#! /usr/bin/python3

import getopt
import sys
import os.path
import re
import xml.dom.minidom

from ovs_build_helpers import nroff

line = ""

# Maps from user-friendly version number to its protocol encoding.
VERSION = {"1.0": 0x01,
           "1.1": 0x02,
           "1.2": 0x03,
           "1.3": 0x04,
           "1.4": 0x05,
           "1.5": 0x06}
VERSION_REVERSE = dict((v,k) for k, v in VERSION.items())

TYPES = {"u8":       (1,   False),
         "be16":     (2,   False),
         "be32":     (4,   False),
         "MAC":      (6,   False),
         "be64":     (8,   False),
         "be128":    (16,  False),
         "tunnelMD": (124, True)}

FORMATTING = {"decimal":            ("MFS_DECIMAL",      1,   8),
              "hexadecimal":        ("MFS_HEXADECIMAL",  1, 127),
              "ct state":           ("MFS_CT_STATE",     4,   4),
              "Ethernet":           ("MFS_ETHERNET",     6,   6),
              "IPv4":               ("MFS_IPV4",         4,   4),
              "IPv6":               ("MFS_IPV6",        16,  16),
              "OpenFlow 1.0 port":  ("MFS_OFP_PORT",     2,   2),
              "OpenFlow 1.1+ port": ("MFS_OFP_PORT_OXM", 4,   4),
              "frag":               ("MFS_FRAG",         1,   1),
              "tunnel flags":       ("MFS_TNL_FLAGS",    2,   2),
              "TCP flags":          ("MFS_TCP_FLAGS",    2,   2),
              "packet type":        ("MFS_PACKET_TYPE",  4,   4)}

PREREQS = {"none": "MFP_NONE",
           "Ethernet": "MFP_ETHERNET",
           "ARP": "MFP_ARP",
           "VLAN VID": "MFP_VLAN_VID",
           "IPv4": "MFP_IPV4",
           "IPv6": "MFP_IPV6",
           "IPv4/IPv6": "MFP_IP_ANY",
           "NSH": "MFP_NSH",
           "CT": "MFP_CT_VALID",
           "MPLS": "MFP_MPLS",
           "TCP": "MFP_TCP",
           "UDP": "MFP_UDP",
           "SCTP": "MFP_SCTP",
           "ICMPv4": "MFP_ICMPV4",
           "ICMPv6": "MFP_ICMPV6",
           "ND": "MFP_ND",
           "ND solicit": "MFP_ND_SOLICIT",
           "ND advert": "MFP_ND_ADVERT"}

# Maps a name prefix into an (experimenter ID, class) pair, so:
#
#      - Standard OXM classes are written as (0, <oxm_class>)
#
#      - Experimenter OXM classes are written as (<oxm_vender>, 0xffff)
#
# If a name matches more than one prefix, the longest one is used.
OXM_CLASSES = {"NXM_OF_":        (0,          0x0000, 'extension'),
               "NXM_NX_":        (0,          0x0001, 'extension'),
               "NXOXM_NSH_":     (0x005ad650, 0xffff, 'extension'),
               "OXM_OF_":        (0,          0x8000, 'standard'),
               "OXM_OF_PKT_REG": (0,          0x8001, 'standard'),
               "ONFOXM_ET_":     (0x4f4e4600, 0xffff, 'standard'),
               "ERICOXM_OF_":    (0,          0x1000, 'extension'),

               # This is the experimenter OXM class for Nicira, which is the
               # one that OVS would be using instead of NXM_OF_ and NXM_NX_
               # if OVS didn't have those grandfathered in.  It is currently
               # used only to test support for experimenter OXM, since there
               # are barely any real uses of experimenter OXM in the wild.
               "NXOXM_ET_":      (0x00002320, 0xffff, 'extension')}

def oxm_name_to_class(name):
    prefix = ''
    class_ = None
    for p, c in OXM_CLASSES.items():
        if name.startswith(p) and len(p) > len(prefix):
            prefix = p
            class_ = c
    return class_


def is_standard_oxm(name):
    oxm_vendor, oxm_class, oxm_class_type = oxm_name_to_class(name)
    return oxm_class_type == 'standard'


