Shock absorber

1 . A shock absorber comprising: a cylinder; a piston slidably inserted into the cylinder to partition the inside of the cylinder into an expansion-side chamber and a contraction-side chamber; a piston rod movably inserted into the cylinder and provided with one end connected to the piston; a damping passage that connects the expansion-side chamber with the contraction-side chamber; a compression chamber; a free piston movably inserted into the compression chamber to partition the compression chamber into an expansion-side compression chamber and a contraction-side compression chamber; a spring member configured to generate a biasing force for suppressing displacement of the free piston with respect to the compression chamber; an expansion-side flow passage that connects the expansion-side chamber with the expansion-side compression chamber; a contraction-side flow passage that connects the contraction-side chamber with the contraction-side compression chamber; an expansion-side bypass valve arranged closer to the expansion-side chamber side relatively to the piston and provided in the expansion-side flow passage, the expansion-side bypass valve being configured to admit only a flow directed from the expansion-side chamber to the expansion-side compression chamber and generate resistance; a contraction-side bypass valve arranged closer to the expansion-side chamber side relatively to the piston and provided in the expansion-side flow passage in parallel with the expansion-side bypass valve, the contraction-side bypass valve being configured to admit only a flow directed from the expansion-side compression chamber to the expansion-side chamber and generate resistance; an expansion-side elastic stopper configured to stop the free piston at an expansion-side stroke end; and a contraction-side elastic stopper configured to stop the free piston at a contraction-side stroke end. 2 . The shock absorber according to claim 1 , further comprising a bypass valve disc mounted closer to the expansion-side chamber side of the piston rod relatively to the piston and included in a part of an expansion-side passage connected to the expansion-side chamber, wherein the expansion-side bypass valve and the contraction-side bypass valve are mounted to the bypass valve disc. 3 . The shock absorber according to claim 2 , wherein the bypass valve disc has a contraction-side bypass port and an expansion-side bypass port connected to the expansion-side chamber, the piston rod has an internal passage that connects the expansion-side compression chamber to the expansion-side bypass port and the contraction-side bypass port, the expansion-side bypass port, the contraction-side bypass port, and the internal passage constitute the expansion-side flow passage, the expansion-side bypass valve is operated to open or close the expansion-side bypass port, and the contraction-side bypass valve is operated to open or close the contraction-side bypass port. 4 . The shock absorber according to claim 1 , wherein both the expansion-side bypass valve and the contraction-side bypass valve are formed by using a leaf valve. 5 . The shock absorber according to claim 1 , wherein the expansion-side bypass valve and the contraction-side bypass valve are formed by using a double swing type single annular leaf valve for opening or closing the expansion-side flow passage. 6 . The shock absorber according to claim 1 , further comprising a housing that forms the compression chamber, wherein the expansion-side elastic stopper has an expansion-side cushion member provided in one of the free piston and the housing, and an expansion-side stopper member provided in the other one of the free piston and the housing to face the expansion-side cushion member, and the contraction-side elastic stopper has a contraction-side cushion member provided in one of the free piston and the housing, and a contraction-side stopper member provided in the other one of the free piston and the housing to face the contraction-side cushion member. 7 . The shock absorber according to claim 6 , wherein the expansion-side cushion member and the contraction-side cushion member have a narrowing head shape.