Modular cell site installation, testing, measurement, and maintenance tool

What is claimed is: 1. A test tool for testing conditions associated with a cell site, comprising: a processor; a memory to store machine readable instructions executable by the processor to perform cell site testing; an input/output (I/O) device comprising a display; and the processor to execute the machine readable instructions to: generate a graphical user interface (GUI) on the display presenting one or more jobs that are executable by the test tool; receive user input, via the I/O device, selecting a job shown in the GUI, wherein the job comprises a sequence of tests, including a spectrum analysis (SA) test, a common public radio interface (CPRI) test, an optical time domain reflectometer (OTDR) test, and a cable antenna analyzer (CAA) test, for testing the cell site; automatically populate the tests associated with the selected job in sequence on the GUI; sequentially receive user input to execute each test and automatically receive a pass or fail condition associated with each executed test; automatically display the pass or fail condition on the GUI; and save results of the tests in the memory. 2. The test tool according to claim 1 , further comprising: a CAA module to execute the CAA test, the CAA module to: generate a reference radio frequency signal (RF) signal using a bias voltage received from a bias-tee device; provide the reference RF signal to a device under test (DUT); receive a reflected RF signal from the DUT; determine a voltage standing wave ratio (VSWR) from the reference RF signal and the reflected RF signal; and determine a Retum Loss (RL) indicating a loss of signal power resulting from reflection of the DUT, wherein the VSWR and the RL are results of the CAA test. 3. The test tool according to claim 1 , further comprising: an SA solution module to execute a plurality of SA tests, including a channel power test, an occupied bandwidth test, a spectrum emission mask test, an adjacent channel power test and a spurious emissions test for a predefined channel of an input signal received from the cell site; and for each of the plurality SA tests, determine a pass or fail condition or display measurements. 4. The test tool according to claim 1 , further comprising: a CPRI module to execute the CPRI test to test a fiber link between a Remote Radio Head (RRH) and a Base Band Unit (BBU), the CPRI module to: establish communication with a Small Form-factor Pluggable (SFP) transceiver installed in the RRH; issue commands to the SFP transceiver to determine whether the SFP transceiver is correctly installed in the RRH, whether the SFP has installed a most recent version of firmware, and whether the SFP is connected to a particular fiber link; and measure bit error rate of the particular fiber link if connected to the SFP. 5. The test tool according to claim 1 , further comprising: an SA/CPRI module, including an SA module and a CPRI module, wherein the SA/CPRI module performs a Radio Frequency over Common Public Radio Interface (RFoCPRI) test, the SA/CPRI module to: generate an optical CPRI reference signal with known parameters to emulate a Base Band Unit (BBU); output the optical CPRI signal via fiber optical cable to a Remote Radio Head (RRH) to turn on the RRH; receive a CPRI uplink retum signal from the RRH; decode the CPRI reference signal into an RF reference signal and decode the CPRI uplink retum signal into an RF uplink return signal; and compare the CPRI reference signal to the CPRI uplink return signal to detect interference in the uplink return signal. 6. The test tool according to claim 5 , wherein the RF reference signal is compared to the RF uplink return signal to determine a presence of Passive InterModulation (PIM). 7. The test tool according to claim 1 , further comprising: an OTDR module to execute the OTDR test on an optical fiber being tested, the OTDR module to: emit a plurality of laser beams, each laser beam including a different pulse width into the optical fiber; and receive, for each laser beam, a backscattered signal from the optical fiber; generate, for each backscattered signal, a trace along the optical fiber; and generate, based on an analysis of each trace along the optical fiber, a combined trace that identifies optical events detected along the optical fiber. 8. The test tool according to claim 1 , wherein the job comprises a fiber inspection test to test an optical fiber and an external fiber microscope is connectable to the test tool to output a visual representation of artifacts present in the optical fiber, the processor to execute the machine readable instructions to: display the artifacts on the GUI as an overlay on predetermined zones of the optical fiber, including a core zone of the optical fiber, a cladding zone of the optical fiber, an adhesive zone of the optical fiber, and a contact zone of the optical fiber; and display a pass or fail condition for each zone based on the artifacts, wherein upon receiving a pass condition for each zone, the processor proceeds to a next test in the populated sequence of tests for the selected job. 9. A method for testing conditions associated with a cell site, with a test tool including a processor, the method comprising: storing a plurality of jobs in a memory of the test tool, each of the plurality of jobs comprising a sequence of tests to test different aspects of the cell site; receiving selection of a job of the plurality of jobs via an input/output (I/O) device of the test tool, the selected job associated with testing signal interference for the cell site; and executing the selected job, wherein executing the job comprises: determining whether communication of radio frequency (RF) signals between a transmitter and receiver of the cell site uses frequency division duplexing (FDD); if the communication does not use FDD, performing a gated sweep of the RF signals; performing a test specified in the job to identify interference in the RF signals received at the test tool; in response to identifying the interference, executing real-time spectrum analysis (RtSA) of the RF signals received at the test tool from the transmitter; determining spectral flatness of the RF signals; determining a received signal strength indicator (RSSI) of the RF signals for a specified channel; and generating a test report specifying the test, the interference, the spectral flatness, and the RSSI. 10. The method according to claim 9 , further comprising: receiving selection of a first antenna and second antenna of an antenna array; executing the test on RF signals received from the first antenna and the second antenna to detect interference in the RF signals received from the first antenna and the second antenna; measuring spectral flatness and RSSI for the RF signals received from the first antenna and the second antenna; and generating a test report specifying the spectral flatness and the RSSI for the RF signals received from the first antenna and the second antenna. 11. The method according to claim 9 , wherein the test is a Radio Frequency over Common Public Radio Interface (RFoCPRI) test, further comprising: generating a reference RF signal to emulate a base band unit (BBU); generating a reference CPRI signal from the reference RF signal; outputting the reference CPRI signal to a remote radio head (RRH), wherein the RRH is the transmitter; receiving a response CPRI signal from the RRH; converting the response CPRI signal into a response RF signal; and comparing the RF response signal and the reference RF reference signal to detect the interference. 12. The method according to claim 10 , further comprising: