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/usr/share/pyshared/pysnmp/proto/rfc1902.py is in python-pysnmp4 4.2.5-1.

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The actual contents of the file can be viewed below.

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from pyasn1.type import univ, tag, constraint, namedtype, namedval
from pysnmp.proto import rfc1155, error

class Integer(univ.Integer):
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        -2147483648, 2147483647
        )

class Integer32(univ.Integer):
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        -2147483648, 2147483647
        )
    
class OctetString(univ.OctetString):
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueSizeConstraint(
        0, 65535
        )
    # rfc1902 uses a notion of "fixed length string" what might mean
    # having zero-range size constraint applied. The following is
    # supposed to be used for setting and querying this property.
    
    fixedLength = None
    
    def setFixedLength(self, value):
        self.fixedLength = value
        return self
    
    def isFixedLength(self):
        return self.fixedLength is not None

    def getFixedLength(self):
        return self.fixedLength

class IpAddress(univ.OctetString):
    tagSet = univ.OctetString.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x00)
        )
    subtypeSpec = univ.OctetString.subtypeSpec+constraint.ValueSizeConstraint(
        4, 4
        )
    fixedLength = 4

    def prettyIn(self, value):
        if isinstance(value, str) and len(value) != 4:
            try:
                value = [ int(x) for x in value.split('.') ]
            except:
                raise error.ProtocolError('Bad IP address syntax %s' %  value)
        value = univ.OctetString.prettyIn(self, value)
        if len(value) != 4:
            raise error.ProtocolError('Bad IP address syntax')
        return value

    def prettyOut(self, value):
        if value:
            return '.'.join(
                [ '%d' % x for x in self.__class__(value).asNumbers() ]
            )
        else:
            return ''

class Counter32(univ.Integer):
    tagSet = univ.Integer.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x01)
        )
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        0, 4294967295
        )

class Gauge32(univ.Integer):
    tagSet = univ.Integer.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x02)
        )
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        0, 4294967295
        )

class Unsigned32(univ.Integer):
    tagSet = univ.Integer.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x02)
        )
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        0, 4294967295
        )

class TimeTicks(univ.Integer):
    tagSet = univ.Integer.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x03)
        )
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        0, 4294967295
        )

class Opaque(univ.OctetString):
    tagSet = univ.OctetString.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x04)
        )

class Counter64(univ.Integer):
    tagSet = univ.Integer.tagSet.tagImplicitly(
        tag.Tag(tag.tagClassApplication, tag.tagFormatSimple, 0x06)
        )
    subtypeSpec = univ.Integer.subtypeSpec+constraint.ValueRangeConstraint(
        0, 18446744073709551615
        )

class Bits(univ.OctetString):
    namedValues = namedval.NamedValues()
    def __init__(self, value=None, tagSet=None, subtypeSpec=None,
                 namedValues=None):
        if namedValues is None:
            self.__namedValues = self.namedValues
        else:
            self.__namedValues = namedValues
        univ.OctetString.__init__(
            self, value, tagSet, subtypeSpec
            )

    def prettyIn(self, bits):
        if not isinstance(bits, (tuple, list)):
            return univ.OctetString.prettyIn(self, bits) # raw bitstring
        octets = []
        for bit in bits: # tuple of named bits
            v = self.__namedValues.getValue(bit)
            if v is None:
                raise error.ProtocolError(
                    'Unknown named bit %s' % bit
                    )
            d, m = divmod(v, 8)
            if d >= len(octets):
                octets.extend([0] * (d - len(octets) + 1))
            octets[d] = octets[d] | 0x01 << (7-m)
        return univ.OctetString.prettyIn(self, octets)

    def prettyOut(self, value):
        names = []
        ints = self.__class__(value).asNumbers()
        i = 0
        while i < len(ints):
            v = ints[i]
            j = 7
            while j >= 0:
                if v & (0x01<<j):
                    name = self.__namedValues.getName(i*8+7-j)
                    if name is None:
                        raise error.ProtocolError(
                            'Unknown named value %s' % v
                            )
                    names.append(name)
                j = j - 1
            i = i + 1
        return ', '.join([ str(x) for x in names ])

    def clone(self, value=None, tagSet=None, subtypeSpec=None,
              namedValues=None):
        if value is None and tagSet is None and subtypeSpec is None \
               and namedValues is None:
            return self
        if value is None:
            value = self._value
        if tagSet is None:
            tagSet = self._tagSet
        if subtypeSpec is None:
            subtypeSpec = self._subtypeSpec
        if namedValues is None:
            namedValues = self.__namedValues
        return self.__class__(value, tagSet, subtypeSpec, namedValues)

    def subtype(self, value=None, implicitTag=None, explicitTag=None,
                subtypeSpec=None, namedValues=None):
        if value is None:
            value = self._value
        if implicitTag is not None:
            tagSet = self._tagSet.tagImplicitly(implicitTag)
        elif explicitTag is not None:
            tagSet = self._tagSet.tagExplicitly(explicitTag)
        else:
            tagSet = self._tagSet
        if subtypeSpec is None:
            subtypeSpec = self._subtypeSpec
        else:
            subtypeSpec = subtypeSpec + self._subtypeSpec
        if namedValues is None:
            namedValues = self.__namedValues
        else:
            namedValues = namedValues + self.__namedValues
        return self.__class__(value, tagSet, subtypeSpec, namedValues)

class ObjectName(univ.ObjectIdentifier): pass

class SimpleSyntax(rfc1155.TypeCoercionHackMixIn, univ.Choice):
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('integer-value', Integer()),
        namedtype.NamedType('string-value', OctetString()),
        namedtype.NamedType('objectID-value', univ.ObjectIdentifier())
        )

class ApplicationSyntax(rfc1155.TypeCoercionHackMixIn, univ.Choice):
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('ipAddress-value', IpAddress()),
        namedtype.NamedType('counter-value', Counter32()),
        namedtype.NamedType('timeticks-value', TimeTicks()),
        namedtype.NamedType('arbitrary-value', Opaque()),
        namedtype.NamedType('big-counter-value', Counter64()),
# This conflicts with Counter32
#        namedtype.NamedType('unsigned-integer-value', Unsigned32()),
        namedtype.NamedType('gauge32-value', Gauge32())
        ) # BITS misplaced?

class ObjectSyntax(univ.Choice):
    componentType = namedtype.NamedTypes(
        namedtype.NamedType('simple', SimpleSyntax()),
        namedtype.NamedType('application-wide', ApplicationSyntax())
        )