Reusable perforating gun system and method

What is claimed is: 1. A method for perforating tubular strings positioned in wellbores, comprising: (a) lowering a first stool string into a first wellbore, the tool string comprising a first perforating gun and a gun switch configured to detonate the first perforating gun; (b) detonating the first perforating gun in response to transmitting a first gun firing signal from a control system to the gun switch; (c) retrieving the tool string from the first wellbore following (c); (d) lowering a second tool string comprising the gun switch used in the first tool string and a second perforating gun into at least one of the first wellbore and a second wellbore that is different from the first wellbore following (d); (e) detonating the second perforating gun of the second tool string in response to transmitting a second gun firing signal from the control system to the gun switch; and (f) with the first tool string lowered into the first wellbore, transmitting an enabling signal from the control system to a safety switch positioned in a switch receptacle of a safety sub of the tool string to close the safety switch and thereby permit signal communication between the control system and the gun switch, wherein the safety switch is isolated from fluid pressure external of the safety sub. 2. The method of claim 1 , wherein the detonation of the first perforating gun is triggered by the gun switch receiving the first gun firing signal, and the detonation of the second perforating gun is triggered by the gun switch receiving the second firing signal. 3. A method for perforating tubular strings positioned in the wellbores, comprising: (a) lowering a first stool string into a first wellbore, the tool string comprising a first perforating gun and a gun switch configured to detonate the first perforating gun; (b) detonating the first perforating gun in response to transmitting a first gun firing signal from a control system to the gun switch; (c) retrieving the tool string from the first wellbore following (c); (d) lowering a second tool string comprising the gun switch used in the first tool string and a second perforating gun into at least one of the first wellbore and a second wellbore that is different from the first wellbore following (d); (e) detonating the second perforating gun of the second tool string in response to transmitting a second gun firing signal from the control system to the gun switch; and (f) with the first tool string lowered into the first wellbore, transmitting a setting tool firing signal from the control system to a setting tool switch positioned in a switch receptacle of a setting tool of the first tool string to set a downhole plug of the first tool string whereby the downhole plug seals against the first tubular string, wherein the setting tool switch is isolated from fluid pressure external of the setting tool. 4. The method of claim 3 , wherein the first tool string comprise a sub configured to couple with the first perforating gun, wherein the sub comprises: a sub housing comprising first end, a second end opposite the first end, and a central passage that includes a gun switch receptacle; the gun switch which is positioned in the gun switch receptacle, wherein the gun switch establishes an electrical connection with a signal conductor of the first perforating gun and is isolated from fluid pressure external of the gun switch receptacle. 5. The method of claim 4 , further comprising: (g) rotatably coupling the sub housing with a housing of the first perforating gun to establish an electrical connection between a signal conductor of the first perforating gun and the gun switch. 6. The method of claim 4 , wherein the first perforating gun comprises a pressure barrier positioned in the central passage of the sub housing and which isolates the gun switch from fluid pressure external of the gun switch receptacle. 7. The method of claim 6 , wherein: the central passage of the sub housing comprises a first bulkhead receptacle extending into the sub housing from the first end, and a second bulkhead receptacle extending into the sub housing from the second end, wherein the gun switch receptacle is positioned between the first bulkhead receptacle and the second bulkhead receptacle; and the pressure barrier comprises a first bulkhead connector positioned in the first bulkhead receptacle, and a second bulkhead connector positioned in the second bulkhead receptacle. 8. A method for perforating tubular strings positioned in wellbores, comprising: (a) lowering a first tool string into a first wellbore, the first tool string comprising: a first perforating gun comprising a signal conductor; a sub configured to couple with the first perforating fun, wherein the sub comprises: a sub housing comprising first end, a second end opposite the first end, and a central passage that includes a gun switch receptacle; and a gun switch positioned in the gun switch receptacle, wherein the gun switch is isolated from fluid pressure external of the gun switch receptacle; (b) detonating the first perforating gun in response to transmitting a first gun firing signal from a control system to the gun switch; and (c) with the first tool string lowered into the first wellbore, transmitting an enabling signal from the control system to a safety switch positioned in a switch receptacle of a safety sub of the first tool string to close the safety switch and thereby permit signal communication between the control system and the gun switch, wherein the safety switch is isolated from fluid pressure external of the safety sub. 9. The method of claim 8 , wherein the first perforating gun comprises a pressure barrier positioned in the central passage of the sub housing and which isolates the gun switch from fluid pressure external of the gun switch receptacle. 10. The method of claim 9 , wherein: the central passage of the sub housing comprises a first bulkhead receptacle extending into the sub housing from the first end, and a second bulkhead receptacle extending into the sub housing from the second end, wherein the gun switch receptacle is positioned between the first bulkhead receptacle and the second bulkhead receptacle; and the pressure barrier comprises a first bulkhead connector positioned in the first bulkhead receptacle, and a second bulkhead connector positioned in the second bulkhead receptacle. 11. The method of claim 8 , further comprising: (d) rotatably coupling the sub housing with a housing of the first perforating gun to establish an electrical connection between a signal conductor of the first perforating gun and the gun switch. 12. The method of claim 8 , further comprising: (d) retrieving the first tool string from the first wellbore following (b); (e) lowering a second tool string comprising the gun switch used in the first tool string and a second perforating gun into at least one of the first wellbore and a second wellbore that is different from the first wellbore following (d); and (f) detonating the second perforating gun in response to transmitting a second gun firing signal from the control system to the gun switch. 13. A method for perforating tubular string positioned in wellbores, comprising: (a) lowering a first tool string into a first wellbore, the first tool string comprising: a first perforating gun comprising a signal conductor; a sub configured to couple with the first perforating fun, wherein the sub comprises: a sub housing comprising first end, a second end opposite the first end, and a central passage that includes a gun switch receptacle; and a gun switch positioned in the gun switch receptacle, wherein