[06:34:49] --- haba has become available [07:07:42] --- haba has left [07:07:42] --- haba has become available [07:13:33] --- deason/gmail has become available [07:55:13] --- haba has left [07:55:25] --- haba has become available [08:34:04] --- jblaine has become available [08:35:28] --- jaltman/FrogsLeap has left: Disconnected [08:37:33] --- jaltman/FrogsLeap has become available [08:51:56] --- haba has left [09:05:56] --- jaltman/FrogsLeap has left: Disconnected [09:25:49] --- Russ has become available [10:30:15] --- jaltman/FrogsLeap has become available [10:31:22] --- jaltman/FrogsLeap has left: Disconnected [10:31:29] --- jaltman/FrogsLeap has become available [11:21:56] --- ktdreyer has become available [12:41:55] --- haba has become available [13:43:54] Russ around? [14:27:06] --- haba has left [14:44:45] --- jblaine has left [14:44:45] --- meffie has left [14:48:27] --- jblaine has become available [14:53:51] --- meffie has become available [15:18:01] meffie: Yes, collectd could also be useful (your note to me in here last week before my vaca). [15:27:10] --- deason/gmail has left [15:43:47] --- meffie has left [15:57:38] --- Simon Wilkinson has become available [16:27:45] What's the most straightfoward way to test a new client build? [16:27:57] against cache corruption issues, etc [16:31:01] --- Simon Wilkinson has left [18:02:27] I think bonnie++ is supposed to be a generic disk/filesystem-stressing application. [19:59:06] --- ktdreyer has left [20:36:11] for cache corruption, I would just md5sum a file bigger than the chunk size [23:01:30] --- jaltman/FrogsLeap has left: Replaced by new connection [23:01:31] --- jaltman/FrogsLeap has become available [23:42:35] --- haba has become available [23:44:12] --- Russ has left: Disconnected [23:56:39] --- Simon Wilkinson has become available [23:57:41] The best general purpose test that I have found is doing large compiles out of AFS - Marc tends to build the kernel, IIRC, and I tend to build OpenAFS itself. Use a parallel make, and you can get a large number of processes all hitting the file system at the same time.