rumpk/npl/nipbox/nipbox.nim

# src/npl/nipbox/nipbox.nim
# Phase 16: Project PROMETHEUS - The Biosuit Activation
# The Sovereign Supervisor (Reforged)

import strutils
import std
import editor

# --- MEMBRANE INTERFACE ---
# These symbols are provided by libnexus.a (The Biosuit)

type
  SockAddrIn {.packed.} = object
    sin_family: uint16
    sin_port: uint16
    sin_addr: uint32
    sin_zero: array[8, char]

const
  AF_INET = 2
  SOCK_STREAM = 1
  IPPROTO_TCP = 6

# Membrane Exports
proc membrane_init() {.importc, cdecl.}
proc pump_membrane_stack() {.importc, cdecl.}

# POSIX API (Intercepted)
proc socket(domain, socktype, protocol: cint): cint {.importc, cdecl.}
proc connect(fd: cint, address: ptr SockAddrIn, len: cint): cint {.importc, cdecl.}
proc send(fd: cint, buf: pointer, len: csize_t, flags: cint): cint {.importc, cdecl.}
proc recv(fd: cint, buf: pointer, len: csize_t, flags: cint): cint {.importc, cdecl.}
proc close(fd: cint): cint {.importc, cdecl.}

# Helpers
proc htons(x: uint16): uint16 =
  ((x and 0xFF) shl 8) or ((x and 0xFF00) shr 8)

proc inet_addr(ip: string): uint32 =
  # A.B.C.D -> Little Endian uint32 (LwIP expects Network Order in memory, but let's check subject_zero)
  # subject_zero used 0x0202000A for 10.0.2.2.
  # If we parse parts: 10, 0, 2, 2.
  # (2<<24)|(2<<16)|(0<<8)|10 = 0x0202000A. Correct.
  let parts = ip.split('.')
  if parts.len != 4: return 0
  var a, b, c, d: int
  try:
    a = parseInt(parts[0])
    b = parseInt(parts[1])
    c = parseInt(parts[2])
    d = parseInt(parts[3])
  except:
    return 0
  return (uint32(d) shl 24) or (uint32(c) shl 16) or (uint32(b) shl 8) or
      uint32(a)

# --- SYSTEM INTERFACE ---
# Syscalls provided by stubs.o or direct asm

proc print(s: string) =
  if s.len > 0:
    discard write(cint(1), unsafeAddr s[0], csize_t(s.len))
  var nl = "\n"
  discard write(cint(1), unsafeAddr nl[0], 1)

proc print_raw(s: string) =
  if s.len > 0:
    discard write(cint(1), unsafeAddr s[0], csize_t(s.len))

# --- COMMANDS ---

proc do_mkfs() =
  print("[mkfs] Partitioning Ledger...")
  # Placeholder for Phase 7
  print("[mkfs] Complete.")

proc do_cat(filename: string) =
  let fd = open(cstring(filename), 0)
  if fd < 0:
    print("cat: error opening " & filename)
    return
  var buf: array[1024, char]
  while true:
    let n = read(fd, addr buf[0], 1024)
    if n <= 0: break
    discard write(cint(1), addr buf[0], csize_t(n))
  discard close(fd)
  print("")

proc do_ls() =
  # list_files syscall logic placeholder
  print(".")

proc start_editor(filename: string) =
  editor.start_editor(filename)

# --- PROJECT PROMETHEUS: TCP CONNECT ---
proc do_connect(args: string) =
  let parts = args.strip().split(' ')
  if parts.len < 2:
    print("Usage: connect <ip> <port>")
    return

  let ip = parts[0]
  var port: int
  try:
    port = parseInt(parts[1])
  except:
    print("Error: Invalid port")
    return

  print("[TCP] Creating socket...")
  let fd = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP)
  if fd < 0:
    print("[TCP] ERROR: socket() failed")
    return

  var sa: SockAddrIn
  sa.sin_family = uint16(AF_INET)
  sa.sin_port = htons(uint16(port))
  sa.sin_addr = inet_addr(ip)

  print("[TCP] Connecting to " & ip & ":" & $port & "...")

