"""
Bind to a Linux netfilter queue. Send packets to a user-specified callback 
function.

Copyright: (c) 2011, Kerkhoff Technologies Inc.
License: MIT; see LICENSE.txt
"""
VERSION = (0, 6, 0)

# Constants for module users
COPY_NONE = 1
COPY_META = 2
COPY_PACKET = 3

DEFAULT_MAX_QUEUELEN = 1024

# Packet copying defaults
DEF MaxPacketSize = 0xFFFF
DEF BufferSize = 4096
DEF MetadataSize = 80
DEF MaxCopySize = BufferSize - MetadataSize

cdef int global_callback(nfq_q_handle *qh, nfgenmsg *nfmsg, 
                         nfq_data *nfa, void *data) with gil:
    """Create a Packet and pass it to appropriate callback."""
    cdef NetfilterQueue nfqueue = <NetfilterQueue>data
    cdef object user_callback = <object>nfqueue.user_callback

    packet = Packet()
    packet.set_nfq_data(qh, nfa)
    user_callback(packet)
    return 1

cdef class Packet:
    """A packet received from NetfilterQueue."""
    def __cinit__(self):
        self._verdict_is_set = False
        self._mark_is_set = False
        self._given_payload = None
    
    def __str__(self):
        cdef iphdr *hdr = <iphdr*>self.payload
        protocol = PROTOCOLS.get(hdr.protocol, "Unknown protocol")
        return "%s packet, %s bytes" % (protocol, self.payload_len)
    
    cdef set_nfq_data(self, nfq_q_handle *qh, nfq_data *nfa):
        """
        Assign a packet from NFQ to this object. Parse the header and load 
        local values.
        """
        self._qh = qh
        self._nfa = nfa
        self._hdr = nfq_get_msg_packet_hdr(nfa)
        
        self.id = ntohl(self._hdr.packet_id)
        self.hw_protocol = ntohs(self._hdr.hw_protocol)
        self.hook = self._hdr.hook
        
        self.payload_len = nfq_get_payload(self._nfa, &self.payload)
        if self.payload_len < 0:
            raise OSError("Failed to get payload of packet.")
        
        nfq_get_timestamp(self._nfa, &self.timestamp)
        self.mark = nfq_get_nfmark(nfa)

    cdef void verdict(self, u_int8_t verdict):
        """Call appropriate set_verdict... function on packet."""
        if self._verdict_is_set:
            raise RuntimeWarning("Verdict already given for this packet.")

        cdef u_int32_t modified_payload_len = 0
        cdef unsigned char *modified_payload = NULL        
        if self._given_payload:
            modified_payload_len = len(self._given_payload)
            modified_payload = self._given_payload
        if self._mark_is_set:
            nfq_set_verdict_mark(
                self._qh,
                self.id,
                verdict,
                htonl(self._given_mark),
                modified_payload_len,
                modified_payload)
        else:
            nfq_set_verdict(
                self._qh,
                self.id,
                verdict,
                modified_payload_len,
                modified_payload)

        self._verdict_is_set = True
    
    def get_payload(self):
        """Return payload as Python string."""
        cdef object py_string = PyString_FromStringAndSize(self.payload,
                                                           self.payload_len)
        return py_string
    
    cpdef Py_ssize_t get_payload_len(self):
        return self.payload_len
    
    cpdef double get_timestamp(self):
        return self.timestamp.tv_sec + (self.timestamp.tv_usec/1000000.0)
    
    cpdef set_payload(self, bytes payload):
        """Set the new payload of this packet."""
        self._given_payload = payload
        
    cpdef set_mark(self, u_int32_t mark):
        self._given_mark = mark
        self._mark_is_set = True

    cpdef get_mark(self):
        if self._mark_is_set:
            return self._given_mark
        return self.mark
    
    cpdef accept(self):
        """Accept the packet."""
        self.verdict(NF_ACCEPT)
        
    cpdef drop(self):
        """Drop the packet."""
        self.verdict(NF_DROP)

    cpdef repeat(self):
        """Repeat the packet."""
        self.verdict(NF_REPEAT)

cdef class NetfilterQueue:
    """Handle a single numbered queue."""
    def __cinit__(self, *args, **kwargs):
        self.af = kwargs.get("af", PF_INET)

        self.h = nfq_open()
        if self.h == NULL:
            raise OSError("Failed to open NFQueue.")
        nfq_unbind_pf(self.h, self.af) # This does NOT kick out previous 
            # running queues
        if nfq_bind_pf(self.h, self.af) < 0:
            raise OSError("Failed to bind family %s. Are you root?" % self.af)
    
    def __dealloc__(self):
        if self.qh != NULL:
            nfq_destroy_queue(self.qh)
        # Don't call nfq_unbind_pf unless you want to disconnect any other 
        # processes using this libnetfilter_queue on this protocol family!
        nfq_close(self.h)

    def bind(self, int queue_num, object user_callback,
                u_int32_t max_len=DEFAULT_MAX_QUEUELEN, 
                u_int8_t mode=NFQNL_COPY_PACKET,
                u_int32_t range=MaxPacketSize):
        """Create and bind to a new queue."""
        self.user_callback = user_callback
        self.qh = nfq_create_queue(self.h, queue_num,
                                   <nfq_callback*>global_callback, <void*>self)
        if self.qh == NULL:
            raise OSError("Failed to create queue %s." % queue_num)
        
        if range > MaxCopySize:
            range = MaxCopySize
        if nfq_set_mode(self.qh, mode, range) < 0:
            raise OSError("Failed to set packet copy mode.")
        