def decode_version_range(range):
    if range in VERSION:
        return (VERSION[range], VERSION[range])
    elif range.endswith('+'):
        return (VERSION[range[:-1]], max(VERSION.values()))
    else:
        a, b = re.match(r'^([^-]+)-([^-]+)$', range).groups()
        return (VERSION[a], VERSION[b])


def get_line():
    global line
    global line_number
    line = input_file.readline()
    line_number += 1
    if line == "":
        fatal("unexpected end of input")


n_errors = 0


def error(msg):
    global n_errors
    sys.stderr.write("%s:%d: %s\n" % (file_name, line_number, msg))
    n_errors += 1


def fatal(msg):
    error(msg)
    sys.exit(1)


def usage():
    argv0 = os.path.basename(sys.argv[0])
    print('''\
%(argv0)s, for extracting OpenFlow field properties from meta-flow.h
usage: %(argv0)s INPUT [--meta-flow | --nx-match]
  where INPUT points to lib/meta-flow.h in the source directory.
Depending on the option given, the output written to stdout is intended to be
saved either as lib/meta-flow.inc or lib/nx-match.inc for the respective C
file to #include.\
''' % {"argv0": argv0})
    sys.exit(0)


def make_sizeof(s):
    m = re.match(r'(.*) up to (.*)', s)
    if m:
        struct, member = m.groups()
        return "offsetof(%s, %s)" % (struct, member)
    else:
        return "sizeof(%s)" % s


def parse_oxms(s, prefix, n_bytes):
    if s == 'none':
        return ()

    return tuple(parse_oxm(s2.strip(), prefix, n_bytes) for s2 in s.split(','))


match_types = dict()


def parse_oxm(s, prefix, n_bytes):
    global match_types

    m = re.match('([A-Z0-9_]+)\(([0-9]+)\) since(?: OF(1\.[0-9]+) and)? v([12]\.[0-9]+)$', s)
    if not m:
        fatal("%s: syntax error parsing %s" % (s, prefix))

    name, oxm_type, of_version, ovs_version = m.groups()

    class_ = oxm_name_to_class(name)
    if class_ is None:
        fatal("unknown OXM class for %s" % name)
    oxm_vendor, oxm_class, oxm_class_type = class_

    if class_ in match_types:
        if oxm_type in match_types[class_]:
            fatal("duplicate match type for %s (conflicts with %s)" %
                  (name, match_types[class_][oxm_type]))
    else:
        match_types[class_] = dict()
    match_types[class_][oxm_type] = name

    # Normally the oxm_length is the size of the field, but for experimenter
    # OXMs oxm_length also includes the 4-byte experimenter ID.
    oxm_length = n_bytes
    if oxm_class == 0xffff:
        oxm_length += 4

    header = (oxm_vendor, oxm_class, int(oxm_type), oxm_length)

    if of_version:
        if oxm_class_type == 'extension':
            fatal("%s: OXM extension can't have OpenFlow version" % name)
        if of_version not in VERSION:
            fatal("%s: unknown OpenFlow version %s" % (name, of_version))
        of_version_nr = VERSION[of_version]
        if of_version_nr < VERSION['1.2']:
            fatal("%s: claimed version %s predates OXM" % (name, of_version))
    else:
        if oxm_class_type == 'standard':
            fatal("%s: missing OpenFlow version number" % name)
        of_version_nr = 0

    return (header, name, of_version_nr, ovs_version)


def parse_field(mff, comment):
    f = {'mff': mff}

    # First line of comment is the field name.
    m = re.match(r'"([^"]+)"(?:\s+\(aka "([^"]+)"\))?(?:\s+\(.*\))?\.', comment[0])
    if not m:
        fatal("%s lacks field name" % mff)
    f['name'], f['extra_name'] = m.groups()

