I'm new to Apama. I see that a com.apama.file lib exists, but I am unsure how to actually use it to read a file. I want to send each line as an event to be parsed and then depending on the contents sent as a different event from there, but googling suggests that I'd need a transport (not sure what that is either) to do so, but my project lead is under the impression that this can all be done using Apama EPL. How true is this and if it has some validity, how can I go about achieving that?
Yes, this is certainly possible. To help you do it, though, please can you provide a little more information about your setup? For example, what is the file type and is the file local to where the correlator will be running? Will there only be one file to process at a time? How large is the file, and are there any specific performance requirements?
You may find this helpful:
https://github.com/SoftwareAG/apama-streaming-analytics-connectivity-FileTransport
You don't say quite what you are trying to achieve, but if you are new to Apama then I will say that that is not something that is done frequently, especially in simpler solutions when your are just starting.
Depending what you are trying to achieve, are you aware of the "engine_send" tool and the ability to use it to send in a text file of Apama events (normally a .evt file), and with batch tags if you want spread them over time?
http://www.apamacommunity.com/documents/10.5.3.0/apama_10.5.3.0_webhelp/apama-webhelp/apama-webhelp/re-DepAndManApaApp_sending_events_to_correlators.html
http://www.apamacommunity.com/documents/10.5.3.0/apama_10.5.3.0_webhelp/apama-webhelp/apama-webhelp/co-DepAndManApaApp_event_file_format.html
I have to analyze pcap file using bro IDS. I have done a lot of work but one thing is missing that is how can I found the states of torrent used. Is there some plugin in bro IDS that I have to enable ?
There is an older Bit Torrent analyzer https://www.bro.org/sphinx/script-reference/proto-analyzers.html#bro-bittorrent.
But, unless this has changed within the last 6 months (check the commit logs in doubt), this analyzer is still not functional in a useful way.
You can give it a try and see what you get out of it. If you only want to know how much bit torrent traffic is in your pcap you might be able to extract that information from the logs. See if you can identify the torrent traffic in the logs and then you can use a simple script to get a summary.
I'm going to sell a lego mindstorms EV3 appliaction and I want to protect it. I'm not going to sell source code, only the compiled code so it's not possible to edit it. And to stop anyone from sharing it, I'd like to protect it somehow. The only way I found is to get EV3's s/n or any similar number that's uniquie in every EV3, it'd be easy. So, is this possible? Or are there any other ways to protect my program from sharing it? Thanks!
I am not aware of a serial number that can be read via code. You could use the MAC address of the bluetooth module.
I am looking to store information in a database table that will be constantly receiving and sending data back and forth to an iPhone App/Python Socket. The problem is, if I were to have my own servers, what is the maximum queries I can sustain?
The reason I'm asking is because if I were to have thousands of people using the clients and multiple queries are going a second, I'm afraid something will go wrong.
Is there a different way of storing user information without MySQL? Or is MySQL OK for what I am doing?
Thank you!
The maximum load is going to vary based on the design of your application and the power of the hardware that you put it on. A well designed application on reasonable hardware will far outperform what you need to get the project off the ground.
If you are unexpectedly successful, you will have money to put into real designers, real programmers and a real business plan. Until then, just have fun hacking away and see if you can bring your idea to reality.
Mysql have sysvar_max_connections system parameter that is handling this.
I have developed a software piece (with C and Python) which I want to protect with dongle so that copying and reverse engineering becomes hard enough. My dongle device comes with an api which provides these:
Check dongle existence
Check proper dongle
Write into a memory location in dongle
Read from a memory location in dongle etc. (I think the rests aren't that good..)
What I can do in the source code so that it becomes harder to crack. Dongle provider suggested that, I should check proper dongle existence in a loop or after an event, or I should use the dongle memory in an efficient way. But how? I have no idea how crackers crack. Please shed some light. Thanks in advance.
P.S: Please don't suggest obfuscating. I have already done that.
First of all, realize that the dongle will only provide a little bit of an obstacle. Someone who knows what they're doing will just remove the call to the dongle and put in a 'true' for whatever result that was called. Everyone will tell you this. But there are roadblocks you can add!
I would find a key portion of your code, something that's difficult or hard to know, something that requires domain knowledge. Then put that knowledge onto the key. One example of this would be shader routines. Shader routines are text files that are sent to a graphics card to achieve particular effects; a very simple brightness/contrast filter would take less than 500 characters to implement, and you can store that in the user space on most dongles. Then you put that information on the key, and only use information from the key in order to show images. That way, if someone tries to just simply remove your dongle, all the images in your program will be blacked out. It would take someone either having a copy of your program, grabbing the text file from the key, and then modifying your program to include that text file, and then knowing that that particular file will be the 'right' way to display images. Particulars of implementation depend on your deployment platform. If you're running a program in WPF, for instance, you might be able to store a directx routine onto your key, and then load that routine from the key and apply the effect to all the images in your app. The cracker then has to be able to intercept that directx routine and apply it properly.
