Fluid pump

What is claimed is: 1. A fluid pump comprising: a rotatable shaft; an inner rotor that includes: a main body that has a through-hole, through which the rotatable shaft is inserted; and a plurality of external teeth that are formed in an outer peripheral portion of the main body; a joint member that is placed on an axial side of the inner rotor and couples between the inner rotor and the rotatable shaft to transmit a rotational torque of the rotatable shaft to the inner rotor; an outer rotor that has a plurality of internal teeth for meshing with the plurality of external teeth; a pump housing that forms: a rotor receiving chamber that receives the outer rotor and the inner rotor; a joint receiving chamber that receives the joint member; and a plurality of pump chambers between the plurality of internal teeth and the plurality of external teeth, wherein each of the plurality of pump chambers draws and compresses fluid by changing a volume of the pump chamber; and an external tooth slide surface and a main body slide surface that are formed in a portion of an inside wall surface of the pump housing located on an opposite side of the inner rotor, which is opposite from the joint member in an axial direction, wherein the plurality of external teeth of the inner rotor is slidable relative to the external tooth slide surface while the main body of the inner rotor is slidable relative to the main body slide surface, and a surface roughness of the main body slide surface is higher than a surface roughness of the external tooth slide surface. 2. The fluid pump according to claim 1 , wherein the main body slide surface is formed through electrical discharge machining such that the surface roughness of the main body slide surface becomes higher than the surface roughness of the external tooth slide surface. 3. The fluid pump according to claim 1 , wherein: an axial location of a maximum peak height of a roughness profile is defined as a maximum peak location in each of the main body slide surface and the external tooth slide surface; and the maximum peak location of the main body slide surface is the same as the maximum peak location of the external tooth slide surface. 4. A fluid pump comprising: a rotatable shaft; an inner rotor that includes: a main body that has a through-hole, through which the rotatable shaft is inserted; and a plurality of external teeth that are formed in an outer peripheral portion of the main body; a joint member that is placed on an axial side of the inner rotor and couples between the inner rotor and the rotatable shaft to transmit a rotational torque of the rotatable shaft to the inner rotor; an outer rotor that has a plurality of internal teeth for meshing with the plurality of external teeth; a pump housing that forms: a rotor receiving chamber that receives the outer rotor and the inner rotor; a joint receiving chamber that receives the joint member; and a plurality of pump chambers between the plurality of internal teeth and the plurality of external teeth, wherein each of the plurality of pump chambers draws and compresses fluid by changing a volume of the pump chamber; and an external tooth slide surface and a main body slide surface that are formed in a portion of an inside wall surface of the pump housing located on an opposite side of the inner rotor, which is opposite from the joint member in an axial direction, wherein the plurality of external teeth of the inner rotor is slidable relative to the external tooth slide surface while the main body of the inner rotor is slidable relative to the main body slide surface, and a surface roughness of a rotor side main body slide surface of the main body, which is slidable relative to the main body slide surface, is higher than a surface roughness of a rotor side external tooth slide surface of the plurality of external teeth, which is slidable relative to the external tooth slide surface.