  # The Membrane Handshake
  let res = connect(fd, addr sa, cint(sizeof(SockAddrIn)))

  if res == 0:
    print("[TCP] CONNECTED!")

    let req = "GET / HTTP/1.1\r\nHost: " & ip & "\r\n\r\n"
    let sent = send(fd, unsafeAddr req[0], csize_t(req.len), 0)
    print("[TCP] Sent request (" & $sent & " bytes)")

    var buf: array[512, char]
    # Pump stack to receive reply
    for i in 0..500:
      pump_membrane_stack()
      let n = recv(fd, addr buf[0], 512, 0)
      if n > 0:
        print("[TCP] Received:")
        var resp = newString(n)
        copyMem(addr resp[0], addr buf[0], n)
        print_raw(resp)
        break
      # Simple yield loop
      for j in 0..10000: discard

    discard close(fd)
  else:
    print("[TCP] Connection Failed")
    discard close(fd)

# --- ENGINE ---

proc dispatch_command(input: string)

proc run_script(filename: string) =
  if filename.len == 0: return
  print("[Init] Sourcing " & filename & "...")
  let fd = open(cstring(filename), 0)
  if fd < 0:
    print("[Init] Script not found: " & filename)
    return
  var line = ""
  var buf: array[1, char]
  while true:
    let n = read(fd, addr buf[0], 1)
    if n <= 0: break
    if buf[0] == '\n':
      let t = line.strip()
      if t.len > 0 and not t.startsWith("#"):
        dispatch_command(t)
      line = ""
    elif buf[0] != '\r':
      line.add(buf[0])

  let t = line.strip()
  if t.len > 0 and not t.startsWith("#"):
    dispatch_command(t)
  discard close(fd)

proc dispatch_command(input: string) =
  let trimmed = input.strip()
  if trimmed.len == 0: return

  var cmd = ""
  var arg = ""
  var space = false
  for c in trimmed:
    if not space and c == ' ': space = true
    elif not space: cmd.add(c)
    else: arg.add(c)

  if cmd == "exit": exit(0)
  elif cmd == "echo": print(arg)
  elif cmd == "cat": do_cat(arg)
  elif cmd == "ls": do_ls()
  elif cmd == "mkfs": do_mkfs()
  elif cmd == "ed": start_editor(arg)
  elif cmd == "source": run_script(arg)
  elif cmd == "connect": do_connect(arg)
  elif cmd == "help":
    print("NipBox v0.6 (Membrane Active)")
    print("connect <ip> <port>, echo, cat, ls, ed, source, exit")
  else:
    print("Unknown command: " & cmd)

proc main() =
  print("\n╔═══════════════════════════════════════╗")
  print("║   SOVEREIGN SUPERVISOR v0.6           ║")
  print("║   PROJECT PROMETHEUS: MEMBRANE ACTIVE ║")
  print("╚═══════════════════════════════════════╝")

  # 1. Activate Biosuit
  membrane_init()
  print("[Membrane] TCP/IP Stack Initialized (10.0.2.16)")

  # 2. Init Script (FS Disabled)
  # run_script("/etc/init.nsh")

  # 3. PROMETHEUS BOOT TEST
  print("[Prometheus] Connecting to Host (10.0.2.2:8000)...")
  do_connect("10.0.2.2 8000")

  print_raw("\nroot@nexus:# ")
  var inputBuffer = ""

  while true:
    # 3. Heartbeat
    pump_membrane_stack()

    # 4. Input (Blocking Read via read(0) which should yield ideally)
    # Since we don't have non-blocking read in POSIX standard here without fcntl,
    # and we want to pump stack...
    # We'll use a busy loop with small reads or assume read(0) is non-blocking in our Stubs?
    # Our `write` to fd 1 works. `read` from fd 0?

    var c: char
    # Try reading 1 char. If stubs.zig implements it as blocking, networking pauses.
    # In Phase 16, we accept this simplification or use 'nexus_read_nonblock' if we can link it.
    # Let's try standard read(0) - if it blocks, the network freezes awaiting input.
    # For a shell, that's acceptable for now (stop-and-wait).
    # To fix properly, we need a non-blocking read or a thread.

    let n = read(0, addr c, 1) # This might block!
    if n > 0:
      if c == '\n' or c == '\r':
        print_raw("\n")
        dispatch_command(inputBuffer)
        inputBuffer = ""
        print_raw("root@nexus:# ")
      elif c == '\b' or c == char(127):
        if inputBuffer.len > 0:
          print_raw("\b \b")
          inputBuffer.setLen(inputBuffer.len - 1)
      else:
        inputBuffer.add(c)
        var s = ""
        s.add(c)
        print_raw(s)

    # Tiny sleep loop to not burn CPU if read returns 0 immediately (non-blocking)
    if n <= 0:
      for k in 0..1000: discard

when isMainModule: main()