[0] + "
" + strArr[1] + ""
}
return tweets
}
func GetTopicList(whereFrom int) string {
var tmpTopicList []string
var list string
label1 := ``
var box1 string
box2 := `" value="`
box3 := `" type="checkbox"/>`
if whereFrom == 0 {
tmpTopicList = topicList
box1 = `"
}
return list
}
func interestsToInt(interests []string, whereFrom int) []int {
var interestsInt []int
var tmpTopicList []string
if whereFrom == 0 {
tmpTopicList = topicList
} else {
tmpTopicList = archiveTopicList
}
for _, topic := range interests {
for index, str := range tmpTopicList {
if topic == str {
interestsInt = append(interestsInt, index)
}
}
}
return interestsInt
}
func UpdateInterests(interests []string, whereTo int) {
if whereTo == 0 {
mainInterestsString = interests
} else {
archiveInterestsString = interests
}
}
//creates a shared secret for each server
func createSharedSecret() [numClients][2][32]byte {
var tmpSharedSecret [numClients][2][32]byte
for i := 0; i < numClients; i++ {
for j := 0; j < 2; j++ {
_, err := rand.Read(tmpSharedSecret[i][j][:])
if err != nil {
panic("couldn't get randomness for sharedSecret!")
}
}
}
return tmpSharedSecret
}
func createAuditPIRQuery(clientNumber int) ([]byte, []byte) {
//pirQuery [serverAmount][dbWriteSize]byte
pirQuerys := make([][]byte, 2)
for i := range pirQuerys {
pirQuerys[i] = make([]byte, dbWriteSize)
}
//for leader
//pirQuery will be filled with random bits
for index := range pirQuerys[0] {
bit := mr.Intn(2)
pirQuerys[0][index] = byte(bit)
}
copy(pirQuerys[1], pirQuerys[0])
//the positon the virtual address will be taken from
pos := mr.Intn(dbWriteSize)
pirQuerys[0][pos] = 1
pirQuerys[1][pos] = 0
//flattens the querys to be able to send them more efficently
messagesFlattened := make([][]byte, 2)
//adds the sharedSecret to the pirQuery
for server := 0; server < 2; server++ {
messagesFlattened[server] = append(messagesFlattened[server], sharedSecret[clientNumber][server][:]...)
}
for server := 0; server < 2; server++ {
messagesFlattened[server] = append(messagesFlattened[server], pirQuerys[server][:]...)
}
var nonce [24]byte
_, err := rand.Read(nonce[:])
if err != nil {
panic("couldn't get randomness for nonce!")
}
encryptedQueryLeader := box.Seal(nonce[:], messagesFlattened[0], &nonce, leaderPublicKey, clientPrivateKey[clientNumber])
_, err = rand.Read(nonce[:])
if err != nil {
panic("couldn't get randomness for nonce!")
}
encryptedQueryFollower := box.Seal(nonce[:], messagesFlattened[1], &nonce, followerPublicKey, clientPrivateKey[clientNumber])
return encryptedQueryLeader, encryptedQueryFollower
}
//generates a topicOfInterest array with random values
func addFakeInterests(max int, topicsOfInterest []int, doAuditing bool) []int {
tmpNeededSubscriptions := neededSubscriptions
if tmpNeededSubscriptions > len(topicList) {
tmpNeededSubscriptions = len(topicList)
}
faketopicsOfInterest := make([]int, tmpNeededSubscriptions)
maxInt := max
//fills the array with unique random ascending values ranging from 0 to max
for i := 0; i < tmpNeededSubscriptions; i++ {
faketopicsOfInterest[i] = mr.Intn(maxInt)
for j := 0; j < i; j++ {
if faketopicsOfInterest[i] == faketopicsOfInterest[j] {
i--
break
}
}
}
if doAuditing {
sort.Ints(faketopicsOfInterest)
return faketopicsOfInterest
}
//adds unique and new random numbers to topicOfInterests until length is satisfied
for _, number := range faketopicsOfInterest {
if !inList(number, topicsOfInterest) {
topicsOfInterest = append(topicsOfInterest, number)
}
if len(topicsOfInterest) == tmpNeededSubscriptions {
break
}
}
sort.Ints(topicsOfInterest)
return topicsOfInterest
}
func inList(number int, list []int) bool {
for _, element := range list {
if element == number {
return true
}
}
return false
}
func receiveTopicLists(leaderConn net.Conn) {
for i := 0; i < 2; i++ {
topicListLength := readFrom(leaderConn, 4)
recTopicList := readFrom(leaderConn, byteToInt(topicListLength))
var tmpTopicList []string
arrayReader := bytes.NewReader(recTopicList[:])
json.NewDecoder(arrayReader).Decode(&tmpTopicList)
if i == 0 {
topicList = tmpTopicList
} else {
archiveTopicList = tmpTopicList
}
}
}
func SetGuiTweet(tweet string) {
guiTweet = tweet
}
func getGuiTweet() []byte {
if guiTweet == "" {
tweet := make([]byte, dataLength)
return tweet
}
var tweet []byte
var topics []byte
var text []byte
tweetArray := strings.Split(guiTweet, "#")
text = []byte(tweetArray[0])
tweetArray = tweetArray[1:]
for _, elem := range tweetArray {
topics = append(topics, []byte(elem)[:]...)
topics = append(topics, []byte(",")[0])
}
topics = topics[:len(topics)-1]
tweet = append(tweet, topics...)
tweet = append(tweet, []byte(";")[0])
tweet = append(tweet, text...)
tweet = append(tweet, []byte(";;")[:]...)
