You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

438 lines
13 KiB

package main
import "io"
import "os"
import "time"
import "fmt"
import "bytes"
import "strings"
import "strconv"
import "encoding/hex"
import "encoding/json"
import "path/filepath"
import "github.com/chzyer/readline"
import "github.com/docopt/docopt-go"
import log "github.com/sirupsen/logrus"
import "github.com/deroproject/derosuite/p2p"
import "github.com/deroproject/derosuite/globals"
import "github.com/deroproject/derosuite/blockchain"
import "github.com/deroproject/derosuite/crypto"
var command_line string = `derod
DERO : A secure, private blockchain with smart-contracts
Usage:
derod [--help] [--version] [--testnet] [--debug] [--socks-proxy=<socks_ip:port>] [--p2p-bind-port=<18090>] [--add-exclusive-node=<ip:port>]...
derod -h | --help
derod --version
Options:
-h --help Show this screen.
--version Show version.
--testnet Run in testnet mode.
--debug Debug mode enabled, print log messages
--socks-proxy=<socks_ip:port> Use a proxy to connect to network.
--p2p-bind-port=<18090> p2p server listens on this port.
--add-exclusive-node=<ip:port> Connect to this peer only (disabled for this version)`
func main() {
var err error
globals.Arguments, err = docopt.Parse(command_line, nil, true, "DERO daemon : work in progress", false)
if err != nil {
log.Fatalf("Error while parsing options err: %s\n", err)
}
// We need to initialize readline first, so it changes stderr to ansi processor on windows
l, err := readline.NewEx(&readline.Config{
//Prompt: "\033[92mDERO:\033[32m»\033[0m",
Prompt: "\033[92mDERO:\033[32m>>>\033[0m ",
HistoryFile: filepath.Join(os.TempDir(), "derod_readline.tmp"),
AutoComplete: completer,
InterruptPrompt: "^C",
EOFPrompt: "exit",
HistorySearchFold: true,
FuncFilterInputRune: filterInput,
})
if err != nil {
panic(err)
}
defer l.Close()
// parse arguments and setup testnet mainnet
globals.Initialize() // setup network and proxy
globals.Logger.Infof("") // a dummy write is required to fully activate logrus
// all screen output must go through the readline
globals.Logger.Out = l.Stdout()
globals.Logger.Debugf("Arguments %+v", globals.Arguments)
globals.Logger.Infof("DERO daemon : This version is under heavy development, use it for testing/evaluations purpose only")
globals.Logger.Infof("Daemon in %s mode", globals.Config.Name)
chain, _ := blockchain.Blockchain_Start(nil)
params := map[string]interface{}{}
params["chain"] = chain
p2p.P2P_Init(params)
// This tiny goroutine continuously updates status as required
go func() {
last_our_height := uint64(0)
last_best_height := uint64(0)
last_peer_count := uint64(0)
for {
if globals.Exit_In_Progress {
return
}
our_height := chain.Get_Height()
best_height := p2p.Best_Peer_Height()
peer_count := p2p.Peer_Count()
// only update prompt if needed
if last_our_height != our_height || last_best_height != best_height || last_peer_count != peer_count {
// choose color based on urgency
color := "\033[32m" // default is green color
if our_height < best_height {
color = "\033[33m" // make prompt yellow
} else if our_height > best_height {
color = "\033[31m" // make prompt red
}
pcolor := "\033[32m" // default is green color
if peer_count < 1 {
pcolor = "\033[31m" // make prompt red
} else if peer_count <= 8 {
pcolor = "\033[33m" // make prompt yellow
}
l.SetPrompt(fmt.Sprintf("\033[1m\033[32mDERO: \033[0m"+color+"%d/%d "+pcolor+"P %d\033[32m>>>\033[0m ", our_height, best_height, peer_count))
l.Refresh()
last_our_height = our_height
last_best_height = best_height
last_peer_count = peer_count
}
time.Sleep(1 * time.Second)
}
}()
setPasswordCfg := l.GenPasswordConfig()
setPasswordCfg.SetListener(func(line []rune, pos int, key rune) (newLine []rune, newPos int, ok bool) {
l.SetPrompt(fmt.Sprintf("Enter password(%v): ", len(line)))
l.Refresh()
return nil, 0, false
})
l.Refresh() // refresh the prompt
for {
line, err := l.Readline()
if err == readline.ErrInterrupt {
if len(line) == 0 {
fmt.Print("Ctrl-C received, Exit in progress\n")
globals.Exit_In_Progress = true
break
} else {
continue
}
} else if err == io.EOF {
break
}
line = strings.TrimSpace(line)
line_parts := strings.Fields(line)
command := ""
if len(line_parts) >= 1 {
command = strings.ToLower(line_parts[0])
}
switch {
case strings.HasPrefix(line, "mode "):
switch line[5:] {
case "vi":
l.SetVimMode(true)
case "emacs":
l.SetVimMode(false)
default:
println("invalid mode:", line[5:])
}
case line == "mode":
if l.IsVimMode() {
println("current mode: vim")
} else {
println("current mode: emacs")
}
case line == "login":
pswd, err := l.ReadPassword("please enter your password: ")
if err != nil {
break
}
println("you enter:", strconv.Quote(string(pswd)))
case line == "help":
usage(l.Stderr())
case line == "setpassword":
pswd, err := l.ReadPasswordWithConfig(setPasswordCfg)
if err == nil {
println("you set:", strconv.Quote(string(pswd)))
}
case strings.HasPrefix(line, "setprompt"):
if len(line) <= 10 {
log.Println("setprompt <prompt>")
break
}
l.SetPrompt(line[10:])
case strings.HasPrefix(line, "say"):
line := strings.TrimSpace(line[3:])
if len(line) == 0 {
log.Println("say what?")
