Optical transmission system and optical power control method

What is claimed is: 1. A sending device comprising: a multiplexing unit; and an optical power adjustment unit; wherein the multiplexing unit is configured to send at least two communication optical waves to a fiber channel, wherein wavelengths of the at least two communication optical waves belong to an operating band; wherein the multiplexing unit is further configured to send or receive at least two detection optical waves through the fiber channel, wherein the at least two detection optical waves comprise at least one first detection optical wave whose wavelength is less than a minimum wavelength of the operating band, and at least one second detection optical wave whose wavelength is greater than a maximum wavelength of the operating band; and wherein the optical power adjustment unit is configured to: obtain a power control instruction, wherein the power control instruction is generated according to power change information between the at least two detection optical waves; and perform optical power amplification and/or attenuation on at least one communication optical wave in the at least two communication optical waves according to the power control instruction. 2. The sending device according to claim 1 , wherein the sending device further comprises a detection wave transmit end connected to the multiplexing unit; wherein the detection wave transmit end is configured to input the at least two detection optical waves to the multiplexing unit, wherein a transmission direction of the detection optical wave is the same as a transmission direction of the communication optical wave; and wherein the optical power adjustment unit is configured to receive the power control instruction that is generated based on the power change information between the at least two detection optical waves. 3. The sending device according to claim 1 , wherein the sending device further comprises: a detection wave receive end connected to the multiplexing unit, and a control unit connected to the detection wave receive end; wherein the detection wave receive end is configured to receive the at least two detection optical waves from the multiplexing unit, wherein a transmission direction of the detection optical wave is opposite to a transmission direction of the communication optical wave; wherein the control unit is configured to: after the detection wave receive end receives the at least two detection optical waves, generate the power control instruction according to the power change information between the at least two detection optical waves; and wherein the optical power adjustment unit is configured to receive the power control instruction from the control unit. 4. The sending device according to claim 3 , wherein the at least two detection optical waves comprise m detection optical waves, and m is a positive integer greater than 1; and the control unit is configured to: determine m power change values of the m detection optical waves according to the received m detection optical waves, wherein each power change value is used to indicate an optical power change degree of a single transmitted detection optical wave; determine the power change information according to the m power change values, wherein the power change information is used to indicate an overall change degree of m optical powers of the m transmitted detection optical waves; determine an adjustment coefficient corresponding to the power change information according to a preset correspondence, wherein the preset correspondence comprises a correspondence between the power change information and the adjustment coefficient, and the adjustment coefficient comprises an amplification coefficient and/or an attenuation coefficient corresponding to the at least one communication optical wave; and generate the power control instruction carrying the adjustment coefficient. 5. The sending device according to claim 1 , wherein a quantity of first detection optical waves is equal to a quantity of second detection optical waves. 6. An optical power control method, comprising: sending at least two communication optical waves to a fiber channel, wherein wavelengths of the at least two communication optical waves belong to an operating band; sending or receiving at least two detection optical waves through the fiber channel, wherein the at least two detection optical waves comprise at least one first detection optical wave whose wavelength is less than a minimum wavelength of the operating band, and at least one second detection optical wave whose wavelength is greater than a maximum wavelength of the operating band; obtaining a power control instruction, wherein the power control instruction is generated according to power change information between the at least two detection optical waves; and performing optical power amplification and/or attenuation on at least one communication optical wave in the at least two communication optical waves according to the power control instruction. 7. The method according to claim 6 , wherein a transmission direction of the detection optical wave is the same as a transmission direction of the communication optical wave, and the obtaining of a power control instruction comprises: after sending the at least two detection optical waves to a receiving device, receiving the power control instruction from the receiving device, wherein the power control instruction is based on the power change information between the at least two detection optical waves. 8. The method according to claim 6 , wherein a transmission direction of the detection optical wave is opposite to a transmission direction of the communication optical wave, and the obtaining of a power control instruction comprises: after receiving the at least two detection optical waves sent by a receiving device, generating the power control instruction according to the power change information between the at least two detection optical waves. 9. The method according to claim 8 , wherein the at least two detection optical waves comprise m detection optical waves, and m is a positive integer greater than 1; and wherein, before the generating of the power control instruction according to the power change information between the at least two detection optical waves, the method further comprises: determining m power change values of the m detection optical waves according to the received m detection optical waves, wherein each power change value is used to indicate an optical power change degree of a single detection optical wave transmitted through the fiber channel; and determining the power change information according to the m power change values, wherein the power change information is used to indicate an overall change degree of m optical powers of the m detection optical waves transmitted through the fiber channel; and the generating of the power control instruction according to the power change information between the at least two detection optical waves comprises: determining an adjustment coefficient corresponding to the power change information according to a preset correspondence, wherein the preset correspondence comprises a correspondence between the power change information and the adjustment coefficient, and the adjustment coefficient comprises an amplification coefficient and/or an attenuation coefficient corresponding to the at least one communication optical wave; and generating the power control instruction carrying the adjustment coefficient. 10. The method according to claim 6 , wherein a quantity of first detection optical waves is equal to a quantity of second detection optical waves.