//adds padding
length := dataLength - len(tweet)
padding := make([]byte, length)
rand.Read(padding)
tweet = append(tweet, padding...)
publisherAmount++
guiTweet = ""
return tweet
}
func getRealTweet(clientNumber int) []byte {
fUserList, err := os.Open("/home/simon/goCode/tweets/userList")
if err != nil {
panic(err)
}
defer fUserList.Close()
currentLine := 0
scanner := bufio.NewScanner(fUserList)
userID := ""
for scanner.Scan() {
if currentLine == clientNumber {
userID = scanner.Text()
break
}
currentLine++
}
if userID == "" {
panic("no userID picked")
}
fTweets, err := os.Open("/home/simon/goCode/tweets/userTweets/" + userID)
if err != nil {
panic(err)
}
defer fTweets.Close()
scanner = bufio.NewScanner(fTweets)
lowerBound := timeBounds[round-1]
upperBound := timeBounds[round]
var tweet []byte
for scanner.Scan() {
//skips round 1, cause of 90% publisher rate
if round == 1 {
break
}
lineArr := strings.Split(scanner.Text(), ", \"hashtags\"")
lineArr = strings.Split(lineArr[0], ": ")
lineArr = strings.Split(lineArr[1], " \"")
timestamp, _ := strconv.Atoi(lineArr[0])
//transforms timestamp to current time
timestamp -= 1351742400
timestamp += startTime
if float64(timestamp) > lowerBound && float64(timestamp) < upperBound {
lineArr = strings.Split(scanner.Text(), "[\"")
line := lineArr[1]
lineArr = strings.Split(line, "\"]")
line = lineArr[0]
lineArr = strings.Split(line, ",")
line = strings.Join(lineArr, "")
topicLine := strings.Split(line, "\"")
var topics []byte
for index, topic := range topicLine {
if index%2 == 1 {
continue
}
if len(topics)+len(topic) > dataLength-10 {
break
}
topics = append(topics, []byte(topic)[:]...)
topics = append(topics, []byte(",")[0])
}
if len(topics) == 0 {
break
}
topics = topics[:len(topics)-1]
tweet = append(tweet, topics...)
tweet = append(tweet, []byte(";")[0])
r := mr.New(mr.NewSource(time.Now().UnixNano()))
num := r.Intn(10000)
if num == 0 {
num = 1
}
tweet = append(tweet, []byte(strconv.Itoa(num) + ";;")[:]...)
//adds padding
length := dataLength - len(tweet)
padding := make([]byte, length)
rand.Read(padding)
tweet = append(tweet, padding...)
publisherAmount++
return tweet
}
}
tweet = make([]byte, dataLength)
return tweet
}
func getTimeBounds() {
timeBounds = make([]float64, 10000)
timeBounds[0] = float64(time.Now().Unix())
for index := range timeBounds {
if index == 0 {
continue
}
timeBounds[index] = timeBounds[index-1] + speedUp*(3*maxTimePerRound.Seconds()+2)
}
}
func getRandomTweet(clientNumber int) []byte {
var tweet []byte
r := mr.New(mr.NewSource(time.Now().UnixNano()))
maxTopics := r.Intn(6)
if maxTopics == 0 {
maxTopics = 1
}
maxInt := 100
topicNumbers := make([]int, maxTopics)
//fills the array with unique random ascending values ranging from 0 to maxInt
for i := 0; i < maxTopics; i++ {
topicNumbers[i] = mr.Intn(maxInt)
for j := 0; j < i; j++ {
if topicNumbers[i] == topicNumbers[j] {
i--
break
}
}
}
sort.Ints(topicNumbers)
var topics []byte
topicIndex := 0
for i := 0; i < len(topicNumbers)*2; i++ {
if i%2 == 0 {
topics = append(topics, byte(topicNumbers[topicIndex]))
topicIndex++
} else if i != (len(topicNumbers)*2)-1 {
topics = append(topics, []byte(",")[0])
}
}
topics = append(topics, []byte(";")[0])
num := r.Intn(100)
if num == 0 {
num = 1
}
text := []byte(strconv.Itoa(num) + ";")
tweet = append(tweet, topics...)
tweet = append(tweet, text...)
tweet = append(tweet, []byte(";")[0])
//adds padding
length := dataLength - len(tweet)
padding := make([]byte, length)
rand.Read(padding)
tweet = append(tweet, padding...)
return tweet
}
//sends the array to the connection
func writeTo(connection net.Conn, array []byte) {
remainingLength := len(array)
for remainingLength > 0 {
if remainingLength >= mtu {
_, err := connection.Write(array[:mtu])
if err != nil {
panic(err)
}
array = array[mtu:]
remainingLength -= mtu
} else {
_, err := connection.Write(array)
if err != nil {
panic(err)
}
remainingLength = 0
}
}
}
//reads an array which is returned and of size "size" from the connection
func readFrom(connection net.Conn, size int) []byte {
var array []byte
remainingSize := size
for remainingSize > 0 {
var err error
toAppend := make([]byte, mtu)
if remainingSize > mtu {
_, err = connection.Read(toAppend)
array = append(array, toAppend...)
remainingSize -= mtu
} else {
_, err = connection.Read(toAppend[:remainingSize])
array = append(array, toAppend[:remainingSize]...)
remainingSize = 0
}
if err != nil {
panic(err)
}
}
return array
}
func intToByte(myInt int) (retBytes []byte) {
retBytes = make([]byte, 4)
retBytes[3] = byte((myInt >> 24) & 0xff)
retBytes[2] = byte((myInt >> 16) & 0xff)
retBytes[1] = byte((myInt >> 8) & 0xff)
retBytes[0] = byte(myInt & 0xff)
return
}
func byteToInt(myBytes []byte) (x int) {
x = int(myBytes[3])<<24 + int(myBytes[2])<<16 + int(myBytes[1])<<8 + int(myBytes[0])
return
}