break
}
go func() {
for range time.Tick(time.Second) {
log.Println(line)
}
}()
case command == "print_bc":
log.Info("printing block chain")
// first is starting point, second is ending point
start := int64(0)
stop := int64(0)
if len(line_parts) != 3 {
fmt.Printf("This function requires 2 parameters, start and endpoint\n")
continue
}
if s, err := strconv.ParseInt(line_parts[1], 10, 64); err == nil {
start = s
} else {
fmt.Printf("Invalid start value")
continue
}
if s, err := strconv.ParseInt(line_parts[2], 10, 64); err == nil {
stop = s
} else {
fmt.Printf("Invalid stop value")
continue
}
if start < 0 || start >= int64(chain.Get_Height()) {
fmt.Printf("Start value should be be between 0 and current height\n")
continue
}
if start > stop && stop >= int64(chain.Get_Height()) {
fmt.Printf("Stop value should be > start and current height\n")
continue
}
fmt.Printf("Printing block chain from %d to %d\n", start, stop)
for i := start; i < stop; i++ {
// get block id at height
current_block_id, err := chain.Load_BL_ID_at_Height(uint64(i))
if err != nil {
fmt.Printf("Skipping block at height %d due to error %s\n", i, err)
continue
}
timestamp := chain.Load_Block_Timestamp(current_block_id)
parent_block_id := chain.Load_Block_Parent_ID(current_block_id)
// calculate difficulty
//parent_cdiff := chain.Load_Block_Cumulative_Difficulty(parent_block_id)
//block_cdiff := chain.Load_Block_Cumulative_Difficulty(current_block_id)
diff := chain.Get_Difficulty_At_Block(parent_block_id)
//size := chain.
fmt.Printf("height: %10d, timestamp: %10d, difficulty: %12d\n", i, timestamp, diff)
fmt.Printf("Block Id: %x , prev block id:%x\n", current_block_id, parent_block_id)
fmt.Printf("\n")
}
case command == "print_block":
fmt.Printf("printing block\n")
if len(line_parts) == 2 && len(line_parts[1]) == 64 {
txid, err := hex.DecodeString(strings.ToLower(line_parts[1]))
if err != nil {
fmt.Printf("err while decoding txid err %s\n", err)
continue
}
var hash crypto.Hash
copy(hash[:32], []byte(txid))
fmt.Printf("block id: %x\n", hash[:])
bl, err := chain.Load_BL_FROM_ID(hash)
if err == nil {
fmt.Printf("Block : %x\n", bl.Serialize())
} else {
fmt.Printf("Err %s\n", err)
}
} else if len(line_parts) == 2 {
if s, err := strconv.ParseInt(line_parts[1], 10, 64); err == nil {
// first load block id from height
hash, err := chain.Load_BL_ID_at_Height(uint64(s))
if err == nil {
bl, err := chain.Load_BL_FROM_ID(hash)
if err == nil {
fmt.Printf("block id: %x\n", hash[:])
fmt.Printf("Block : %x\n", bl.Serialize())
json_bytes, err := json.Marshal(bl)
fmt.Printf("%s err : %s\n", string(prettyprint_json(json_bytes)), err)
} else {
fmt.Printf("Err %s\n", err)
}
} else {
fmt.Printf("err %s\n", err)
}
}
} else {
fmt.Printf("print_tx needs a single transaction id as arugument\n")
}
case command == "print_tx":
if len(line_parts) == 2 && len(line_parts[1]) == 64 {
txid, err := hex.DecodeString(strings.ToLower(line_parts[1]))
if err != nil {
fmt.Printf("err while decoding txid err %s\n", err)
continue
}
var hash crypto.Hash
copy(hash[:32], []byte(txid))
tx, err := chain.Load_TX_FROM_ID(hash)
if err == nil {
s_bytes := tx.Serialize()
fmt.Printf("tx : %x\n", s_bytes)
json_bytes, err := json.MarshalIndent(tx, "", " ")
_ = err
fmt.Printf("%s\n", string(json_bytes))
} else {
fmt.Printf("Err %s\n", err)
}
} else {
fmt.Printf("print_tx needs a single transaction id as arugument\n")
}
case strings.ToLower(line) == "diff":
