package main import ( "git.xdrm.io/logauth/schastsp/internal/scha" "time" "os" "flag" "fmt" "git.xdrm.io/logauth/schastsp/context" "git.xdrm.io/logauth/schastsp/server" ) func main(){ executionStart := time.Now().UnixNano() /* (1) Flag management (cli arguments) ---------------------------------------------------------*/ /* (1) Secret folder */ serverConfigPath := flag.String("file", "/tmp/schastsp_hash", "Configuration file, it will contain sensitive data (key), make sure to control it properly. (default: /tmp/schastsp_hash)") /* (2) Context window size */ winSize := flag.Uint("win", 2000, "Time window value in ms. (default: 2000)") /* (3) Context minimum depth value */ minDepth := flag.Uint("min", 0x0f0, "Minimum depth value. (default: 240)") /* (4) Context maximum depth value */ maxDepth := flag.Uint("max", 0xfff, "Maximum depth value. (default: 4095)") /* (5) Context depth threshold */ thrDepth := flag.Uint("thr", 0x00a, "Depth threshold protecting minimum depth to be reached. (default: 10)") /* (6) Synchronisation request (special order) */ syncRequest := flag.Bool("sync", false, "If set, proceeds a synchronisation from standard input (synchronisation key).") /* (7) Parse flags */ flag.Parse() /* (2) Create context + client ---------------------------------------------------------*/ /* (1) Create context */ ctx, err := context.Create( float64(*winSize) / 1e3, uint16(*minDepth), uint16(*thrDepth), uint16(*maxDepth) ); if err != nil { os.Stderr.WriteString( fmt.Sprintf("[SERVER_ERROR:context] %s\n", err) ); return } /* (2) Create server */ ser, err := server.New(ctx, *serverConfigPath) if err != nil { os.Stderr.WriteString( fmt.Sprintf("[SERVER_ERROR:server] %s\n", err) ); return } /* (3) Dispatch execution ---------------------------------------------------------*/ /* (1) If synchronisation request */ if *syncRequest { synchronisationCommit(ser); /* (2) If request handling */ } else { err = ser.HandleRequest(os.Stdin, os.Stdout) if err != nil { os.Stderr.WriteString( fmt.Sprintf("[SERVER_ERROR:request] %s\n", err) ) } } executionStop := time.Now().UnixNano() nsElapsed := float64(executionStop - executionStart) usElapsed := float64(nsElapsed / 1e3) msElapsed := float64(usElapsed / 1e3) sElapsed := float64(msElapsed / 1e3) if sElapsed >= 1 { os.Stderr.WriteString( fmt.Sprintf("executed in %.3f s\n", sElapsed) ) } else if msElapsed >= 1 { os.Stderr.WriteString( fmt.Sprintf("executed in %.3f ms\n", msElapsed) ) } else if usElapsed >= 1 { os.Stderr.WriteString( fmt.Sprintf("executed in %.3f us\n", usElapsed) ) } else if nsElapsed >= 1 { os.Stderr.WriteString( fmt.Sprintf("executed in %.3f ns\n", nsElapsed) ) } return } func synchronisationCommit(ser *server.T){ /* (1) Try to read key from standard input */ syncKey := make([]byte, scha.HSIZE) read, err := os.Stdin.Read(syncKey) if err != nil { os.Stderr.WriteString( fmt.Sprintf("[SERVER_ERROR:syncKey] %s\n", err) ); return } if uint16(read) != scha.HSIZE { os.Stderr.WriteString( fmt.Sprintf("[SERVER_ERROR:syncKey] Cannot read proper key size\n") ); return } /* (2) Store synchronisation key */ err = ser.SynchronisationKey(syncKey) if err != nil { os.Stderr.WriteString( fmt.Sprintf("[SERVER_ERROR:syncKey] %s\n", err) ); return } /* (3) Debug */ os.Stdout.WriteString("Synchronisation key successfully written\n") return; }