Hydraulic drive system

What is claimed is: 1. A hydraulic driving system comprising: a hydraulic cylinder including a cylinder tube and a cylinder rod, the cylinder tube having a first end part and a second end part, the cylinder rod having a proximal end part inserted inside the cylinder tube such that the proximal end part can move reciprocally between the first end part and the second end part, the proximal end part of the cylinder rod partitioning an inside of the cylinder tube into a first chamber disposed between the first end part and the proximal end part and a second chamber disposed between the proximal end part and the second end part, the cylinder rod being configured to move in an expansion direction such that the first chamber expands when hydraulic fluid is supplied to the first chamber and exhausted from the second chamber, the cylinder rod being configured to move in a contraction direction such that the first chamber contracts when hydraulic fluid is supplied to the second chamber and exhausted from the first chamber; a main pump switchable between a state of supplying hydraulic fluid to the first chamber and sucking in hydraulic fluid from the second chamber, and a state of supplying hydraulic fluid to the second chamber and sucking in hydraulic fluid from the first chamber; a hydraulic-fluid path connecting the first chamber and the main pump, the hydraulic-fluid path also connecting the second chamber and the main pump, the hydraulic-fluid path forming a closed circuit between the main pump and the hydraulic cylinder; a charge pump configured to replenish hydraulic fluid in the hydraulic-fluid path, the charge pump having a maximum discharge flow rate that is smaller than a maximum suction flow rate of the main pump; a stroke position detector configured to detect a stroke position of the proximal end part of the cylinder rod inside the cylinder tube; and a pump controller arranged to receive a signal indicating the stroke position from the stroke position detector, the pump controller being programmed to execute a flow rate reduction control when a distance from the stroke position detected by the stroke position detector to a stroke end where the proximal end part of the cylinder rod contacts the first end part or the second end part of the cylinder tube is equal to or smaller than a distance from a reduction start position to the stroke end, the flow rate reduction control being configured to reduce a suction flow rate of the main pump as the stroke position approaches a reference position so that the suction flow rate is equal to or less than the maximum discharge flow rate of the charge pump when the stroke position is in a range spanning between the reference position and the stroke end, the reduction start position and the reference position being different from each other and different from the stroke end, the reference position being disposed between the reduction start position and the stroke end. 2. The hydraulic drive system according to claim 1 , wherein the pump controller is configured to control the suction flow rate in accordance with a flow rate reduction characteristic that prescribes a change in the suction flow rate with respect to the stroke position during the flow rate reduction control, the flow rate reduction characteristics having a reduction portion in which the suction flow rate becomes smaller as the stroke position approaches the stroke end, and a change rate of the suction flow rate in the reduction portion of the flow rate reduction characteristic does not change regardless of a suction flow rate before execution of the flow rate reduction control. 3. The hydraulic drive system according to claim 2 , wherein the smaller a suction flow rate is before the execution of the flow rate reduction control, the closer the reduction start position is set to the stroke end. 4. The hydraulic drive system according to claim 1 , wherein the pump controller is configured to control the suction flow rate in accordance with a flow rate reduction characteristic that prescribes a change in the suction flow rate with respect to the stroke position during the flow rate reduction control, the flow rate reduction characteristic having a reduction portion in which the suction flow rate is reduced as the stroke position approaches the stroke end, and a change rate of the suction flow rate in the reduction portion of the flow rate reduction characteristic changes in response to a suction flow rate before an execution of the flow rate reduction control. 5. The hydraulic drive system according to claim 4 , wherein the smaller a suction flow rate is before the execution of the flow rate reduction control, the smaller a change rate of the suction flow rate in the reduction portion of the flow rate reduction characteristic becomes. 6. The hydraulic drive system according to claim 5 , wherein the reduction start position is the same regardless of the suction flow rate before the execution of the flow rate reduction control. 7. The hydraulic drive system according to claim 2 , wherein the suction flow rate is maintained at a prescribed flow rate equal to or less than the maximum discharge flow rate of the charge pump when the stroke position is in the range spanning between the reference position and the stroke end in the flow rate reduction characteristic. 8. The hydraulic drive system according to claim 2 , wherein the suction flow rate reaches zero when the stroke position reaches the stroke end in the flow rate reduction characteristic. 9. The hydraulic drive system according to claim 2 , wherein the suction flow rate reaches zero before the stroke position reaches the stroke end, in the flow rate reduction characteristic. 10. The hydraulic drive system claim 2 , wherein the pump controller is further programmed to determine whether the hydraulic cylinder is operating in a state of expanding or a state of contracting; select one of an expansion operation flow rate reduction characteristic and a contraction operation flow rate reduction characteristic as the flow rate reduction characteristic depending on whether the hydraulic cylinder is determined to be in the state of expanding or the state of contracting; control the suction flow rate in accordance with the expansion operation flow rate reduction characteristic during the flow rate reduction control when the hydraulic cylinder is in the state of expanding; and control the suction flow rate in accordance with the contraction operation flow rate reduction characteristic during the flow rate reduction control when the hydraulic cylinder is in the state of contracting. 11. A hydraulic driving system comprising: a hydraulic cylinder including a cylinder tube and a cylinder rod, the cylinder tube having a first end part and a second end part, the cylinder rod having a proximal end part inserted inside the cylinder tube such that the proximal end part can move reciprocally between the first end part and the second end part, the proximal end part of the cylinder rod partitioning inside of the cylinder tube into a first chamber disposed between the first end part and the proximal end part and a second chamber disposed between the proximal end part and the second end part, the cylinder rod being configured to move in an expansion direction such that the first chamber expands when hydraulic fluid is supplied to the first chamber and exhausted from the second chamber, the cylinder rod being configured to move in a contraction direction such that the first chamber contracts when hydraulic fluid is supplied to the second chamber and exhausted from the first chamber; a main pump switchable between a state of supplying hydr