fmt.Printf("Network %s BH %d, Diff %d, NW Hashrate %0.03f MH/sec TH %x\n", globals.Config.Name, chain.Get_Height(), chain.Get_Difficulty(), float64(chain.Get_Network_HashRate())/1000000.0, chain.Get_Top_ID())
case strings.ToLower(line) == "status":
// fmt.Printf("chain diff %d\n",chain.Get_Difficulty_At_Block(chain.Top_ID))
//fmt.Printf("chain nw rate %d\n", chain.Get_Network_HashRate())
inc, out := p2p.Peer_Direction_Count()
fmt.Printf("Network %s Height %d NW Hashrate %0.03f MH/sec TH %x Peers %d INC, %d OUT\n", globals.Config.Name, chain.Get_Height(), float64(chain.Get_Network_HashRate())/1000000.0, chain.Get_Top_ID(), inc,out )
case strings.ToLower(line) == "sync_info":
p2p.Connection_Print()
case strings.ToLower(line) == "bye":
fallthrough
case strings.ToLower(line) == "exit":
fallthrough
case strings.ToLower(line) == "quit":
goto exit
case line == "sleep":
log.Println("sleep 4 second")
time.Sleep(4 * time.Second)
case line == "":
default:
log.Println("you said:", strconv.Quote(line))
}
}
exit:
globals.Logger.Infof("Exit in Progress, Please wait")
time.Sleep(100 * time.Millisecond) // give prompt update time to finish
p2p.P2P_Shutdown() // shutdown p2p subsystem
chain.Shutdown() // shutdown chain subsysem
for globals.Subsystem_Active > 0 {
time.Sleep(100 * time.Millisecond)
}
}
func prettyprint_json(b []byte) []byte {
var out bytes.Buffer
err := json.Indent(&out, b, "", " ")
_ = err
return out.Bytes()
}
func usage(w io.Writer) {
io.WriteString(w, "commands:\n")
//io.WriteString(w, completer.Tree(" "))
io.WriteString(w,"\t\033[1mhelp\033[0m\t\tthis help\n")
io.WriteString(w,"\t\033[1mdiff\033[0m\t\tShow difficulty\n")
io.WriteString(w,"\t\033[1mprint_bc\033[0m\tPrint blockchain info in a given blocks range, print_bc <begin_height> <end_height>\n")
io.WriteString(w,"\t\033[1mprint_block\033[0m\tPrint block, print_block <block_hash> or <block_height>\n")
io.WriteString(w,"\t\033[1mprint_height\033[0m\tPrint local blockchain height\n")
io.WriteString(w,"\t\033[1mprint_tx\033[0m\tPrint transaction, print_tx <transaction_hash>\n")
io.WriteString(w,"\t\033[1mstatus\033[0m\t\tShow genereal information\n")
io.WriteString(w,"\t\033[1msync_info\033[0m\tPrint information about connected peers and their state\n")
io.WriteString(w,"\t\033[1mbye\033[0m\t\tQuit the daemon\n")
io.WriteString(w,"\t\033[1mexit\033[0m\t\tQuit the daemon\n")
io.WriteString(w,"\t\033[1mquit\033[0m\t\tQuit the daemon\n")
}
var completer = readline.NewPrefixCompleter(
/* readline.PcItem("mode",
readline.PcItem("vi"),
readline.PcItem("emacs"),
),
readline.PcItem("login"),
readline.PcItem("say",
readline.PcItem("hello"),
readline.PcItem("bye"),
),
readline.PcItem("setprompt"),
readline.PcItem("setpassword"),
readline.PcItem("bye"),
*/
readline.PcItem("help"),
/* readline.PcItem("go",
readline.PcItem("build", readline.PcItem("-o"), readline.PcItem("-v")),
readline.PcItem("install",
readline.PcItem("-v"),
readline.PcItem("-vv"),
readline.PcItem("-vvv"),
),
readline.PcItem("test"),
),
readline.PcItem("sleep"),
*/
readline.PcItem("diff"),
readline.PcItem("print_bc"),
readline.PcItem("print_block"),
readline.PcItem("print_height"),
readline.PcItem("print_tx"),
readline.PcItem("status"),
readline.PcItem("sync_info"),
readline.PcItem("bye"),
readline.PcItem("exit"),
readline.PcItem("quit"),
)
func filterInput(r rune) (rune, bool) {
switch r {
// block CtrlZ feature
case readline.CharCtrlZ:
return r, false
}
return r, true
}