    # Find the last blank line the comment.  The field definitions
    # start after that.
    blank = None
    for i in range(len(comment)):
        if not comment[i]:
            blank = i
    if not blank:
        fatal("%s: missing blank line in comment" % mff)

    d = {}
    for key in ("Type", "Maskable", "Formatting", "Prerequisites",
                "Access", "Prefix lookup member",
                "OXM", "NXM", "OF1.0", "OF1.1"):
        d[key] = None
    for fline in comment[blank + 1:]:
        m = re.match(r'([^:]+):\s+(.*)\.$', fline)
        if not m:
            fatal("%s: syntax error parsing key-value pair as part of %s"
                  % (fline, mff))
        key, value = m.groups()
        if key not in d:
            fatal("%s: unknown key" % key)
        elif key == 'Code point':
            d[key] += [value]
        elif d[key] is not None:
            fatal("%s: duplicate key" % key)
        d[key] = value
    for key, value in d.items():
        if not value and key not in ("OF1.0", "OF1.1",
                                     "Prefix lookup member", "Notes"):
            fatal("%s: missing %s" % (mff, key))

    m = re.match(r'([a-zA-Z0-9]+)(?: \(low ([0-9]+) bits\))?$', d['Type'])
    if not m:
        fatal("%s: syntax error in type" % mff)
    type_ = m.group(1)
    if type_ not in TYPES:
        fatal("%s: unknown type %s" % (mff, d['Type']))

    f['n_bytes'] = TYPES[type_][0]
    if m.group(2):
        f['n_bits'] = int(m.group(2))
        if f['n_bits'] > f['n_bytes'] * 8:
            fatal("%s: more bits (%d) than field size (%d)"
                  % (mff, f['n_bits'], 8 * f['n_bytes']))
    else:
        f['n_bits'] = 8 * f['n_bytes']
    f['variable'] = TYPES[type_][1]

    if d['Maskable'] == 'no':
        f['mask'] = 'MFM_NONE'
    elif d['Maskable'] == 'bitwise':
        f['mask'] = 'MFM_FULLY'
    else:
        fatal("%s: unknown maskable %s" % (mff, d['Maskable']))

    fmt = FORMATTING.get(d['Formatting'])
    if not fmt:
        fatal("%s: unknown format %s" % (mff, d['Formatting']))
    f['formatting'] = d['Formatting']
    if f['n_bytes'] < fmt[1] or f['n_bytes'] > fmt[2]:
        fatal("%s: %d-byte field can't be formatted as %s"
              % (mff, f['n_bytes'], d['Formatting']))
    f['string'] = fmt[0]

    f['prereqs'] = d['Prerequisites']
    if f['prereqs'] not in PREREQS:
        fatal("%s: unknown prerequisites %s" % (mff, d['Prerequisites']))

    if d['Access'] == 'read-only':
        f['writable'] = False
    elif d['Access'] == 'read/write':
        f['writable'] = True
    else:
        fatal("%s: unknown access %s" % (mff, d['Access']))

    f['OF1.0'] = d['OF1.0']
    if not d['OF1.0'] in (None, 'exact match', 'CIDR mask'):
        fatal("%s: unknown OF1.0 match type %s" % (mff, d['OF1.0']))

    f['OF1.1'] = d['OF1.1']
    if not d['OF1.1'] in (None, 'exact match', 'bitwise mask'):
        fatal("%s: unknown OF1.1 match type %s" % (mff, d['OF1.1']))

    f['OXM'] = (parse_oxms(d['OXM'], 'OXM', f['n_bytes']) +
                parse_oxms(d['NXM'], 'NXM', f['n_bytes']))

    f['prefix'] = d["Prefix lookup member"]

    return f


def protocols_to_c(protocols):
    if protocols == set(['of10', 'of11', 'oxm']):
        return 'OFPUTIL_P_ANY'
    elif protocols == set(['of11', 'oxm']):
        return 'OFPUTIL_P_NXM_OF11_UP'
    elif protocols == set(['oxm']):
        return 'OFPUTIL_P_NXM_OXM_ANY'
    elif protocols == set([]):
        return 'OFPUTIL_P_NONE'
    else:
        assert False


def autogen_c_comment():
    return [
"/* Generated automatically; do not modify!    -*- buffer-read-only: t -*- */",
""]

