I am attempting to communicate with a rather specific USB device and developing both Windows and Mac code to do so.
The device is a USB device with a HID interface (class 3) with two endpoints, an interrupt input and an interrupt output. The nature of the device is such that data is sent out from the device on the input endpoint only when data is requested from the host: the host sends it data which the device responds to on its input interrupt endpoint. Getting data to the device (a write) is much more simple...
The code for Windows is rather straight-forward: I get a handle to the device and then call either ReadFile or WriteFile. Apparently much of the underlying asynchronous behavior is abstracted out. It appears to work fine.
On Mac, however, it is a bit stickier. I have tried a number of things, none which have been fully successful, but here are the two things which seemed most promising...
1.) Attempt to get access to the device (as USB) via IOUSBInterfaceInterface, iterate through the endpoints to determine the input and output endpoints, and (hopefully) use ReadPipe and WritePipe to communicate. Unfortunately I am unable to open the interface once I have it, with the return value (kIOReturnExclusiveAccess) noting that something already has the device open exclusively. I have tried using IOUSBinterfaceInterface183, so that I could call USBInterfaceOpenSeize, but that results in the same return error value.
--- update 7/30/2010 ---
Apparently, the Apple IOUSBHIDDriver matches early to the device and this is what likely is preventing opening the IOUSBInterfaceInterface. From some digging about it seems that the common way to prevent the IOUSBHIDDriver from matching is to write a code-less kext (kernel extension) with a higher probe score. This would match early, preventing the IOUSBHIDDriver from opening the device, and should, in theory, permit me to open the interface and to write and read to endpoints directly. This is OK, but I would much prefer not having to install something additional on the user machine. If anyone knows of a solid alternative I would be thankful for the information.
2.) Open the device as an IOHIDDeviceInterface122 (or later). To read, I set up an async port, event source and callback method to be called when data is ready - when data is sent from the device on the input interrupt endpoint. However, to write the data — that the device needs — to initialize a response I can't find a way. I'm stumped. setReport typically writes to the control endpoint, plus I need a write that does not expect any direct response, no blocking.
I have looked around online and have tried many things, but none of them is giving me success. Any advice? I can not use much of the Apple HIDManager code since much of that is 10.5+ and my application must work on 10.4 as well.
I have now a working Mac driver to a USB device that requires communication through interrupt endpoints. Here is how I did it:
Ultimately the method that worked well for me was option 1 (noted above). As noted, I was having issues opening the COM-style IOUSBInterfaceInterface to the device. It became clear over time that this was due to the HIDManager capturing the device. I was unable to wrest control of the device from the HIDManager once it was captured (not even the USBInterfaceOpenSeize call or the USBDeviceOpenSeize calls would work).
To take control of the device I needed to grab it before the HIDManager. The solution to this was to write a codeless kext (kernel extension). A kext is essentially a bundle that sits in System/Library/Extensions that contains (usually) a plist (property list) and (occasionally) a kernel-level driver, among other items. In my case I wanted only the plist, which would give the instructions to the kernel on what devices it matches. If the data gives a higher probe score than the HIDManager then I could essentially capture the device and use a user-space driver to communicate with it.
The kext plist written, with some project-specific details modified, is as follows:
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>OSBundleLibraries</key>
<dict>
<key>com.apple.iokit.IOUSBFamily</key>
<string>1.8</string>
<key>com.apple.kernel.libkern</key>
<string>6.0</string>
</dict>
<key>CFBundleDevelopmentRegion</key>
<string>English</string>
<key>CFBundleGetInfoString</key>
<string>Demi USB Device</string>
<key>CFBundleIdentifier</key>
<string>com.demiart.mydevice</string>
<key>CFBundleInfoDictionaryVersion</key>
<string>6.0</string>
<key>CFBundleName</key>
<string>Demi USB Device</string>
<key>CFBundlePackageType</key>
<string>KEXT</string>
<key>CFBundleSignature</key>
<string>????</string>
<key>CFBundleVersion</key>
<string>1.0.0</string>
<key>IOKitPersonalities</key>
<dict>
<key>Device Driver</key>
<dict>
<key>CFBundleIdentifier</key>
<string>com.apple.kernel.iokit</string>
<key>IOClass</key>
<string>IOService</string>
<key>IOProviderClass</key>
<string>IOUSBInterface</string>
<key>idProduct</key>
<integer>12345</integer>
<key>idVendor</key>
<integer>67890</integer>
<key>bConfigurationValue</key>
<integer>1</integer>
<key>bInterfaceNumber</key>
<integer>0</integer>
</dict>
</dict>
<key>OSBundleRequired</key>
<string>Local-Root</string>
</dict>
</plist>
The idVendor and idProduct values give the kext specificity and increase its probe score sufficiently.
In order to use the kext, the following things need to be done (which my installer will do for clients):
Change the owner to root:wheel (sudo chown root:wheel DemiUSBDevice.kext)
Copy the kext to Extensions (sudo cp DemiUSBDevice.kext /System/Library/Extensions)
Call the kextload utility to load the kext for immediate use without restart (sudo kextload -vt /System/Library/Extensions/DemiUSBDevice.kext)
Touch the Extensions folder so that the next restart will force a cache rebuild (sudo touch /System/Library/Extensions)
At this point the system should use the kext to keep the HIDManager from capturing my device. Now, what to do with it? How to write to and read from it?
Following are some simplified snippets of my code, minus any error handling, that illustrate the solution. Before being able to do anything with the device, the application needs to know when the device attaches (and detaches). Note that this is merely for purposes of illustration — some of the variables are class-level, some are global, etc. Here is the initialization code that sets the attach/detach events up:
#include <IOKit/IOKitLib.h>
#include <IOKit/IOCFPlugIn.h>
#include <IOKit/usb/IOUSBLib.h>
#include <mach/mach.h>
#define DEMI_VENDOR_ID 12345
#define DEMI_PRODUCT_ID 67890
void DemiUSBDriver::initialize(void)
{
IOReturn result;
Int32 vendor_id = DEMI_VENDOR_ID;
Int32 product_id = DEMI_PRODUCT_ID;
mach_port_t master_port;
CFMutableDictionaryRef matching_dict;
IONotificationPortRef notify_port;
CFRunLoopSourceRef run_loop_source;
//create a master port
result = IOMasterPort(bootstrap_port, &master_port);
//set up a matching dictionary for the device
matching_dict = IOServiceMatching(kIOUSBDeviceClassName);
//add matching parameters
CFDictionarySetValue(matching_dict, CFSTR(kUSBVendorID),
CFNumberCreate(kCFAllocatorDefault, kCFNumberInt32Type, &vendor_id));
CFDictionarySetValue(matching_dict, CFSTR(kUSBProductID),
CFNumberCreate(kCFAllocatorDefault, kCFNumberInt32Type, &product_id));
//create the notification port and event source
notify_port = IONotificationPortCreate(master_port);
run_loop_source = IONotificationPortGetRunLoopSource(notify_port);
CFRunLoopAddSource(CFRunLoopGetCurrent(), run_loop_source,
kCFRunLoopDefaultMode);
//add an additional reference for a secondary event
// - each consumes a reference...
matching_dict = (CFMutableDictionaryRef)CFRetain(matching_dict);
//add a notification callback for detach event
//NOTE: removed_iter is a io_iterator_t, declared elsewhere
result = IOServiceAddMatchingNotification(notify_port,
kIOTerminatedNotification, matching_dict, device_detach_callback,
NULL, &removed_iter);
//call the callback to 'arm' the notification
device_detach_callback(NULL, removed_iter);
//add a notification callback for attach event
//NOTE: added_iter is a io_iterator_t, declared elsewhere
result = IOServiceAddMatchingNotification(notify_port,
kIOFirstMatchNotification, matching_dict, device_attach_callback,
NULL, &g_added_iter);
if (result)
{
throw Exception("Unable to add attach notification callback.");
}
//call the callback to 'arm' the notification
device_attach_callback(NULL, added_iter);
//'pump' the run loop to handle any previously added devices
service();
}
There are two methods that are used as callbacks in this initialization code: device_detach_callback and device_attach_callback (both declared at static methods). device_detach_callback is straightforward:
//implementation
void DemiUSBDevice::device_detach_callback(void* context, io_iterator_t iterator)
{
IOReturn result;
io_service_t obj;
while ((obj = IOIteratorNext(iterator)))
{
//close all open resources associated with this service/device...
