Fiber-cut detection method, apparatus, and system for distributed Raman fiber amplifier

What is claimed is: 1. A fiber-cut detection system for a distributed Raman fiber amplifier, wherein the system comprises: a wavelength division multiplexer; a splitter apparatus; a pump source; and a monitor, wherein: the wavelength division multiplexer receives at least one channel of pump light output by the pump source and injects the received pump light backwards into a communications optical fiber, and the wavelength division multiplexer further receives an input optical signal and transmits the input optical signal to the splitter apparatus; the splitter apparatus obtains a supervisory optical signal by filtering the input optical signal, and uses a first preset proportion of light, split from an output optical signal, as an output detection optical signal, wherein the supervisory optical signal is an optical signal at a long-wave end outside traffic optical signal bandwidth and an optical signal at a short-wave end outside traffic optical signal bandwidth that are obtained by filtering the input optical signal or wherein the supervisory optical signal is the optical signal at the long-wave end outside traffic optical signal bandwidth that is obtained by filtering the input optical signal; and the monitor monitors a power value of the supervisory optical signal, monitors a power value of the output optical signal by using the output detection optical signal, calculates an actual gain value of an amplifier according to the power value of the supervisory optical signal, compares the actual gain value of the amplifier with a preset gain value of the amplifier, controls the actual gain value of the amplifier and the preset gain value of the amplifier to be equal by using a gain-locking function, determines whether the power value of the output optical signal is less than a preset power value of the output optical signal, and determines that a fiber cut occurs when the power value of the output optical signal is less than the preset power value of the output optical signal, wherein: the splitter apparatus comprises two wavelength division multiplexers and one optical signal splitter connected in sequence; the two wavelength division multiplexers respectively obtain, by filtering the output optical signal, the optical signal at the long-wave end outside traffic optical signal bandwidth and the optical signal at the short-wave end outside traffic optical signal bandwidth; and the optical signal splitter uses the first preset proportion of light, split from the output optical signal, as the output detection optical signal. 2. The system according to claim 1 , wherein: the system further comprises a pump light splitting apparatus; the pump light splitting apparatus comprises at least one optical signal splitter, and a quantity of the optical signal splitters is the same as a quantity of optical pumps in the pump source; each optical signal splitter in the pump light splitting apparatus uses a second preset proportion of light, split from pump light that is output by one optical pump in the pump source connected to the optical signal splitter, as a pump detection optical signal, and transmits the pump detection optical signal to the monitor; and the monitor monitors, according to the pump detection optical signal sent by each optical signal splitter in the pump light splitting apparatus, a power value of the pump light of the optical pump that is connected to the optical signal splitter, and calculates the actual gain value of the amplifier according to the power value of the supervisory optical signal and the power value of the pump light. 3. The system according to claim 1 , wherein the monitor is further configured to calculate the actual gain value of the amplifier according to the power value of the supervisory optical signal and the power value of the output optical signal. 4. The system according to claim 1 , wherein the monitor is further configured to calculate the actual gain value of the amplifier according to the power value of the supervisory optical signal, the power value of the pump light, and the power value of the output optical signal. 5. The system according to claim 1 , wherein the monitor is further configured to: when the actual gain value of the amplifier is greater than the preset gain value of the amplifier, send, to the pump source, an attenuation control signal to control the pump source to decrease the power of the pump light; or when the actual gain value of the amplifier is less than the preset gain value of the amplifier, send, to the pump source, an amplification control signal to control the pump source to increase the power of the pump light. 6. A fiber-cut detection system for a distributed Raman fiber amplifier, wherein the system comprises: a wavelength division multiplexer; a splitter apparatus; a pump source; and a monitor, wherein: the wavelength division multiplexer receives at least one channel of pump light output by the pump source and injects the received pump light backwards into a communications optical fiber, and the wavelength division multiplexer further receives an input optical signal and transmits the input optical signal to the splitter apparatus; the splitter apparatus obtains a supervisory optical signal by filtering the input optical signal, and uses a first preset proportion of light, split from an output optical signal, as an output detection optical signal, wherein the supervisory optical signal is an optical signal at a long-wave end outside traffic optical signal bandwidth and an optical signal at a short-wave end outside traffic optical signal bandwidth that are obtained by filtering the input optical signal or wherein the supervisory optical signal is the optical signal at the long-wave end outside traffic optical signal bandwidth that is obtained by filtering the input optical signal; and the monitor monitors a power value of the supervisory optical signal, monitors a power value of the output optical signal by using the output detection optical signal, calculates an actual gain value of an amplifier according to the power value of the supervisory optical signal, compares the actual gain value of the amplifier with a preset gain value of the amplifier, controls the actual gain value of the amplifier and the preset gain value of the amplifier to be equal by using a gain-locking function, determines whether the power value of the output optical signal is less than a preset power value of the output optical signal, and determines that a fiber cut occurs when the power value of the output optical signal is less than the preset power value of the output optical signal, wherein: the splitter apparatus comprises three optical signal splitters and two filters; a first optical signal splitter uses a second preset proportion of light, split from the output optical signal, as a first filtering optical signal, and a first filter filters the first filtering optical signal to obtain the optical signal at the short-wave end outside traffic optical signal bandwidth; a second optical signal splitter uses a third preset proportion of light, split from the output optical signal, as a second filtering optical signal, and a second filter filters the second filtering optical signal to obtain the optical signal at the long-wave end outside traffic optical signal bandwidth; and a third optical signal splitter uses the first preset proportion of light, split from the output optical signal, as the output detection optical signal. 7. The system according to claim 6 , wherein: the system further comprises a pump light splitting apparatus; the pump light splitting apparatus comprises at least one optical signal splitter, and a quantity of the optical signal splitters is the same as a quantity of optical pumps in the pu