Storm packer anchor and setting tool

What is claimed is: 1. An anchor-packer assembly, comprising: a packer having a slips assembly and a seal, wherein the slips assembly and the seal are radially expandable so as to engage a surrounding tubular; and an anchor coupled to the packer, wherein the anchor comprises a slips assembly and is configured to transmit a first torque and a first axial force to the packer, to set the packer, wherein the anchor is configured to be actuated from an anchor running position in which the slips assembly thereof is retracted, to an anchor set position, in which the slips assembly thereof is expanded radially outward, in response to a second torque and a second axial force, and wherein the anchor in the anchor set position is configured to prevent an uphole-directed force on the packer from releasing the slips assembly of the packer from engagement with the surrounding tubular. 2. The anchor-packer assembly of claim 1 , wherein the packer is configured to connect to a tailpipe but is not connected to the tailpipe when the packer is connected to the anchor, and wherein the anchor is free from sealing elements. 3. The anchor-packer assembly of claim 1 , wherein the anchor comprises an inner mandrel, and wherein the slips assembly of the anchor and the slips assembly of the packer are both configured to be set in the surrounding tubular by selectively rotating the inner mandrel in a right-hand rotational direction and selectively moving the inner mandrel of the anchor a first axial direction. 4. The anchor-packer assembly of claim 1 , wherein: the packer comprises an upper sub, a packer mandrel and a control body, wherein the packer mandrel is actuated from a packer running position to a packer set position by rotating the upper sub and packer mandrel relative to the control body and then moving the upper sub and packer mandrel in a first axial direction relative to the control body; and the anchor comprises an inner mandrel, a torque mandrel positioned around the inner mandrel and coupled to the packer mandrel so as to be rotatable and axially movable only along with the packer mandrel, and a setting control assembly coupled to the inner mandrel and the torque mandrel, the setting control assembly comprising: a clutch configured to selectively permit or prevent the inner mandrel to rotate relative to the torque mandrel depending on whether the packer is in the packer set position or the packer running position; and a locking mechanism configured to selectively permit the inner mandrel to move in a first axial direction or a second axial direction relative to the torque mandrel. 5. The anchor-packer assembly of claim 4 , wherein the packer further comprises drag blocks coupled to the control body, the drag blocks being configured to engage the surrounding tubular so as to permit the packer mandrel to move relative to the control body in response to movement of the torque mandrel of the anchor and upper sub of the packer. 6. The anchor-packer assembly of claim 4 , wherein the packer comprises a J-slot formed in the packer mandrel, and a pin received into the J-slot and through the control body. 7. The anchor-packer assembly of claim 4 , wherein the clutch transmits torque between the inner mandrel and the torque mandrel up to a predetermined amount of torque, and permits rotation of the inner mandrel relative to the torque mandrel by application of a torque that exceeds the predetermined amount of torque. 8. The anchor-packer assembly of claim 7 , wherein, when the packer is in the packer running position, the packer mandrel is configured to rotate relative to the control body by application of a torque to the packer mandrel that is below the predetermined amount of torque, and wherein, when the packer is in the packer set position, the packer mandrel is not rotatable relative to the control body by application of less than or equal to the predetermined amount of torque. 9. The anchor-packer assembly of claim 4 , wherein the locking mechanism has a first locked condition and an unlocked condition, wherein, in the first locked condition, the locking mechanism prevents the inner mandrel from sliding relative to the torque mandrel in at least the first axial direction, and wherein, in the unlocked condition, the inner mandrel is slidable in the first axial direction relative to the torque mandrel. 10. The anchor-packer assembly of claim 9 , wherein the locking mechanism is actuated from the first locked condition to the unlocked condition by rotating the inner mandrel relative to the torque mandrel. 11. The anchor-packer assembly of claim 10 , wherein the locking mechanism includes a second locked condition, wherein the locking mechanism is actuated from the unlocked condition to the second locked condition by sliding the inner mandrel axially with respect to the torque mandrel in the first axial direction, and wherein the locking mechanism in the second locked condition prevents the inner mandrel from sliding in a second axial direction relative to the torque mandrel, wherein moving the inner mandrel in the first axial direction extends the slips assembly of the anchor radially outward, and the locking mechanism in the second locked condition prevents the slips assembly of the anchor from retracting. 12. An anchor for a storm packer, the anchor comprising: a torque mandrel configured to connect to a packer mandrel of the storm packer and configured to transmit torque and axial forces thereto; an inner mandrel positioned at least partially within the torque mandrel; a clutch coupled to the inner mandrel and the torque mandrel, wherein the clutch is configured to transmit torque between the inner mandrel and the torque mandrel up to a predetermined amount of torque, and to permit relative rotation therebetween at a torque above the predetermined amount of torque, wherein the storm packer in a running position is rotatable by rotating the torque mandrel in a first rotational direction; a slips assembly positioned around the inner mandrel and extendable radially outward by moving the inner mandrel in a first axial direction relative to the torque mandrel; and a locking mechanism to selectively couple the torque mandrel to the inner mandrel, the locking mechanism having: a first locked condition that permits the inner mandrel to rotate relative to the torque mandrel, and prevents the inner mandrel from moving in a first axial direction relative to the torque mandrel; an unlocked condition that permits the inner mandrel to move in the first axial direction and a second axial direction relative to the torque mandrel so as to extend and retract the slips assembly; and a second locked condition that permits the inner mandrel to rotate relative to the torque mandrel, and prevents the inner mandrel from moving in the second axial direction relative to the torque mandrel; and wherein the locking mechanism is configured to be actuated from the first locked condition to the unlocked condition by rotating the inner mandrel in the first rotational direction relative to the torque mandrel at a torque that is above the predetermined amount of torque. 13. The anchor of claim 12 , further comprising a lower sub coupled to the torque mandrel, wherein the lower sub is configured to be connected to an upper sub of the storm packer, the upper sub of the storm packer being connected to the packer mandrel, such that the torque and axial forces are transmitted from the torque mandrel to the packer mandrel via the lower sub of the anchor and the upper sub of the storm packer. 14. The anchor of claim 12 , wherein the locking mechanism in the first locked condition is con