Another possibility is to use the key's random number generation routines to develop UIDs. As soon as someone removes the dongle functionality, all generated UIDs will be zeroed.
The best thing to do, though, is to put a domain specific function onto the dongle (such as the entire UID generation routine). Different manufacturers will have different capabilities in this regard.
How much of a roadblock will these clevernesses get you? Realistically, it depends on the popularity of your program. The more popular your program, the more likely someone will want to crack it, and will devote their time to doing so. In that scenario, you might have a few days if you're particularly good at dongle coding. If your program is not that popular (only a few hundred customers, say), then just the presence of a dongle could be deterrent enough without having to do anything clever.
Crackers will crack by sniffing the traffic between your app and the dongle and either disabling any code that tests for dongle presence or writing code to emulate the dongle (e.g. by replaying recorded traffic), whichever looks easier.
Obfuscation of the testing code, and many scattered pieces of code that perform tests in different ways, as well as separating spatially and temporally the effect of the test (disabling/degrading functionality, displaying a warning etc.) from the test itself make the former method harder.
Mutating the content of the dongle with each test based on some random nonce created each run or possibly even preserved between runs, so that naively recording and replaying the traffic does not work, will make the latter method harder.
However, with the system as described, it is still straightforward to emulate the dongle, so sooner or later someone will do it.
If you have the ability to execute code inside the dongle, you could move code that performs functions critical to your application there, which would mean that the crackers must either rederive the code or break the dongle's physical security - a much more expensive proposal (though still feasible; realise that there is no such thing as perfect security).
How to maximize protection with a simple dongle?
Use API together with Enveloper if an enveloper exists for your resulting file format. This is a very basic rule. Because our enveloper is already equipped with some anti-debugging and obfuscating methods to prevent common newbie hackers to give up hacking the program. Only using enveloper is also not recommended, because once a hacker can break the enveloper protection in other program, they can also break yours.
Call dongle APIs in a LOT of places in your application. For example when first start up, when opening a file, when a dialog box opens, and before processing any information. Also maybe do some random checking even when there's nothing done at all.
Use more than one function to protect a program. Do not just only use find function to look for a plugged dongle.
Use multiple dlls/libraries (if applicable) to call dongle functions. In case one dll is hacked, then there are still other parts of the software that uses the functions from another dll. For example, copying sdx.dll to print.dll, open.dll, and other names, then define the function calls from each dll with different names.
If you use a dll file to call dongle functions, bind it together with the executable. There are quite some programs capable of doing this; for example PEBundle. 3
I have got this article on PRLOG and found it quite useful on maximizing protection with a simple dongle. Maybe this link may help you
Maximizing Protection with a Simple Dongle for your Software
You can implement many check points in your application.
I don't know if you use HASP, but unfortunatelly, dongles can be emulated.
You may want to look into using Dinkey Dongles for your copy protection.
It seems a very secure system and the documentation gives you tips for improving your overall security using the system.
http://www.microcosm.co.uk/dongles.php
Ironically, the thing you want to discourage is not piracy by users, but theft by vendors. The internet has become such a lawless place that vendors can steal and resell your software at will. You have legal recourse in some cases, and not in others.
Nothing is fool-proof, as previously stated. Also, the more complex your security is, the more likely it is to cause headaches or problems for legitimate users.
I'd say the most secure application is always the one tied closest to the server. Sadly, then users worry about it being spyware.
If you make a lot of different calls to your dongle, then maybe the cracker will just emulate your dongle -- or find a single point of failure (quite common to change one or two bytes and all your calls are useless). It is a no-win situation.
As the author of PECompact, I always tell customers that they can not rely on anything to protect their software -- as it can and will be cracked if a dedicated cracker goes after it. The harder you make it, the more of a challenge (fun) it is to them.
I personally use very minimal protection techniques on my software, knowing these facts.
Use smartcard + encrypt/decrypt working files through secret function stored in card. Then software can be pirated, but it will not able to open properly encrypted working files.
I would say that if someone wants to crack your software protection, they will do so. When you say 'hard enough' - how should 'enough' be interpreted?
A dongle will perhaps prevent your average user from copying your software - so in that sense it is already 'enough'. But anyone who feels the need and is able to circumvent the dongle will likely be able to get past any other scheme that you engineer.