Hydraulically actuated downhole pump with traveling valve

The invention claimed is: 1. A pump, comprising: a pump barrel having an intake port and a discharge port, wherein the discharge port is formed through a tubular wall of the pump barrel; a pump piston movably disposed in the pump barrel, wherein the pump piston divides an inner volume of the pump barrel into a first pump volume fluidly connected to the discharge port and a second pump volume fluidly connected to the intake port; a middle rod coupled to the pump piston, and wherein a pump flow path is formed through the pump piston and the middle rod, the pump flow path provides fluid communication between the first pump volume and the second pump volume, and the middle rod has an upper outlet connecting the pump flow path and the first pump volume, and the pump piston has a lower outlet connecting the pump flow path and the second pump volume; a first valve disposed in the pump piston at the lower outlet, wherein the first valve selectively permits fluid flow from the second pump volume to the first pump volume; and a second valve disposed in the tubular wall of the pump barrel to selectively permit fluid flow out of the first pump volume through the discharge port. 2. The pump of claim 1 , wherein the second valve is pressure activated valve. 3. The pump of claim 2 , wherein the first valve and the second valve are individually selected from the group consisting of a check valve, a disk valve, a ball and seat valve, and a flapper valve. 4. The pump of claim 1 , further comprising: an engine barrel; an engine piston movably disposed in the engine barrel wherein the middle rod is rigidly coupled between the engine barrel and the pump piston so that the engine piston drives the pump piston. 5. The pump of claim 4 , wherein the middle rod has a rod passage formed therethrough, and the rod passage selectively permits a power fluid from the engine barrel to the first pump volume. 6. The pump of claim 5 , wherein the rod passage is connected to the pump flow path. 7. The pump of claim 1 , further comprising a third valve disposed at the intake port to selectively permit fluid flow into the second pump volume through the intake port. 8. A hydraulic pump, comprising: an engine barrel; a pump barrel; an engine piston movably disposed in the engine barrel, wherein the engine piston divides an inner volume of the engine barrel into a first engine volume and a second engine volume, and the engine barrel has an engine inlet port connecting to the inner volume; a pump piston movably disposed in the pump barrel, wherein the pump piston divides an inner volume of the pump barrel into a first pump volume and a second pump volume, the first pump volume is connected to an outlet port formed through a tubular wall of the pump barrel, and the second pump volume is connected to an intake port; a middle rod connecting the engine piston and the pump piston, wherein a rod passage is formed through the engine piston, the pump piston and the middle rod, the rod passage selectively connects the first engine volume and the first pump volume, and the middle rod has an upper outlet connecting the rod passage and the first pump volume, and the pump piston has a lower outlet connecting the rod passage and the second pump volume; a first check valve disposed in the pump piston at the lower outlet to control flow from the first pump volume to the second pump volume; and a second check valve disposed in the tubular wall of the pump barrel to control flow from the first pump volume through the outlet port of the pump barrel. 9. The hydraulic pump of claim 8 , further comprising an intake valve disposed to control flow from the intake port of the pump barrel to the second pump volume. 10. The hydraulic pump of claim 8 , further comprising a reversing valve movable to alternatively connect the first engine volume to the second engine volume or the first pump volume. 11. The hydraulic pump of claim 8 , wherein the second check valve is pressure activated check valve. 12. The hydraulic pump of claim 11 , wherein the second check valve is selected from a disk valve, a ball and seat valve, and a flapper valve. 13. The hydraulic pump of claim 8 , wherein the engine inlet port open to the second engine volume, and the engine inlet port is configured to receive power fluid for driving the hydraulic pump. 14. The hydraulic pump of claim 8 , further comprising: a seating cup disposed outside a housing between the engine barrel and the pump barrel, wherein the seating cup is configured to form a seal with a tubing, wherein the housing includes the engine barrel and the pump barrel. 15. The hydraulic pump of claim 14 , further comprising: an engine check valve disposed above the engine barrel. 16. The hydraulic pump of claim 15 , further comprising a sealing member disposed outside the housing and between the engine check valve and the engine barrel. 17. The hydraulic pump of claim 8 , further comprising a reversing valve disposed in the engine piston and moveable relative to the engine piston to alternatively connect the first engine volume to the second engine volume or the first pump volume, and a push rod disposed in the engine piston configured to reverse a position of the reversing valve. 18. A method for pumping production fluid from a wellbore, comprising: stroking a pump piston disposed in a pump barrel repeatedly between an upstroke and a down stroke via a middle rod coupled to the pump piston, wherein the pump piston divides the pump barrel into a first pump volume and a second pump volume, and includes a pump flow path between the first pump volume and the second pump volume, the pump flow path is formed through the pump piston and the middle rod, and the pump flow path has an upper outlet open at the middle rod facing the first pump volume and a lower outlet open at the pump piston facing the second pump volume; during each upstroke: drawing production fluid into the second pump volume through an intake port of the pump barrel while the lower outlet is closed by a first valve disposed in the pump piston; and discharging fluid in the first pump volume through a discharge port formed in a tubular wall of the pump barrel; and during each down stroke: flowing the production fluid in the second pump volume to the first pump volume via the first valve in the pump flow path formed through the pump piston while the discharge port remains closed by a second valve disposed in the tubular wall of the pump barrel. 19. The method of claim 18 , wherein stroking the pump piston comprises: deploying a power fluid down a tubing; and stroking an engine piston disposed in an engine barrel between an upstroke and a down stroke, wherein the engine piston is rigidly attached to the pump piston by a middle rod. 20. The method of claim 19 , further comprising: during each up stroke, flowing the power fluid from the engine barrel to the first pump volume through a rod passage formed through the middle rod. 21. The method of claim 18 , wherein discharging the fluid in the first pump volume comprises pressurizing the first pump volume to above an opening pressure of the second valve.