//release the service
result = IOObjectRelease(obj);
}
}
device_attach_callback is where most of the magic happens. In my code I have this broken into multiple methods, but here I'll present it as a big monolithic method...:
void DemiUSBDevice::device_attach_callback(void * context,
io_iterator_t iterator)
{
IOReturn result;
io_service_t usb_service;
IOCFPlugInInterface** plugin;
HRESULT hres;
SInt32 score;
UInt16 vendor;
UInt16 product;
IOUSBFindInterfaceRequest request;
io_iterator_t intf_iterator;
io_service_t usb_interface;
UInt8 interface_endpoint_count = 0;
UInt8 pipe_ref = 0xff;
UInt8 direction;
UInt8 number;
UInt8 transfer_type;
UInt16 max_packet_size;
UInt8 interval;
CFRunLoopSourceRef m_event_source;
CFRunLoopSourceRef compl_event_source;
IOUSBDeviceInterface245** dev = NULL;
IOUSBInterfaceInterface245** intf = NULL;
while ((usb_service = IOIteratorNext(iterator)))
{
//create the intermediate plugin
result = IOCreatePlugInInterfaceForService(usb_service,
kIOUSBDeviceUserClientTypeID, kIOCFPlugInInterfaceID, &plugin,
&score);
//get the device interface
hres = (*plugin)->QueryInterface(plugin,
CFUUIDGetUUIDBytes(kIOUSBDeviceInterfaceID245), (void**)&dev);
//release the plugin - no further need for it
IODestroyPlugInInterface(plugin);
//double check ids for correctness
result = (*dev)->GetDeviceVendor(dev, &vendor);
result = (*dev)->GetDeviceProduct(dev, &product);
if ((vendor != DEMI_VENDOR_ID) || (product != DEMI_PRODUCT_ID))
{
continue;
}
//set up interface find request
request.bInterfaceClass = kIOUSBFindInterfaceDontCare;
request.bInterfaceSubClass = kIOUSBFindInterfaceDontCare;
request.bInterfaceProtocol = kIOUSBFindInterfaceDontCare;
request.bAlternateSetting = kIOUSBFindInterfaceDontCare;
result = (*dev)->CreateInterfaceIterator(dev, &request, &intf_iterator);
while ((usb_interface = IOIteratorNext(intf_iterator)))
{
//create intermediate plugin
result = IOCreatePlugInInterfaceForService(usb_interface,
kIOUSBInterfaceUserClientTypeID, kIOCFPlugInInterfaceID, &plugin,
&score);
//release the usb interface - not needed
result = IOObjectRelease(usb_interface);
//get the general interface interface
hres = (*plugin)->QueryInterface(plugin, CFUUIDGetUUIDBytes(
kIOUSBInterfaceInterfaceID245), (void**)&intf);
//release the plugin interface
IODestroyPlugInInterface(plugin);
//attempt to open the interface
result = (*intf)->USBInterfaceOpen(intf);
//check that the interrupt endpoints are available on this interface
//calling 0xff invalid...
m_input_pipe = 0xff; //UInt8, pipe from device to Mac
m_output_pipe = 0xff; //UInt8, pipe from Mac to device
result = (*intf)->GetNumEndpoints(intf, &interface_endpoint_count);
if (!result)
{
//check endpoints for direction, type, etc.
//note that pipe_ref == 0 is the control endpoint (we don't want it)
for (pipe_ref = 1; pipe_ref <= interface_endpoint_count; pipe_ref++)
{
result = (*intf)->GetPipeProperties(intf, pipe_ref, &direction,
&number, &transfer_type, &max_packet_size, &interval);
if (result)
{
break;
}
if (transfer_type == kUSBInterrupt)
{
if (direction == kUSBIn)
{
m_input_pipe = pipe_ref;
}
else if (direction == kUSBOut)
{
m_output_pipe = pipe_ref;
}
}
}
}
//set up async completion notifications
result = (*m_intf)->CreateInterfaceAsyncEventSource(m_intf,
&compl_event_source);
CFRunLoopAddSource(CFRunLoopGetCurrent(), compl_event_source,
kCFRunLoopDefaultMode);
break;
}
break;
}
}
At this point we should have the numbers of the interrupt endpoints and an open IOUSBInterfaceInterface to the device. An asynchronous writing of data can be done by calling something like:
result = (intf)->WritePipeAsync(intf, m_output_pipe,
data, OUTPUT_DATA_BUF_SZ, device_write_completion,
NULL);
where data is a char buffer of data to write, the final parameter is an optional context object to pass into the callback, and device_write_completion is a static method with the following general form:
void DemiUSBDevice::device_write_completion(void* context,
IOReturn result, void* arg0)
{
//...
