This study is undertaken to develop methods and technology of using the injection pressure waveform to diagnose, on-line the malfunctions of a diesel injection system. Emphasis is placed on the establishment of the database to identify malfunction characteristics in the injection pressure waveform. For this study, numerical investigation is proposed to find the characteristics of the injection pressure waveform while the components of the injection system are out of order. The governing equations used here are quasi-one dimensional compressible flow equations and an energy conservation equation. The compliance of the fuel tube is also modeled in this mathematical model. The numerical codes are verified and validated by comparison with the experimental data. Several types of malfunction are simulated to find their effect on the pressure waveform, including abnormal injector opening pressure, plunger corrosion, plugged injector and illegal tuning. The results also recommend that the measuring point should be near the injector side using on-line diagnosis instruments. Also, the local maximum and local minimum of the first derivative of pressure would be indications of injector opening and close. The duration time is assumed to be the important parameter for smoke generation.