In [1]:
from konfoo import Index, Byteorder, IPv4Address
Item type of the field class.
In [2]:
IPv4Address.item_type
Out[2]:
Checks if the field class is a bit field.
In [3]:
IPv4Address.is_bit()
Out[3]:
Checks if the field class is a boolean field.
In [4]:
IPv4Address.is_bool()
Out[4]:
Checks if the field class is a decimal number field.
In [5]:
IPv4Address.is_decimal()
Out[5]:
Checks if the field class is a floating point number field.
In [6]:
IPv4Address.is_float()
Out[6]:
Checks if the field class is a pointer field.
In [7]:
IPv4Address.is_pointer()
Out[7]:
Checks if the field class is a stream field.
In [8]:
IPv4Address.is_stream()
Out[8]:
Checks if the field class is a string field.
In [9]:
IPv4Address.is_string()
Out[9]:
In [10]:
ipv4 = IPv4Address(byte_order='auto')
In [11]:
ipv4 = IPv4Address()
In [12]:
ipv4
Out[12]:
In [13]:
str(ipv4)
Out[13]:
In [14]:
repr(ipv4)
Out[14]:
In [15]:
ipv4.name
Out[15]:
In [16]:
ipv4.index
Out[16]:
Byte index of the field within the byte stream.
In [17]:
ipv4.index.byte
Out[17]:
Bit offset relative to the byte index of the field within the byte stream.
In [18]:
ipv4.index.bit
Out[18]:
Absolute address of the field within the data source.
In [19]:
ipv4.index.address
Out[19]:
Base address of the byte stream within the data source.
In [20]:
ipv4.index.base_address
Out[20]:
Indexes the field and returns the index after the field.
In [21]:
ipv4.index_field(index=Index())
Out[21]:
In [22]:
ipv4.alignment
Out[22]:
Byte size of the field group which the field is aligned to.
In [23]:
ipv4.alignment.byte_size
Out[23]:
Bit offset of the field within its aligned field group.
In [24]:
ipv4.alignment.bit_offset
Out[24]:
In [25]:
ipv4.bit_size
Out[25]:
In [26]:
ipv4.byte_order
Out[26]:
In [27]:
ipv4.byte_order.value
Out[27]:
In [28]:
ipv4.byte_order.name
Out[28]:
In [29]:
ipv4.byte_order = 'auto'
In [30]:
ipv4.byte_order = Byteorder.auto
Checks if the decimal field is signed or unsigned.
In [31]:
ipv4.signed
Out[31]:
Maximal decimal field value.
In [32]:
ipv4.max()
Out[32]:
Minimal decimal field value.
In [33]:
ipv4.min()
Out[33]:
Returns the ipv4address field value as an IPv4 address formatted string.
In [34]:
ipv4.value
Out[34]:
Returns the decimal field value aligned to its field group as a number of bytes.
In [35]:
bytes(ipv4)
Out[35]:
In [36]:
bytes(ipv4).hex()
Out[36]:
Returns the decimal field value as an integer number.
In [37]:
int(ipv4)
Out[37]:
Returns the decimal field value as an floating point number.
In [38]:
float(ipv4)
Out[38]:
Returns the decimal field value as a lowercase hexadecimal string prefixed with 0x.
In [39]:
hex(ipv4)
Out[39]:
Returns the decimal field value as a binary string prefixed with 0b.
In [40]:
bin(ipv4)
Out[40]:
Returns the decimal field value as an octal string prefixed with 0o.
In [41]:
oct(ipv4)
Out[41]:
Returns the decimal field value as a boolean value.
In [42]:
bool(ipv4)
Out[42]:
Returns the decimal field value as a signed integer number.
In [43]:
ipv4.as_signed()
Out[43]:
Returns the decimal field value as an unsigned integer number.
In [44]:
ipv4.as_unsigned()
Out[44]:
Returns the meatadata of the field as an ordered dictionary.
In [45]:
ipv4.describe()
Out[45]:
In [46]:
ipv4.deserialize(bytes.fromhex('01000000'), byte_order='little')
Out[46]:
In [47]:
ipv4.value
Out[47]:
In [48]:
bytes(ipv4)
Out[48]:
In [49]:
bytes(ipv4).hex()
Out[49]:
In [50]:
int(ipv4)
Out[50]:
In [51]:
float(ipv4)
Out[51]:
In [52]:
hex(ipv4)
Out[52]:
In [53]:
bin(ipv4)
Out[53]:
In [54]:
oct(ipv4)
Out[54]:
In [55]:
bool(ipv4)
Out[55]:
In [56]:
buffer = bytearray()
In [57]:
ipv4.value = 1
In [58]:
ipv4.value = 0x1
In [59]:
ipv4.value = 0b1
In [60]:
ipv4.value = 0o1
In [61]:
ipv4.value = True
In [62]:
ipv4.value = '0.0.0.1'
In [63]:
ipv4.serialize(buffer, byte_order='little')
Out[63]:
In [64]:
buffer.hex()
Out[64]:
In [65]:
bytes(ipv4).hex()
Out[65]:
In [ ]: