Compression activated bypass valve

What is claimed is: 1. An apparatus comprising: a main body housing comprising: a main body housing inside surface, a main body housing outside surface, and a main body port from the main body housing inside surface to the main body housing outside surface; a spool contained in the main body housing, wherein the spool is rotatable and translatable with respect to the main body housing among a plurality of open spool positions interleaved with a plurality of closed spool positions; and an O-ring sleeve contained in the housing, the O-ring sleeve comprising: an O-ring sleeve inside surface, an O-ring sleeve outside surface, an O-ring sleeve port from the O-ring inside surface to the O-ring outside surface, and O-rings mounted on the O-ring sleeve outside surface on either side of the O-ring sleeve port; wherein the O-ring sleeve is engaged with the spool, is not rotatable with respect to the main body housing, and is translatable with respect to the main body housing between an open O-ring sleeve position, in which the spool is in one of the plurality of open spool positions, and a closed O-ring sleeve position, in which the spool is in one of the plurality of closed spool positions, wherein the O-ring sleeve port aligns with the main body port when the O-ring sleeve is in the open O-ring sleeve position and the O-ring sleeve port is sealed from the main body port by the O-rings when the O-ring sleeve is in the closed O-ring sleeve position. 2. The apparatus of claim 1 wherein the spool comprises: an indexing barrel comprising a spool indexing slot, wherein the indexing slot comprises: a plurality of open notches extending in a notch direction, a plurality of closed notches interleaved with the plurality of open notches, wherein the closed notches extend in the notch direction, and transition slots between the open notches and the closed notches, wherein the transition slots extend in a transition-slot direction substantially opposite the notch direction; wherein the open notches are longer than the closed notches; and a spring flange coupled to the indexing barrel; and a spring barrel coupled to the spring flange. 3. The apparatus of claim 2 further comprising: an oblong O-ring sleeve indexing pin slot in the O-ring sleeve; an indexing pin extending through the main body housing, through the spool indexing slot, and into the O-ring sleeve indexing pin slot. 4. The apparatus of claim 3 wherein the oblong O-ring sleeve indexing pin slot comprises: a width substantially equal to a width of the indexing pin where it extends through the O-ring sleeve indexing pin slot; and a length at least twice its width. 5. The apparatus of claim 4 wherein the length is substantially aligned with the direction which the O-ring sleeve can translate with respect to the main body. 6. The apparatus of claim 2 further comprising: a spring contained in the housing, wherein: the spring has a shape of a coil; the spring encloses the spring barrel; and the spring is engaged with the spring flange. 7. The apparatus of claim 1 further comprising: an upstream reservoir bounded on one side by the main body housing; a downstream reservoir; and a valve plate separating the upstream reservoir from the downstream reservoir, the valve plate comprising: a pressure relief valve comprising: a pressure relief valve inlet on an upstream side of the valve plate, a pressure relief valve outlet on a downstream side of the valve plate, and wherein the pressure relief valve is actuatable to pass fluid from the pressure relief valve inlet to the pressure relief valve outlet when a pressure on the upstream side of the valve plate exceeds a pressure on the downstream side of the valve plate by a crack pressure; and a check valve comprising: a check valve inlet on the downstream side of the valve plate, a check valve outlet on the upstream side of the valve plate, and wherein the check valve is actuatable to pass fluid from the check valve inlet to the check valve outlet when pressure on the downstream side of the valve plate exceeds the pressure on the upstream side of the valve plate. 8. The apparatus of claim 7 further comprising a balance piston on a side of the downstream reservoir opposite the valve plate. 9. The apparatus of claim 7 wherein the upstream side of the valve plate faces the upstream reservoir and the downstream side of the valve plate faces the downstream reservoir. 10. The apparatus of claim 1 further comprising: a second main body port from the main body housing inside surface to the main body housing outside surface; and a second O-ring sleeve port from the O-ring inside surface to the O-ring outside surface; wherein the second O-ring sleeve port aligns with the second main body port when the O-ring sleeve is in the open O-ring sleeve position and the second O-ring sleeve port is sealed from the second main housing port by a second set of O-rings when the O-ring sleeve is in the closed O-ring sleeve position. 11. A method comprising: constructing a drill string; coupling a bypass valve to the drill string, the bypass valve comprising: a main body housing comprising: a main body housing inside surface, a main body housing outside surface, and a main body port from the main body housing inside surface to the main body housing outside surface; a spool contained in the main body housing, wherein the spool is rotatable and translatable with respect to the main body housing among a plurality of open spool positions interleaved with a plurality of closed spool positions; and an O-ring sleeve contained in the housing, the O-ring sleeve comprising: an O-ring sleeve inside surface, an O-ring sleeve outside surface, an O-ring sleeve port from the O-ring inside surface to the O-ring outside surface, and O-rings mounted on the O-ring sleeve outside surface on either side of the O-ring sleeve port; wherein the O-ring sleeve is engaged with the spool, is not rotatable with respect to the main body housing, and is translatable with respect to the main body housing between an open O-ring sleeve position, in which the spool is in one of the plurality of open spool positions, and a closed O-ring sleeve position, in which the spool is in one of the plurality of closed spool positions, wherein the O-ring sleeve port aligns with the main body port when the O-ring sleeve is in the open O-ring sleeve position and the O-ring sleeve port is sealed from the main body port by the O-rings when the O-ring sleeve is in the closed O-ring sleeve position; applying force in a weight down direction to the drill string to cause: the spool to rotate and translate to a first intermediate position, and the O-ring sleeve to translate to a first intermediate position in which a main body port is sealed from the O-ring sleeve port through the O-ring sleeve by the O-rings; subsequently applying force in a lifted off direction to the drill string to cause: the spool to rotate and translate to an open position, and the O-ring sleeve to translate to an open position in which the main body port is aligned with and communicates with the O-ring sleeve port. 12. The method of claim 11 further comprising: applying force in the weight down direction to the drill string to cause: the spool to rotate and translate to a second intermediate position, and an O-ring sleeve to translate to a second intermediate position in which the main body port is sealed from the O-ring sleeve port by the O-rings; subsequently applying force in the lifted off direction to the drill string to cause: the spool to rotate and translate to a closed positio