def make_meta_flow(meta_flow_h):
    fields = extract_ofp_fields(meta_flow_h)
    output = autogen_c_comment()
    for f in fields:
        output += ["{"]
        output += ["    %s," % f['mff']]
        if f['extra_name']:
            output += ["    \"%s\", \"%s\"," % (f['name'], f['extra_name'])]
        else:
            output += ["    \"%s\", NULL," % f['name']]

        if f['variable']:
            variable = 'true'
        else:
            variable = 'false'
        output += ["    %d, %d, %s," % (f['n_bytes'], f['n_bits'], variable)]

        if f['writable']:
            rw = 'true'
        else:
            rw = 'false'
        output += ["    %s, %s, %s, %s, false,"
                   % (f['mask'], f['string'], PREREQS[f['prereqs']], rw)]

        oxm = f['OXM']
        of10 = f['OF1.0']
        of11 = f['OF1.1']
        if f['mff'] in ('MFF_DL_VLAN', 'MFF_DL_VLAN_PCP'):
            # MFF_DL_VLAN and MFF_DL_VLAN_PCP don't exactly correspond to
            # OF1.1, nor do they have NXM or OXM assignments, but their
            # meanings can be expressed in every protocol, which is the goal of
            # this member.
            protocols = set(["of10", "of11", "oxm"])
        else:
            protocols = set([])
            if of10:
                protocols |= set(["of10"])
            if of11:
                protocols |= set(["of11"])
            if oxm:
                protocols |= set(["oxm"])

        if f['mask'] == 'MFM_FULLY':
            cidr_protocols = protocols.copy()
            bitwise_protocols = protocols.copy()

            if of10 == 'exact match':
                bitwise_protocols -= set(['of10'])
                cidr_protocols -= set(['of10'])
            elif of10 == 'CIDR mask':
                bitwise_protocols -= set(['of10'])
            else:
                assert of10 is None

            if of11 == 'exact match':
                bitwise_protocols -= set(['of11'])
                cidr_protocols -= set(['of11'])
            else:
                assert of11 in (None, 'bitwise mask')
        else:
            assert f['mask'] == 'MFM_NONE'
            cidr_protocols = set([])
            bitwise_protocols = set([])

        output += ["    %s," % protocols_to_c(protocols)]
        output += ["    %s," % protocols_to_c(cidr_protocols)]
        output += ["    %s," % protocols_to_c(bitwise_protocols)]

        if f['prefix']:
            output += ["    FLOW_U32OFS(%s)," % f['prefix']]
        else:
            output += ["    -1, /* not usable for prefix lookup */"]

        output += ["},"]
    for oline in output:
        print(oline)


def make_nx_match(meta_flow_h):
    fields = extract_ofp_fields(meta_flow_h)
    output = autogen_c_comment()
    print("static struct nxm_field_index all_nxm_fields[] = {")
    for f in fields:
        # Sort by OpenFlow version number (nx-match.c depends on this).
        for oxm in sorted(f['OXM'], key=lambda x: x[2]):
            header = ("NXM_HEADER(0x%x,0x%x,%s,0,%d)" % oxm[0])
            print("""{ .nf = { %s, %d, "%s", %s } },""" % (
                header, oxm[2], oxm[1], f['mff']))
    print("};")
    for oline in output:
        print(oline)


def extract_ofp_fields(fn):
    global file_name
    global input_file
    global line_number
    global line

    file_name = fn
    input_file = open(file_name)
    line_number = 0

    fields = []

    while True:
        get_line()
        if re.match('enum.*mf_field_id', line):
            break

    while True:
        get_line()
        first_line_number = line_number
        here = '%s:%d' % (file_name, line_number)
        if (line.startswith('/*')
            or line.startswith(' *')
            or line.startswith('#')
            or not line
            or line.isspace()):
            continue
        elif re.match('}', line) or re.match('\s+MFF_N_IDS', line):
            break