        nfq_set_queue_maxlen(self.qh, max_len)
    
    def unbind(self):
        """Destroy the queue."""
        if self.qh != NULL:
            nfq_destroy_queue(self.qh)
        # See warning about nfq_unbind_pf in __dealloc__ above.
        
    def run(self):
        """Begin accepting packets."""
        cdef int fd = nfq_fd(self.h)
        cdef char buf[BufferSize]
        cdef int rv
        with nogil:
            rv = recv(fd, buf, sizeof(buf), 0)
        while rv >= 0:
            nfq_handle_packet(self.h, buf, rv)
            with nogil:
                rv = recv(fd, buf, sizeof(buf), 0)

PROTOCOLS = {
    0: "HOPOPT",
    1: "ICMP",
    2: "IGMP",
    3: "GGP",
    4: "IP",
    5: "ST",
    6: "TCP",
    7: "CBT",
    8: "EGP",
    9: "IGP",
    10: "BBN-RCC-MON",
    11: "NVP-II",
    12: "PUP",
    13: "ARGUS",
    14: "EMCON",
    15: "XNET",
    16: "CHAOS",
    17: "UDP",
    18: "MUX",
    19: "DCN-MEAS",
    20: "HMP",
    21: "PRM",
    22: "XNS-IDP",
    23: "TRUNK-1",
    24: "TRUNK-2",
    25: "LEAF-1",
    26: "LEAF-2",
    27: "RDP",
    28: "IRTP",
    29: "ISO-TP4",
    30: "NETBLT",
    31: "MFE-NSP",
    32: "MERIT-INP",
    33: "DCCP",
    34: "3PC",
    35: "IDPR",
    36: "XTP",
    37: "DDP",
    38: "IDPR-CMTP",
    39: "TP++",
    40: "IL",
    41: "IPv6",
    42: "SDRP",
    43: "IPv6-Route",
    44: "IPv6-Frag",
    45: "IDRP",
    46: "RSVP",
    47: "GRE",
    48: "DSR",
    49: "BNA",
    50: "ESP",
    51: "AH",
    52: "I-NLSP",
    53: "SWIPE",
    54: "NARP",
    55: "MOBILE",
    56: "TLSP",
    57: "SKIP",
    58: "IPv6-ICMP",
    59: "IPv6-NoNxt",
    60: "IPv6-Opts",
    61: "any host internal protocol",
    62: "CFTP",
    63: "any local network",
    64: "SAT-EXPAK",
    65: "KRYPTOLAN",
    66: "RVD",
    67: "IPPC",
    68: "any distributed file system",
    69: "SAT-MON",
    70: "VISA",
    71: "IPCV",
    72: "CPNX",
    73: "CPHB",
    74: "WSN",
    75: "PVP",
    76: "BR-SAT-MON",
    77: "SUN-ND",
    78: "WB-MON",
    79: "WB-EXPAK",
    80: "ISO-IP",
    81: "VMTP",
    82: "SECURE-VMTP",
    83: "VINES",
    84: "TTP",
    85: "NSFNET-IGP",
    86: "DGP",
    87: "TCF",
    88: "EIGRP",
    89: "OSPFIGP",
    90: "Sprite-RPC",
    91: "LARP",
    92: "MTP",
    93: "AX.25",
    94: "IPIP",
    95: "MICP",
    96: "SCC-SP",
    97: "ETHERIP",
    98: "ENCAP",
    99: "any private encryption scheme",
    100: "GMTP",
    101: "IFMP",
    102: "PNNI",
    103: "PIM",
    104: "ARIS",
    105: "SCPS",
    106: "QNX",
    107: "A/N",
    108: "IPComp",
    109: "SNP",
    110: "Compaq-Peer",
    111: "IPX-in-IP",
    112: "VRRP",
    113: "PGM",
    114: "any 0-hop protocol",
    115: "L2TP",
    116: "DDX",
    117: "IATP",
    118: "STP",
    119: "SRP",
    120: "UTI",
    121: "SMP",
    122: "SM",
    123: "PTP",
    124: "ISIS",
    125: "FIRE",
    126: "CRTP",
    127: "CRUDP",
    128: "SSCOPMCE",
    129: "IPLT",
    130: "SPS",
    131: "PIPE",
    132: "SCTP",
    133: "FC",
    134: "RSVP-E2E-IGNORE",
    135: "Mobility",
    136: "UDPLite",
    137: "MPLS-in-IP",
    138: "manet",
    139: "HIP",
    140: "Shim6",
    255: "Reserved",
}