Exhaust gas control apparatus for internal combustion engine and exhaust gas control method for internal combustion engine

What is claimed is: 1. An exhaust gas control apparatus for an internal combustion engine, the exhaust gas control apparatus comprising: a first catalyst provided in an exhaust passage of the internal combustion engine, the first catalyst having an oxidation ability and an oxygen storage ability; a filter provided in the exhaust passage downstream of the first catalyst and configured to trap particulate matters in exhaust gas, the filter supporting a second catalyst that is a catalyst having an oxidation ability and an oxygen storage ability; and an electronic control unit configured to, in a case of regenerating the filter at a time of a start of the internal combustion engine, execute first control for increasing a temperature of the first catalyst to a predetermined temperature, wherein: the electronic control unit is configured to execute second control after the first control; the second control is control for alternately executing lean control and rich control multiple times; the lean control is control for, over a period longer than a period from when a target air-fuel ratio of the internal combustion engine is set to a predetermined lean air-fuel ratio that is an air-fuel ratio greater than a stoichiometric air-fuel ratio until an air-fuel ratio of exhaust gas flowing out from the first catalyst becomes greater than the stoichiometric air-fuel ratio, setting the target air-fuel ratio to the predetermined lean air-fuel ratio; and the rich control is control for, over a period longer than a period from when the target air-fuel ratio is set to a predetermined rich air-fuel ratio that is an air-fuel ratio smaller than the stoichiometric air-fuel ratio until the air-fuel ratio of exhaust gas flowing out from the first catalyst becomes smaller than the stoichiometric air-fuel ratio, setting the target air-fuel ratio to the predetermined rich air-fuel ratio. 2. The exhaust gas control apparatus according to claim 1 , wherein the electronic control unit is configured to, when the temperature of the first catalyst reaches a lower limit value of a temperature requested for the first catalyst, determine that the temperature of the first catalyst increases to the predetermined temperature, and end the first control and start the second control. 3. An exhaust gas control method for an internal combustion engine, the internal combustion engine configured to include a first catalyst provided in an exhaust passage, and a filter provided in the exhaust passage downstream of the first catalyst and configured to trap particulate matters in exhaust gas, the first catalyst having an oxidation ability and an oxygen storage ability, the filter supporting a second catalyst that is a catalyst having an oxidation ability and an oxygen storage ability, and the internal combustion engine configured to be controlled by an electronic control unit, the exhaust gas control method comprising: in a case of regenerating the filter at a time of a start of the internal combustion engine, executing first control for increasing a temperature of the first catalyst to a predetermined temperature with the electronic control unit; and executing second control after the first control with the electronic control unit, wherein: the second control is control for alternately executing lean control and rich control multiple times; the lean control is control for, over a period longer than a period from when a target air-fuel ratio of the internal combustion engine is set to a predetermined lean air-fuel ratio that is an air-fuel ratio greater than a stoichiometric air-fuel ratio until an air-fuel ratio of exhaust gas flowing out from the first catalyst becomes greater than the stoichiometric air-fuel ratio, setting the target air-fuel ratio to the predetermined lean air-fuel ratio; and the rich control is control for, over a period longer than a period from when the target air-fuel ratio is set to a predetermined rich air-fuel ratio that is an air-fuel ratio smaller than the stoichiometric air-fuel ratio until the air-fuel ratio of exhaust gas flowing out from the first catalyst becomes smaller than the stoichiometric air-fuel ratio, setting the target air-fuel ratio to the predetermined rich air-fuel ratio. 4. The exhaust gas control method according to claim 3 , further comprising, when the temperature of the first catalyst reaches a lower limit value of a temperature requested for the first catalyst, determining that the temperature of the first catalyst increases to the predetermined temperature, and ending the first control and starting the second control with the electronic control unit.