Drill string apparatus with integrated annular barrier and port collar, methods, and systems

What is claimed is: 1. A directional drill string apparatus, comprising: an upper casing section comprising a port collar that provides an opening from the upper casing section to an annulus around the upper casing section; and a lower casing section coupled to the upper casing section through a swivel, the lower casing section comprising: an annular barrier coupled to an external portion of the lower casing section, wherein the annular barrier is expandable to an annulus around the lower casing section prior to cementing; and a casing pad coupled to an external portion of the lower casing section; wherein rotation of the lower casing section is impeded via the casing pad while the upper casing section is rotatable; a rotary steerable system (RSS) and RSS housing disposed within and coupled to the lower casing section such that rotational movement between the RSS and the lower casing section is impeded; and a drill bit coupled to an internal shaft of the RSS. 2. The drill string apparatus of claim 1 , wherein the RSS housing is coupled to the lower casing with at least one set of latches. 3. The drill string apparatus of claim 1 , further comprising a mud motor coupled to a driveshaft wherein the driveshaft is coupled to the internal shaft of the RSS. 4. The drill string apparatus of claim 1 , further comprising an underreamer coupled to the internal shaft of the RSS between the drill bit and the RSS. 5. The drill string apparatus of claim 1 , wherein the drill bit further comprises an underreamer. 6. The drill string apparatus of claim 1 , wherein the annular barrier comprises an external casing packer that is configured to expand with fluid. 7. The drill string apparatus of claim 1 , wherein the upper casing section comprises an upper liner section and the lower casing section is a lower liner section. 8. A method for drilling and cementing comprising: performing a drilling operation, with a bottom hole assembly coupled to a lower section of a casing, to create a wellbore; opening ports in an upper section of the casing; expanding an external packer in the lower section of the casing against the wellbore wall, wherein the lower casing section is rotatably coupled to the upper section of the casing; pumping a cement slurry and a cement displacement plug downhole through the casing wherein the open ports are configured to allow the cement slurry to exit the upper section of the casing to an annulus and the external packer is configured to stop the cement slurry from continuing downhole past the external packer; and impeding rotation of the lower section of the casing with respect to the upper section of casing. 9. The method of claim 8 , wherein the drilling operation comprises a directional casing-while-drilling operation. 10. The method of claim 8 , wherein the drilling operation comprises a directional liner-while-drilling operation. 11. The method of claim 8 , further comprising rotating the upper section of the casing while pumping the cement slurry. 12. The method of claim 8 , wherein the drilling operation comprises a steerable drilling operation. 13. The method of claim 8 , further comprising removing the bottom hole assembly prior to pumping the cement slurry. 14. A drilling system comprising: a drill string apparatus comprising: an upper casing section comprising a port collar comprising a controllable opening from an interior of the upper casing section to an annulus surrounding the upper casing section; a lower casing section rotatably coupled to the upper casing section through a swivel, the lower casing section comprising: an external casing packer, coupled to an external portion of the lower casing section, the external casing packer configured to expand against a wellbore wall before cement operation; and wherein the upper casing section is configured to rotate during the cement operation while rotation of the lower casing section is impeded with respect to the upper casing section; a rotary steerable system (RSS) and RSS housing disposed within and coupled to the lower casing section such that rotational movement between the RSS and the lower casing section is impeded; and a drill bit coupled to an internal shaft of the RSS. 15. The drilling system of claim 14 , further comprising a casing pad coupled to the lower casing section above the external casing packer and configured to impede rotation of the lower casing section. 16. The drilling system of claim 14 , wherein the RSS housing is coupled to the lower casing section with at least one set of latches.