I searched for a long time in Objective-C on how I could retrieve some stats for bytes in/out of macOS network interface and haven't found anything.
I thought about using command line, and find an OS stats on socket (maybe in sysctl) which I could use to make some math, but haven't found.
I tried to grep on nettop, but the way it's done in CLI is impossible to grep.
I just found 2 apps on AppStore which does't exactly this, showing bandwidth used in real time:
https://itunes.apple.com/us/app/network-scanner/id1103147103?l=en&mt=12
https://itunes.apple.com/us/app/network-inspector/id515794671?l=en&mt=12
I tried to use Activity Monitor and sample process to understand the call they do without success.
Any idea on how those two apps retrieve number of bytes in/out of network interface?
Related
I was able to make a working HID USB stack on my "StartUSB for PIC" board for the 18F2550 microcontroller. I based it on one of the MLA libraries, which was made for the 18F45K50 (MLA 2018_11_26, hid_custom, picdem_fs_usb_k50.x), but I converted it to work with the 18F2550 (there might have been easier ways, but only learned to work with PIC about 1 month ago). On the host side, I'm using LibUsbDotNet (also here, there might be easier ways - the documentation on this library really sucks) on a Windows 10 machine.
I'm using the HID class, full speed, and all seems to work. Although, I get some random errors on the host PC (see below), but doing one close/re-open cycle on the host side when getting the error is kind of solving it. Dirty, but it works. So I kind of ignore this now.
Win32Error:Win32Error:GetOverlappedResult Ep 0x01
995:The I/O operation has been aborted because of either a thread exit or an application request.
I'm not an expert on USB (yet). But all examples I'm seeing are based on 1) you send first a command to the device and 2) then you retrieve the answer from the device. I did some performance tests, and see that this indeed shows that I can do about 500 cycles/second. I think that is correct, because each cycle, sending command and retrieving answer, each takes 1 msec.
But do I really need to send a command? Can't I just keep reading endlessly, and when the device has somthing to say, it does send the data in an IN transaction, and when not it ignores which creates a timeout on the host side. That would mean that I can poll at 1000 cycles/second? Unfortunately, I have tried it by changing my implementation on the PIC, but I get very weird results. I think I have issues with suspend mode. That brings me to another question - how can I make the device get out of suspend mode (means that not the host, but the device should be triggering this event). I have searched the MLA library for command such as "wakeup", "resume", ... but couldn't find anything.
So, to summarize, 2 questions:
Conceptual: Can I send data from device to host without being requested for it by a command from the host?
For PIC experts: How can I have a device trigger for a wakeup from suspend mode?
And indeed, the answer is Yes on the first question.
In the meantime, I found another link on the web that contains a Visual Studio C# implementation of a USB library including all the source files.
If you're interested, this is the link
This C# host implementation works as a charm. Without sending a command to the device, I get notified immediately if a button is pressed. Great!
It also proofs that my earlier device implementation based on the original MicroChip MLA, is 100% correct. I stress tested the implementation by sending a "toggle LED command" as fast as I could, and I reach 1000 commands/second. Again great!
I think that LibUsbDotNet isn't that perfect after all. As I wrote above, I get rather unstable communication (Win32Error). But with this implementation, I don't get a single error, even after running for half an hour # 1000 commands/second.
So for me, case closed.
I am workin on a small internet browser in Xcode for OS X using the WebKit framework and I was wondering if it was possible to get a WKWebView's live connection speeds (Upload and Download) to the website and display them in Level Indicators (and write values next to them in textfields). (or any alternatives if not possible with WebKit) Thanks :D
To determine the actual speed, you need to measure the time it takes to upload or download a buffer of known length. If you just need to know if they're connected via WiFi or some other (presumably slower) method, there are ways to determine the type of connection you have. Here's a random example I found for doing this: How to check for an active Internet connection on iOS or macOS?
I have an infrared thermometer which operates on a virtual serial port over USB, which I am trying to use on a Linux intel and next on a raspberry Pi. The system did not enumerate a /dev/ttyUSB device.
I found a piece of a solution here :
Cygnal Integrated Products serial port on Linux
I reprogrammed the product_ID and can now see it as /dev/ttyUSB0.
But trying to talk to the thermometer with minicom doesn't work.
minicom keeps saying "disconnected" despite the "9600 8N1" indication.
