In recent years, with the growth of online services and IoT devices, software log anomaly detection has become a significant concern for both academia and industry. However, at the time of writing this paper, almost all contributions to the log anomaly detection task, follow the same traditional architecture based on parsing, vectorizing, and classifying. This paper proposes OneLog, a new approach that uses a large deep model based on instead of multiple small components. OneLog utilizes a character-based convolutional neural network (CNN) originating from traditional NLP tasks. This allows the model to take advantage of multiple datasets at once and take advantage of numbers and punctuations, which were removed in previous architectures. We evaluate OneLog using four open data sets Hadoop Distributed File System (HDFS), BlueGene/L (BGL), Hadoop, and OpenStack. We evaluate our model with single and multi-project datasets. Additionally, we evaluate robustness with synthetically evolved datasets and ahead-of-time anomaly detection test that indicates capabilities to predict anomalies before occurring. To the best of our knowledge, our multi-project model outperforms state-of-the-art methods in HDFS, Hadoop, and BGL datasets, respectively setting getting F1 scores of 99.99, 99.99, and 99.98. However, OneLog's performance on the Openstack is unsatisfying with F1 score of only 21.18. Furthermore, Onelogs performance suffers very little from noise showing F1 scores of 99.95, 99.92, and 99.98 in HDFS, Hadoop, and BGL.