Self-cleaning filter

What is claimed is: 1. A filter for a hydraulic circuit, the filter comprising: a housing to permit flow of hydraulic fluid from an inlet conduit to an outlet; a filter media having a permeable sidewall and an axial bore connected with the inlet conduit; a sleeve connected in-line with the axial bore and downstream of the inlet conduit; an annulus between the housing and the permeable sidewall in communication with the outlet; and a shuttle having a piston moveably disposed in the sleeve and an upstream element carrying a scraper to remove debris from the permeable sidewall when the scraper is moved in the axial bore, wherein the shuttle is biased downstream by hydraulic pressure in the axial bore, wherein the sleeve comprises a relief port that allows the hydraulic fluid to bypass the axial bore of the filter media and pass to the annulus and the outlet when a downstream shuttle force exceeds an upstream shuttle force such that the piston of the shuttle moves downstream of the relief port, wherein the relief port is located downstream of an end of the piston when the shuttle is in a first position with the scraper located upstream of the permeable sidewall, and wherein the relief port is located upstream of the end of the piston when the shuttle is in a second position with the scraper located downstream of the permeable sidewall. 2. The filter of claim 1 , further comprising a bias device located downstream of the piston to bias the shuttle upstream. 3. The filter of claim 1 , further comprising a latch releasably holding the shuttle in the first position with the scraper located upstream of the permeable sidewall. 4. The filter of claim 1 , further comprising: a bias device located downstream of the piston to bias the shuttle upstream; and a latch releasably holding the shuttle in the first position with the scraper located upstream of the permeable sidewall. 5. The filter of claim 1 , wherein the shuttle comprises a receptacle located downstream of the scraper to receive debris removed by the scraper. 6. The filter of claim 1 , further comprising: a bias device located downstream of the piston to bias the shuttle upstream. 7. The filter of claim 6 , further comprising a latch releasably holding the shuttle in the first position with the scraper located upstream of the permeable sidewall. 8. The filter of claim 6 , wherein the shuttle comprises a receptacle located downstream of the scraper to receive debris removed by the scraper. 9. The filter of claim 1 , further comprising: a bias device located downstream of the piston to bias the shuttle upstream; a latch releasably holding the shuttle in the first position; and a receptacle disposed with the shuttle and located downstream of the scraper to receive debris removed by the scraper. 10. A method, comprising: filtering hydraulic fluid flowing through a filter, the filter comprising a housing permitting the hydraulic fluid to flow from an inlet conduit to an outlet, a filter media having a permeable sidewall and an axial bore connected with the inlet conduit, a sleeve connected in-line with the axial bore and downstream of the inlet conduit, an annulus between the housing and the permeable sidewall in communication with the outlet, and a shuttle having a piston moveably disposed in the sleeve and an upstream element carrying a scraper disposed with the axial bore, whereby the hydraulic fluid flows from the inlet conduit through the permeable sidewall into the annulus; applying a downstream force to the shuttle in response to hydraulic pressure in the axial bore; biasing the shuttle upstream with an upstream shuttle force in response to a biasing device; and allowing the hydraulic fluid to bypass the axial bore of the filter media and pass to the annulus and the outlet through a relief port in the sleeve when the downstream force exceeds the upstream shuttle force such that the piston of the shuttle moves downstream of the relief port, wherein the relief port is located downstream of an end of the piston when the shuttle is in a first position with the scraper located upstream of the permeable sidewall, and wherein the relief port is located upstream of the end of the piston when the shuttle is in a second position with the scraper located downstream of the permeable sidewall. 11. The method of claim 10 , comprising scraping the permeable sidewall as the shuttle moves downstream in response to the downstream force exceeding the upstream shuttle force. 12. The method of claim 10 , comprising: scraping the permeable sidewall as the shuttle moves downstream in response to the downstream force exceeding the upstream shuttle force; and scraping the permeable sidewall as the shuttle moves upstream in response to the upstream shuttle force exceeding the downstream force. 13. The method of claim 10 , comprising: scraping the permeable sidewall as the shuttle moves downstream in response to the downstream force exceeding the upstream shuttle force; and scraping the permeable sidewall as the shuttle moves upstream in response to the upstream shuttle force exceeding the downstream force. 14. A well system, the system comprising: a hydraulic device connected in a hydraulic circuit and disposed in a wellbore, the hydraulic device actuated in response to hydraulic signals; and a filter connected in the hydraulic circuit, the filter comprising: a housing permitting the hydraulic fluid to flow from an inlet conduit and to an outlet; a filter media having a permeable sidewall and an axial bore connected with the inlet conduit; a sleeve connected in-line with the axial bore and downstream of the inlet conduit; an annulus between the housing and the permeable sidewall and in communication with the outlet; a shuttle having a piston moveably disposed in the sleeve and an upstream element carrying a scraper positioned to remove debris from the permeable sidewall when the scraper is moved in the axial bore, wherein the shuttle is biased downstream by hydraulic pressure in the axial bore; and a bias device located in the sleeve and applying an upstream force on the shuttle, wherein the sleeve comprises a relief port that allows the hydraulic fluid to bypass the axial bore of the filter media and pass to the annulus and the outlet when a downstream shuttle force exceeds the upstream shuttle force such that the piston of the shuttle moves downstream of the relief port, wherein the relief port is located downstream of an end of the piston when the shuttle is in a first position with the scraper located upstream of the permeable sidewall, and wherein the relief port is located upstream of the end of the piston when the shuttle is in a second position with the scraper located downstream of the permeable sidewall. 15. The system of claim 14 , further comprising a latch releasably holding the shuttle in the first position with the scraper located upstream of the permeable sidewall. 16. The system of claim 14 , wherein the shuttle comprises a receptacle located downstream of the scraper to receive debris removed by the scraper. 17. The system of claim 14 , further comprising: a latch releasably holding the shuttle in the first position; and a receptacle disposed with the shuttle and located downstream of the scraper to receive debris removed by the scraper.