I must say, I had many attempt to work with this kind of communication over USB/serial adapter trying using many different terminal emulator like screen or minicom but without any success at all !
I'm not even sure about the right way to send request and receive data.
Here is the documentation I'm using trying to talk to the thermometer :
http://www.optris.com/interfaces?file=tl_files/downloads/Manuals/addendums-de-en/ct-ctlaser-commands.pdf
Edit :
I'm now trying to use PySerial Python library in a Python script with an Arduino as a target (to act as my thermometer, the arduino runs a simple code that takes the data received and send them back to my Python console.) But still, there is so many confusion possible between ASCII, Hexa, binary, that I'm not capable of debugging anything as I don't know where the transformation between different format takes place !
The communication is working as I can get some data forth and back from my Python console through the Arduino. But I can't get sending hexadecimal data and getting any response back in hexadecimal format. + You say "Your latest question puts you in the off-topic category. ", what do you mean ? Sorry of being so confused.
I have been working on Reachability class for a while and have tried both the one from Apple sample and the one from ddg. I wonder whether the Reachability class keep sending / receiving data after starting the notifier.
As I'm developing an app which connect to different hosts quite often, I decided to write a singleton and attach the reachability classes I need on it. The reacability classes would be initiated and start their notifiers once the app start. I use the singleton approach as I want this singleton class to be portable and can be applied to other apps without much rewriting. I am not sure if it is good idea to implement like this but it worked quite well.
However, someone reported that the battery of his device drain significantly faster after using the app and someone reported more data usage. My app does not send / receive data on background so I start wondering if it is related to the reachability.
I tried profiling the energy usage with Instrument and I notice that there are continuous small data (few hundred bytes in average) coming in via the network interfaces even I put my app in idle. However, there are almost no data sending out.
I know that Reachability requires data usage when initiate (resolving DNS etc) but I am not sure that whether it still keep using data after starting notifier. Does anyone can tell?
I am not familiar with the low-level programming, it would be nice if someone could explain how does the Reachability work.
I use Reachability, and while I haven't monitored the connections, I have browsed the code, and I can't see any reason why it would keep sending ( or receiving).
If you have a ethernet connection to your Mac, it is quite easy to check. Enable sharing over wifi of your ethernet connection. Install little snitch, it will run in demo mode for three hours after every boot. Turn off the data connection on the test device and connect it to your mac over wifi.
This will allow you to see any network access your test device is making.
If this isn't possible, you can also run your app in the simulator as the network side should be the same, so you should be able to check.
There are also a ton of other tools to track network activity, but I think little snitch is the easiest to use.
Over the past two days, I am doing some reading on how to get data over USB from an external device which has no device driver installed. I have to read data from a WT500 Yokogawa Power Meter (basically I want to read just one of the parameter that the meter shows, just the power values) over USB. I am aware that a device driver for WT500 is available, but it has some dependencies and I do not want to install a software or change anything majorly in our node to cater to that.
I have found that libusb could be used to perform what I would want, and I have a C program that sniffs the USB device and returns some information. I have looked into usb-robot as well, which also uses libusb. The server node that I am probing has OpenSUSE Linux kernel 2.6.30. I have usbfs mounted.
Question:
I am expecting that using libusb, I would be able to get data dumps from the power meter whenever I request, via usb device. Can I request the meter something like - send 25k of data, and then upon parsing it, I get the parameter value that I am looking for? Considering that I have zero knowledge about the device, can I get some meaningful values out of it? An example code would help.
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There are some standard messages like ?IDN with which a USBTMC device could be queried. However, specific queries need to be sent to a meter (the syntax should be there in the technical doc/manual/communication interface) if one needs to get whatever is showing up on screen.
I guess there are no easier ways of doing what I want - like just reading a file using something like fread ??
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Yes, almost. If USBTMC module is installed (the default one in our kernel did not work, detailed explanation of installing and querying a device is here - http://code.google.com/p/scte/wiki/USBTMC), then one just needs to send some queries and read the response via cat or something from the specific files under /dev.
From the meter technical document, I see that the driver communication interface that is described is Windows specific, so I reckon I might need to do some reverse engineering.
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Yes, but only a tiny bit or may be not at all.
Thank you.
EDIT: After a bit of googling I think I have the answers, I have added them next to the questions I asked.