        # Parse the comment preceding an MFF_ constant into 'comment',
        # one line to an array element.
        line = line.strip()
        if not line.startswith('/*'):
            fatal("unexpected syntax between fields")
        line = line[1:]
        comment = []
        end = False
        while not end:
            line = line.strip()
            if line.startswith('*/'):
                get_line()
                break
            if not line.startswith('*'):
                fatal("unexpected syntax within field")

            line = line[1:]
            if line.startswith(' '):
                line = line[1:]
            if line.startswith(' ') and comment:
                continuation = True
                line = line.lstrip()
            else:
                continuation = False

            if line.endswith('*/'):
                line = line[:-2].rstrip()
                end = True
            else:
                end = False

            if continuation:
                comment[-1] += " " + line
            else:
                comment += [line]
            get_line()

        # Drop blank lines at each end of comment.
        while comment and not comment[0]:
            comment = comment[1:]
        while comment and not comment[-1]:
            comment = comment[:-1]

        # Parse the MFF_ constant(s).
        mffs = []
        while True:
            m = re.match('\s+(MFF_[A-Z0-9_]+),?\s?$', line)
            if not m:
                break
            mffs += [m.group(1)]
            get_line()
        if not mffs:
            fatal("unexpected syntax looking for MFF_ constants")

        if len(mffs) > 1 or '<N>' in comment[0]:
            for mff in mffs:
                # Extract trailing integer.
                m = re.match('.*[^0-9]([0-9]+)$', mff)
                if not m:
                    fatal("%s lacks numeric suffix in register group" % mff)
                n = m.group(1)

                # Search-and-replace <N> within the comment,
                # and drop lines that have <x> for x != n.
                instance = []
                for x in comment:
                    y = x.replace('<N>', n)
                    if re.search('<[0-9]+>', y):
                        if ('<%s>' % n) not in y:
                            continue
                        y = re.sub('<[0-9]+>', '', y)
                    instance += [y.strip()]
                fields += [parse_field(mff, instance)]
        else:
            fields += [parse_field(mffs[0], comment)]
        continue

    input_file.close()

    if n_errors:
        sys.exit(1)

    return fields

## ------------------------ ##
## Documentation Generation ##
## ------------------------ ##

def field_to_xml(field_node, f, body, summary):
    f["used"] = True

    # Summary.
    if field_node.hasAttribute('internal'):
        return

    min_of_version = None
    min_ovs_version = None
    for header, name, of_version_nr, ovs_version_s in f['OXM']:
        if (is_standard_oxm(name)
            and (min_ovs_version is None or of_version_nr < min_of_version)):
            min_of_version = of_version_nr
        ovs_version = [int(x) for x in ovs_version_s.split('.')]
        if min_ovs_version is None or ovs_version < min_ovs_version:
            min_ovs_version = ovs_version
    summary += ["\\fB%s\\fR" % f["name"]]
    if f["extra_name"]:
        summary += [" aka \\fB%s\\fR" % f["extra_name"]]
    summary += [";%d" % f["n_bytes"]]
    if f["n_bits"] != 8 * f["n_bytes"]:
        summary += [" (low %d bits)" % f["n_bits"]]
    summary += [";%s;" % {"MFM_NONE": "no", "MFM_FULLY": "yes"}[f["mask"]]]
    summary += ["%s;" % {True: "yes", False: "no"}[f["writable"]]]
    summary += ["%s;" % f["prereqs"]]
    support = []
    if min_of_version is not None:
        support += ["OF %s+" % VERSION_REVERSE[min_of_version]]
    if min_ovs_version is not None:
        support += ["OVS %s+" % '.'.join([str(x) for x in min_ovs_version])]
    summary += ' and '.join(support)
    summary += ["\n"]

    # Full description.
    if field_node.hasAttribute('hidden'):
        return

    title = field_node.attributes['title'].nodeValue

    body += [""".PP
\\fB%s Field\\fR
.TS
tab(;),nowarn;
l lx.
""" % title]

    body += ["Name:;\\fB%s\\fR" % f["name"]]
    if f["extra_name"]:
        body += [" (aka \\fB%s\\fR)" % f["extra_name"]]
    body += ['\n']

    body += ["Width:;"]
    if f["n_bits"] != 8 * f["n_bytes"]:
        body += ["%d bits (only the least-significant %d bits "
                 "may be nonzero)" % (f["n_bytes"] * 8, f["n_bits"])]
    elif f["n_bits"] <= 128:
        body += ["%d bits" % f["n_bits"]]
    else:
        body += ["%d bits (%d bytes)" % (f["n_bits"], f["n_bits"] / 8)]
    body += ['\n']

