Communications device, infrastructure equipment and methods for differentiating between 2-step RACH and 4-step RACH

What is claimed is: 1. A method of operating a communications device in a wireless communications network, the method comprising: transmitting a random access message on a wireless access interface, the random access message comprising a selected random access preamble, receiving a resource allocation message comprising an indication of downlink communications resources allocated for the transmission of a random access response message combined with a radio network terminal identifier which identifies the communications device which transmitted the random access message, determining that the resource allocation message identifies the communications device, and in response to determining that the resource allocation message identifies the communications device, receiving and decoding the signals transmitted using the allocated downlink communications resources, wherein the determining that the resource allocation message identifies the communications device comprises: calculating the radio network terminal identifier which is used in the resource allocation message to identify the communications device using an offset relative to a starting symbol of a physical random access channel (PRACH) occasion, and confirming that the calculated radio network terminal identifier corresponds with the radio network terminal identifier present in the resources allocation message, and wherein the method further comprises receiving a plurality of offsets in a broadcast transmission from an infrastructure equipment of the wireless communications network, the communications device being configured to select one of the offsets to generate the radio network terminal identifier for each PRACH occasion. 2. The method according to claim 1 , wherein the wireless access interface is divided in time into timeslots, each time slot including a plurality of Orthogonal Frequency Division Multiplexed (OFDM) symbols having in the frequency domain a plurality of sub-carriers, and provides the PRACH on an uplink carrier in one or more of the time slots, the selected random access preamble being transmitted using time and frequency communications resources corresponding to the PRACH occasion, and the calculating the radio network terminal identifier comprises calculating the radio network terminal identifier based on one or more of: an index of a first of a plurality of OFDM symbols of a time slot of the PRACH occasion from which the transmission of the selected random access preamble begins, the selected random access preamble occupying a plurality of the OFM symbols, an index of a time slot number in which the selected random access preamble was transmitted in a PRACH occasion in a system frame, a subcarrier spacing, an index of the PRACH occasion in the frequency domain, and an uplink carrier used. 3. The method according to claim 2 , wherein the offset is an offset added to one or more of: the index of the first of the plurality of OFDM symbols of the time slot of the PRACH occasion from which the transmission of the selected random access preamble begins, the selected random access preamble occupying a plurality of the OFM symbols, the index of the time slot number in which the selected random access preamble was transmitted in a PRACH occasion in a system frame, and the index of the PRACH occasion in the frequency domain. 4. The method according to claim 3 , wherein the calculating the radio network terminal identifier comprises calculating the radio network terminal identifier by adding the offset to the index of the first of the plurality of OFDM symbols of the time slot of the PRACH occasion from which the transmission of the selected random access preamble begins. 5. The method according to claim 4 , wherein the offset does not represent a change in the first of the plurality of OFDM symbols from which the transmission of the selected random access preamble begins. 6. The method according to claim 4 , wherein the calculating the radio network terminal identifier comprises calculating the radio network terminal identifier according to the equation: MsgB-RNTI=1 +s _new_id+14 ×t _id+id+14×80 ×f _id+14×80×8×ul_carrier_id, wherein s_new_id=(s_id+s_offset) modulus 14 , and s_offset is an offset vale (0≤s_offset<14), s_id is the index of the first OFDM symbol of the PRACH occasion (0≤s_id<14), t_id is the index of the first slot of the PRACH occasion in a system frame (0≤t_id<80), f_id is the index of the PRACH occasion in the frequency domain (0≤f_id<8), and ul_carrier_id is the uplink carrier used for the selected random access preamble transmission. 7. The method according to claim 3 , wherein the calculating the radio network terminal identifier comprises calculating the radio network terminal identifier by adding the offset to the index of the slot number identifying a slot of a radio frame of the PRACH occasion in which the selected random access preamble was transmitted. 8. The method according to claim 7 , wherein the offset does not represent a change in the time slot of the radio frame in which the selected random access preamble was transmitted. 9. The method according to claim 7 , wherein the calculating the radio network terminal identifier comprises calculating the radio network terminal identifier according to the equation: MsgB-RNTI=1+s_id+14 xt _new_id+14×80 ×f _id+14×80×8×ul_carrier_id, wherein t_new_id=t_id+t_offset; where t_offset is an offset value (0≤t_offset<80) from a time slot t_id which is the index of the first slot of the PRACH occasion in a system frame (0≤id<80) in which the random access preamble was transmitted, s_id is the index of the first OFDM symbol of the PRACH occasion (0≤s_id<14), f_id is the index of the PRACH occasion in the frequency domain (0≤f_id<8), and ul_carrier_id is the uplink carrier used for the selected random access preamble transmission. 10. The method according to claim 9 , wherein t_new_id=t_id+1. 11. The method according to claim 9 , wherein t_new_id=t_id−1; when t_id>0. 12. The method according to claim 1 , wherein the transmitting the random access message on a wireless access interface and the receiving the resource allocation message is in accordance with a two-step random access process and the radio network identifier is a radio network identifier for a Message B of the two-step random access process. 13. The method according to claim 1 , wherein the transmitting the random access message on a wireless access interface and the receiving the resource allocation message is in accordance with a random access process and the radio network identifier is a radio network identifier for a Contention Free Random Access process (CFRA) or a Contention Based Random Access process. 14. The method according to claim 1 , wherein the broadcast transmission in a transmission of a system information block. 15. The method according to claim 1 , wherein the receiving the offset by the communications device comprises receiving the offset from an infrastructure equipment of the wireless communications network when the communications device is in a connected mode. 16. A communications device for communicating in a wireless communications network, the communications device comprising: transmitter circuitry configured to transmit signals via a wireless access interface provided by the wireless communications network, receiver circuitry configured to receive signals transmitted via the wireless access interface, and controller circuitry configured with the transmitter circuitry to transmit a random access message on a wireless access interface, the random access me