Exposed energetic device initiation via tubing conveyed firing mechanism

What is claimed is: 1. An apparatus conveyed with tubing downhole in a wellbore, the apparatus comprising: a body having first and second portions, the first portion being in fluid communication with the tubing, the second portion being exposed in the wellbore; a barrier sealing between the first and second portions; energetic material disposed on the second portion and connected to a detonating cord extending toward the barrier; a firing mechanism disposed in the first portion and being mechanically actuated, wherein the firing mechanism comprises a firing pin disposed in the first portion and being movable to a firing position in response to fluid pressure from the tubing, wherein the first portion comprises a sleeve movable therein in response the fluid pressure from the tubing and moving the firing pin to the firing position; and a detonation mechanism at least partially disposed in the first portion, the detonation mechanism initiating a detonation in response to the mechanical actuation of the firing mechanism and transferring the detonation across the barrier to the detonating cord for the energetic material. 2. The apparatus of claim 1 , wherein the detonation mechanism comprises: a detonator disposed in the first portion relative to the firing pin and being detonated in response to the firing pin moved to the firing position; and a ballistic transfer in communication with the detonator and transferring the detonation from the detonator across the barrier to the detonating cord for the energetic material. 3. The apparatus of claim 1 , wherein the sleeve comprises a seat engageable by a plug deployed down the tubing, the seat sealing with the plug and permitting the fluid pressure from the tubing to move the sleeve in the first portion. 4. The apparatus of claim 1 , wherein the barrier comprises a membrane composed of metal and sealing fluid communication between the first portion and the wellbore. 5. The apparatus of claim 1 , wherein the second portion comprises an arm extending from the first portion and having the energetic material disposed thereon. 6. The apparatus of claim 1 , wherein the energetic material comprises one or more perforating charges, propellant materials, oxidizers, cutters, and string shots. 7. An apparatus conveyed with tubing downhole in a wellbore, the apparatus comprising: a body having first and second portions, the first portion being in fluid communication with the tubing, the second portion being exposed in the wellbore; a barrier sealing between the first and second portions; energetic material disposed on the second portion and connected to a detonating cord extending toward the barrier; a firing mechanism disposed in the first portion and being mechanically actuated; and a detonation mechanism at least partially disposed in the first portion, the detonation mechanism initiating a detonation in response to the mechanical actuation of the firing mechanism and transferring the detonation across the barrier to the detonating cord for the energetic material, wherein the detonation mechanism comprises an electric source disposed in the first portion and producing an electric pulse in response to the mechanical actuation of the firing mechanism. 8. The apparatus of claim 7 , wherein the barrier comprises a sealed bulkhead between the first portion and the wellbore and passing at least one conductor for the electric pulse from the electric source. 9. The apparatus of claim 7 , wherein the electric source comprises a magneto-based device or a piezoelectric device. 10. The apparatus of claim 7 , wherein the first portion comprises a sleeve movable therein in response to the fluid pressure from the tubing and providing the mechanical actuation to the detonation mechanism. 11. The apparatus of claim 10 , wherein the sleeve comprises a seat engageable by a plug deployed down the tubing, the seat sealing with the plug and permitting the fluid pressure from the tubing to move the sleeve. 12. The apparatus of claim 7 , wherein the barrier comprises a membrane composed of metal and sealing fluid communication between the first portion and the wellbore. 13. A method of energizing energetic material downhole in a wellbore, the method comprising, not necessarily in sequence: sealing a barrier between first and second portions of an apparatus; connecting the first portion to tubing; disposing the energetic material on the second portion; deploying the apparatus on the tubing downhole in the wellbore with the first portion in fluid communication with the tubing and the second portion exposed in the wellbore; mechanically actuating a firing in the first portion by moving a firing pin disposed in the first portion to a firing position in response to fluid pressure from the tubing, wherein moving the firing pin comprises engaging a plug deployed down the tubing on a seat of a sleeve, and moving the sleeve in response to the fluid pressure from the tubing applied against the seated plug; initiating a detonation in the first portion in response to the mechanical actuation of the firing; and transferring the detonation across the barrier to the energetic material exposed in the wellbore on the second portion. 14. The method of claim 13 , wherein initiating the detonation in the first portion in response to the mechanical actuation of the firing comprises detonating a detonator disposed in the first portion in response to the firing pin moved to the firing position. 15. The method of claim 14 , wherein transferring the detonation across the barrier to the energetic material exposed in the wellbore on the second portion comprises transferring the detonation from the detonator across the barrier to the energetic material with a ballistic transfer in communication with the detonator. 16. The method of claim 13 , wherein the barrier comprises a membrane composed of metal and sealing fluid communication between the first portion and the wellbore. 17. The method of claim 13 , wherein the energetic material comprises one or more perforating charges, propellant materials, oxidizers, cutters, and string shots. 18. A method of energizing energetic material downhole in a wellbore, the method comprising, not necessarily in sequence: sealing a barrier between first and second portions of an apparatus; connecting the first portion to tubing; disposing the energetic material on the second portion; deploying the apparatus on the tubing downhole in the wellbore with the first portion in fluid communication with the tubing and the second portion exposed in the wellbore; mechanically actuating a firing in the first portion; initiating a detonation in the first portion in response to the mechanical actuation of the firing by producing an electric pulse with an electric source in response to the mechanical actuation of the firing mechanism; and transferring the detonation across the barrier to the energetic material exposed in the wellbore on the second portion. 19. The method of claim 18 , wherein transferring the detonation across the barrier to the energetic material exposed in the wellbore on the second portion comprises conducting the electric pulse from the electric source via at least one conductor passing through a sealed bulkhead for the barrier between the first portion and the wellbore. 20. The method of claim 18 , wherein the electric source comprises a magneto-based device or a piezoelectric device. 21. The method of claim 18 , wherein mechanically actuating the fi