    body += ["Format:;%s\n" % f["formatting"]]

    masks = {"MFM_NONE": "not maskable",
             "MFM_FULLY": "arbitrary bitwise masks"}
    body += ["Masking:;%s\n" % masks[f["mask"]]]
    body += ["Prerequisites:;%s\n" % f["prereqs"]]

    access = {True: "read/write",
              False: "read-only"}[f["writable"]]
    body += ["Access:;%s\n" % access]

    of10 = {None: "not supported",
            "exact match": "yes (exact match only)",
            "CIDR mask": "yes (CIDR match only)"}
    body += ["OpenFlow 1.0:;%s\n" % of10[f["OF1.0"]]]

    of11 = {None: "not supported",
            "exact match": "yes (exact match only)",
            "bitwise mask": "yes"}
    body += ["OpenFlow 1.1:;%s\n" % of11[f["OF1.1"]]]

    oxms = []
    for header, name, of_version_nr, ovs_version in [x for x in sorted(f['OXM'], key=lambda x: x[2]) if is_standard_oxm(x[1])]:
        of_version = VERSION_REVERSE[of_version_nr]
        oxms += [r"\fB%s\fR (%d) since OpenFlow %s and Open vSwitch %s" % (name, header[2], of_version, ovs_version)]
    if not oxms:
        oxms = ['none']
    body += ['OXM:;T{\n%s\nT}\n' % r'\[char59] '.join(oxms)]

    nxms = []
    for header, name, of_version_nr, ovs_version in [x for x in sorted(f['OXM'], key=lambda x: x[2]) if not is_standard_oxm(x[1])]:
        nxms += [r"\fB%s\fR (%d) since Open vSwitch %s" % (name, header[2], ovs_version)]
    if not nxms:
        nxms = ['none']
    body += ['NXM:;T{\n%s\nT}\n' % r'\[char59] '.join(nxms)]

    body += [".TE\n"]

    body += ['.PP\n']
    body += [nroff.block_xml_to_nroff(field_node.childNodes)]

def group_xml_to_nroff(group_node, fields):
    title = group_node.attributes['title'].nodeValue

    summary = []
    body = []
    for node in group_node.childNodes:
        if node.nodeType == node.ELEMENT_NODE and node.tagName == 'field':
            id_ = node.attributes['id'].nodeValue
            field_to_xml(node, fields[id_], body, summary)
        else:
            body += [nroff.block_xml_to_nroff([node])]

    content = [
        '.bp\n',
        '.SH \"%s\"\n' % nroff.text_to_nroff(title.upper() + " FIELDS"),
        '.SS "Summary:"\n',
        '.TS\n',
        'tab(;),nowarn;\n',
        'l l l l l l l.\n',
        'Name;Bytes;Mask;RW?;Prereqs;NXM/OXM Support\n',
        '\_;\_;\_;\_;\_;\_\n']
    content += summary
    content += ['.TE\n']
    content += body
    return ''.join(content)

def make_oxm_classes_xml(document):
    s = '''tab(;),nowarn;
l l l.
Prefix;Vendor;Class
\_;\_;\_
'''
    for key in sorted(OXM_CLASSES, key=OXM_CLASSES.get):
        vendor, class_, class_type = OXM_CLASSES.get(key)
        s += r"\fB%s\fR;" % key.rstrip('_')
        if vendor:
            s += r"\fL0x%08x\fR;" % vendor
        else:
            s += "(none);"
        s += r"\fL0x%04x\fR;" % class_
        s += "\n"
    e = document.createElement('tbl')
    e.appendChild(document.createTextNode(s))
    return e

def recursively_replace(node, name, replacement):
    for child in node.childNodes:
        if child.nodeType == node.ELEMENT_NODE:
            if child.tagName == name:
                node.replaceChild(replacement, child)
            else:
                recursively_replace(child, name, replacement)

