/* File Name: Search Temp.go Copyright: 2021 Peernet Foundation s.r.o. Author: Peter Kleissner Temporary search code to provide dummy results for testing. To be replaced! */ package webapi import ( "encoding/hex" "fmt" "math/rand" "time" "github.com/PeernetOfficial/core" "github.com/google/uuid" ) func dispatchSearch(input SearchRequest) (job *SearchJob) { Timeout := input.Parse() Filter := input.ToSearchFilter() // create the search job job = CreateSearchJob(Timeout, input.MaxResults, Filter) // Create test data // * Between 0-100 results // * Delay of first result is 0-5 seconds // * File name, type, format, ID and hash are randomized go func(job *SearchJob) { rand.Seed(time.Now().UnixNano()) waitTime := time.Duration(rand.Intn(5)) * time.Second countResults := rand.Intn(100) time.Sleep(waitTime) job.ResultSync.Lock() for n := 0; n < countResults; n++ { newFile := blockRecordFileToAPI(createTestResult(-1)) // TODO: Move to channel! job.Files = append(job.Files, &newFile) job.AllFiles = append(job.AllFiles, &newFile) job.requireSort = true } job.ResultSync.Unlock() job.Terminate() }(job) job.RemoveDefer(job.timeout + time.Minute*10) return job } // createTestResult creates a test file. fileType = -1 for any. func createTestResult(fileType int) (file core.BlockRecordFile) { randomData := make([]byte, 10*1024) rand.Read(randomData) file.Hash = core.Data2Hash(randomData) file.Format = uint16(rand.Intn(core.FormatCSV)) file.ID = uuid.New() file.Size = uint64(len(randomData)) file.NodeID = make([]byte, 32) // node ID = blake3 hash of peer ID rand.Read(file.NodeID) if fileType == -1 { switch file.Format { case core.FormatCSV, core.FormatEmail, core.FormatText, core.FormatHTML: file.Type = core.TypeText case core.FormatDatabase: file.Type = core.TypeBinary case core.FormatCompressed: file.Type = core.TypeCompressed case core.FormatContainer: file.Type = core.TypeContainer case core.FormatEbook: file.Type = core.TypeEbook case core.FormatVideo: file.Type = core.TypeVideo case core.FormatAudio: file.Type = core.TypeAudio case core.FormatPicture: file.Type = core.TypePicture case core.FormatPowerpoint, core.FormatExcel, core.FormatWord, core.FormatPDF: file.Type = core.TypeDocument case core.FormatFolder: file.Type = core.TypeFolder default: file.Type = core.TypeBinary } } else { if fileType == -2 { // Binary, Compressed, Container, Executable otherList := []int{core.TypeBinary, core.TypeCompressed, core.TypeContainer, core.TypeExecutable} fileType = otherList[rand.Intn(len(otherList))] } file.Type = uint8(fileType) switch file.Type { case core.TypeBinary: file.Format = core.FormatBinary case core.TypeText: file.Format = core.FormatText case core.TypePicture: file.Format = core.FormatPicture case core.TypeVideo: file.Format = core.FormatVideo case core.TypeAudio: file.Format = core.FormatAudio case core.TypeDocument: file.Format = core.FormatPDF case core.TypeExecutable: file.Format = core.FormatExecutable case core.TypeContainer: file.Format = core.FormatContainer case core.TypeCompressed: file.Format = core.FormatCompressed case core.TypeFolder: file.Format = core.FormatFolder case core.TypeEbook: file.Format = core.FormatEbook default: file.Format = core.FormatBinary } } var extension string switch file.Type { case core.TypeBinary: extension = "bin" case core.TypeText: extension = "txt" case core.TypePicture: extension = "jpg" case core.TypeVideo: extension = "mp4" case core.TypeAudio: extension = "mp3" case core.TypeDocument: extension = "pdf" case core.TypeExecutable: extension = "exe" case core.TypeContainer: extension = "zip" case core.TypeCompressed: extension = "gz" case core.TypeFolder: extension = "" case core.TypeEbook: extension = "" default: extension = ".bin" } file.Tags = append(file.Tags, core.TagFromText(core.TagName, tempFileName("", extension))) //file.Tags = append(file.Tags, core.TagFromText(core.TagFolder, "not set")) file.Tags = append(file.Tags, core.TagFromDate(core.TagDateShared, time.Now().UTC())) sharedByCount := uint64(rand.Intn(10)) file.Tags = append(file.Tags, core.TagFromNumber(core.TagSharedByCount, sharedByCount)) if sharedByCount > 0 { var sharedByGeoIP string for n := uint64(0); n < sharedByCount; n++ { latitude, longitude := randomGeoIP() if n > 0 { sharedByGeoIP += "\n" } sharedByGeoIP += fmt.Sprintf("%.4f", latitude) + "," + fmt.Sprintf("%.4f", longitude) } file.Tags = append(file.Tags, core.TagFromText(core.TagSharedByGeoIP, sharedByGeoIP)) } return } // tempFileName generates a temporary filename for use in testing func tempFileName(prefix, suffix string) string { randBytes := make([]byte, 16) rand.Read(randBytes) return prefix + hex.EncodeToString(randBytes) + "." + suffix } // randomGeoIP generates random geo IP coordinates func randomGeoIP() (latitude, longitude float32) { // Latitude generates latitude (from -90.0 to 90.0) latitude = rand.Float32()*180 - 90 // Longitude generates longitude (from -180 to 180) longitude = rand.Float32()*360 - 180 return } // queryRecentShared returns recently shared files on the network. fileType = -1 for any. func queryRecentShared(fileType, limit int) (files []*core.BlockRecordFile) { for n := 0; n < limit; n++ { newFile := createTestResult(fileType) files = append(files, &newFile) } return }