Optical amplifier, optical transmission apparatus, and optical repeating apparatus

What is claimed is: 1. An optical amplifier comprising: an amplification section includes a plurality of routes, each of the plurality of routes has an amplifying characteristic for amplifying a multi-wavelength optical signal to pass through the routes, the amplifying characteristic of one of the plurality of routes is different from the amplifying characteristic of other of the plurality of routes; a determination section that determines a passage route, through which the multi-wavelength optical signal passes, among the plurality of routes; an input-side detector that detects input power of the multi-wavelength optical signal input to the amplification section; a variable optical attenuator that attenuates the multi-wavelength optical signal that is amplified through passing through the passage route determined by the determination section; an output-side detector that detects output power of the multi-wavelength optical signal attenuated by the variable optical attenuator; a controller that controls the amplification section based on the input power detected by the input-side detector and the output power detected by the output-side detector such that a gain of the amplification section is steady; an adjuster that adjusts an attenuation of the variable optical attenuator in accordance with the input power detected by the input-side detector, wherein the adjuster switches a relationship of the attenuation with the input power in accordance with the passage route; a data holding section that holds a plurality of types of pieces of data indicating a relationship of a noise figure of the amplification section or power of ASE light with the input power; and a calculation section that selects one type of piece of data from among the plurality of types of pieces of data in accordance with the passage route determined by the determination section and calculate the power of the ASE light from the input power detected by the input-side detector based on the selected one type of piece of data, wherein the controller calculates a target value for the gain based on the power of the ASE light calculated by the calculation section. 2. The optical amplifier according to claim 1 , wherein the adjuster adjusts the attenuation of the variable optical attenuator based on the input power and a correction value and switches the correction value in accordance with the passage route. 3. The optical amplifier according to claim 1 , wherein the determination section determines the passage route among the plurality of routes in accordance with the input power detected by the input-side detector. 4. The optical amplifier according to claim 3 , wherein the input-side detector detects input power of test light input from a different apparatus to the amplification section when the multi-wavelength optical signal is not input to the amplification section, and the determination section determines the passage route among the plurality of routes in accordance with the input power of the test light detected by the input-side detector. 5. An optical amplifier comprising: an amplification section includes a plurality of routes, each of the plurality of routes has an amplifying characteristic for amplifying a multi-wavelength optical signal to pass through the routes, the amplifying characteristic of one of the plurality of routes is different from the amplifying characteristic of other of the plurality of routes; a determination section that determines a passage route, through which the multi-wavelength optical signal passes, among the plurality of routes; an input-side detector that detects input power of the multi-wavelength optical signal input to the amplification section; a variable optical attenuator that attenuates the multi-wavelength optical signal that is amplified through passing through the passage route determined by the determination section; an output-side detector that detects output power of the multi-wavelength optical signal attenuated by the variable optical attenuator; a controller that controls the amplification section based on the input power detected by the input-side detector and the output power detected by the output-side detector such that a gain of the amplification section is steady; an adjuster that adjusts an attenuation of the variable optical attenuator in accordance with the input power detected by the input-side detector, wherein the adjuster switches a relationship of the attenuation with the input power in accordance with the passage route; a numerical information holding section that holds a piece of numerical information indicating a plurality of different numerical ranges; and a judgment section that selects one from among the plurality of numerical ranges in accordance with the passage route determined by the determination section and judge whether the input power detected by the input-side detector is within the selected numerical range. 6. An optical transmission apparatus comprising: an optical amplifier that amplifies a multi-wavelength optical signal; and an optical add-drop section that performs optical signal addition or optical signal dropping on the multi-wavelength optical signal amplified by the optical amplifier, wherein the optical amplifier includes an amplification section provided with a plurality of routes different in amplifying characteristic for amplifying a multi-wavelength optical signal to pass through the routes, a determination section that determines a passage route, through which the multi-wavelength optical signal passes, among the plurality of routes, an input-side detector that detects input power of the multi-wavelength optical signal input to the amplification section, a variable optical attenuator that attenuates the multi-wavelength optical signal that is amplified through passing through the passage route determined by the determination section, an output-side detector that detects output power of the multi-wavelength optical signal attenuated by the variable optical attenuator, a controller that controls the amplification section based on the input power detected by the input-side detector and the output power detected by the output-side detector such that a gain of the amplification section is steady, an adjuster that adjusts an attenuation of the variable optical attenuator in accordance with the input power detected by the input-side detector, wherein the adjuster switches a relationship of the attenuation with the input power in accordance with the passage route, a data holding section that holds a plurality of types of pieces of data indicating a relationship of a noise figure of the amplification section or power of ASE light with the input power, and a calculation section that selects one type of piece of data from among the plurality of types of pieces of data in accordance with the passage route determined by the determination section and calculate the power of the ASE light from the input power detected by the input-side detector based on the selected one type of piece of data, wherein the controller calculates a target value for the gain based on the power of the ASE light calculated by the calculation section. 7. The optical transmission apparatus according to claim 6 , wherein the adjuster adjusts the attenuation of the variable optical attenuator based on the input power and a correction value and switches the correction value in accordance with the passage route. 8. The optical transmission apparatus according to claim 6 , wherein the determination section determines the passage route among the plurality of routes in accordance with the input power detected by the input-side detector. 9. The optical transmission apparatus accordin