def make_ovs_fields(meta_flow_h, meta_flow_xml):
    fields = extract_ofp_fields(meta_flow_h)
    fields_map = {}
    for f in fields:
        fields_map[f['mff']] = f

    document = xml.dom.minidom.parse(meta_flow_xml)
    doc = document.documentElement

    global version
    if version == None:
        version = "UNKNOWN"

    print('''\
'\\" tp
.\\" -*- mode: troff; coding: utf-8 -*-
.TH "ovs\-fields" 7 "%s" "Open vSwitch" "Open vSwitch Manual"
.fp 5 L CR              \\" Make fixed-width font available as \\fL.
.de ST
.  PP
.  RS -0.15in
.  I "\\\\$1"
.  RE
..

.de SU
.  PP
.  I "\\\\$1"
..

.de IQ
.  br
.  ns
.  IP "\\\\$1"
..

.de TQ
.  br
.  ns
.  TP "\\\\$1"
..
.de URL
\\\\$2 \\(laURL: \\\\$1 \\(ra\\\\$3
..
.if \\n[.g] .mso www.tmac
.SH NAME
ovs\-fields \- protocol header fields in OpenFlow and Open vSwitch
.
.PP
''' % version)

    recursively_replace(doc, 'oxm_classes', make_oxm_classes_xml(document))

    s = ''
    for node in doc.childNodes:
        if node.nodeType == node.ELEMENT_NODE and node.tagName == "group":
            s += group_xml_to_nroff(node, fields_map)
        elif node.nodeType == node.TEXT_NODE:
            assert node.data.isspace()
        elif node.nodeType == node.COMMENT_NODE:
            pass
        else:
            s += nroff.block_xml_to_nroff([node])

    for f in fields:
        if "used" not in f:
            fatal("%s: field not documented "
                  "(please add documentation in lib/meta-flow.xml)"
                  % f["mff"])
    if n_errors:
        sys.exit(1)

    output = []
    for oline in s.split("\n"):
        oline = oline.strip()

        # Life is easier with nroff if we don't try to feed it Unicode.
        # Fortunately, we only use a few characters outside the ASCII range.
        oline = oline.replace(u'\u2208', r'\[mo]')
        oline = oline.replace(u'\u2260', r'\[!=]')
        oline = oline.replace(u'\u2264', r'\[<=]')
        oline = oline.replace(u'\u2265', r'\[>=]')
        oline = oline.replace(u'\u00d7', r'\[mu]')
        if len(oline):
            output += [oline]

    # nroff tends to ignore .bp requests if they come after .PP requests,
    # so remove .PPs that precede .bp.
    for i in range(len(output)):
        if output[i] == '.bp':
            j = i - 1
            while j >= 0 and output[j] == '.PP':
                output[j] = None
                j -= 1
    for i in range(len(output)):
        if output[i] is not None:
            print(output[i])

## ------------ ##
## Main Program ##
## ------------ ##

if __name__ == "__main__":
    argv0 = sys.argv[0]
    try:
        options, args = getopt.gnu_getopt(sys.argv[1:], 'h',
                                          ['help', 'ovs-version='])
    except getopt.GetoptError as geo:
        sys.stderr.write("%s: %s\n" % (argv0, geo.msg))
        sys.exit(1)

    global version
    version = None
    for key, value in options:
        if key in ['-h', '--help']:
            usage()
        elif key == '--ovs-version':
            version = value
        else:
            sys.exit(0)

    if not args:
        sys.stderr.write("%s: missing command argument "
                         "(use --help for help)\n" % argv0)
        sys.exit(1)

    commands = {"meta-flow": (make_meta_flow, 1),
                "nx-match": (make_nx_match, 1),
                "ovs-fields": (make_ovs_fields, 2)}

    if not args[0] in commands:
        sys.stderr.write("%s: unknown command \"%s\" "
                         "(use --help for help)\n" % (argv0, args[0]))
        sys.exit(1)

    func, n_args = commands[args[0]]
    if len(args) - 1 != n_args:
        sys.stderr.write("%s: \"%s\" requires %d arguments but %d "
                         "provided\n"
                         % (argv0, args[0], n_args, len(args) - 1))
        sys.exit(1)

    func(*args[1:])