}
reading from the interrupt endpoint is similar:
result = (intf)->ReadPipeAsync(intf, m_input_pipe,
data, INPUT_DATA_BUF_SZ, device_read_completion,
NULL);
where device_read_completion is of the following form:
void DemiUSBDevice::device_read_completion(void* context,
IOReturn result, void* arg0)
{
//...
}
Note that to receive these callbacks the run loop must be running (see this link for more information about the CFRunLoop). One way to achieve this is to call CFRunLoopRun() after calling the async read or write methods at which point the main thread blocks while the run loop runs. After handling your callback you can call CFRunLoopStop(CFRunLoopGetCurrent()) to stop the run loop and hand execution back to the main thread.
Another alternative (which I do in my code) is to pass a context object (named 'request' in the following code sample) into the WritePipeAsync/ReadPipeAsync methods - this object contains a boolean completion flag (named 'is_done' in this example). After calling the read/write method, instead of calling CFRunLoopRun(), something like the following can be executed:
while (!(request->is_done))
{
//run for 1/10 second to handle events
Boolean returnAfterSourceHandled = false;
CFTimeInterval seconds = 0.1;
CFStringRef mode = kCFRunLoopDefaultMode;
CFRunLoopRunInMode(mode, seconds, returnAfterSourceHandled);
}
This has the benefit that if you have other threads that use the run loop you won't prematurely exit should another thread stop the run loop...
I hope that this is helpful to people. I had to pull from many incomplete sources to solve this problem and this required considerable work to get running well...
After reading this question a few times and thinking about it for a bit, I thought of another solution for emulating blocking read behavior, but using the HID manager instead of replacing it.
A blocking read function can register an input callback for the device, register the device on the current run loop, and then block by calling CFRunLoopRun(). The input callback can then copy the report into a shared buffer and call CFRunLoopStop(), which causes CFRunLoopRun() to return, thereby unblocking read(). Then, read() can return the report to the caller.
The first issue I can think of is the case where the device is already scheduled on a run loop. Scheduling and then unscheduling the device in the read function may have adverse affects. But that would only be a problem if the application is trying to use both synchronous and asynchronous calls on the same device.
The second thing that comes to mind is the case where the calling code already has a run loop running (Cocoa and Qt apps for example). But, the documentation for CFRunLoopStop() seems to indicate that nested calls to CFRunLoopRun() are handled properly. So, it should be ok.
Here's a bit of simplified code to go with that. I just implemented something similar in my HID Library and it seems to work, although I haven't tested it extensively.
/* An IN report callback that stops its run loop when called.
This is purely for emulating blocking behavior in the read() method */
static void input_oneshot(void* context,
IOReturn result,
void* deviceRef,
IOHIDReportType type,
uint32_t reportID,
uint8_t* report,
CFIndex length)
{
buffer_type *const buffer = static_cast<HID::buffer_type*>(context);
/* If the report is valid, copy it into the caller's buffer
The Report ID is prepended to the buffer so the caller can identify
the report */
if( buffer )
{
buffer->clear(); // Return an empty buffer on error
if( !result && report && deviceRef )
{
buffer->reserve(length+1);
buffer->push_back(reportID);
buffer->insert(buffer->end(), report, report+length);
}
}
CFRunLoopStop(CFRunLoopGetCurrent());
}
// Block while waiting for an IN interrupt report
bool read(buffer_type& buffer)
{
uint8_t _bufferInput[_lengthInputBuffer];
// Register a callback
IOHIDDeviceRegisterInputReportCallback(deviceRef, _bufferInput, _lengthInputBuffer, input_oneshot, &buffer);
// Schedule the device on the current run loop
IOHIDDeviceScheduleWithRunLoop(deviceRef, CFRunLoopGetCurrent(), kCFRunLoopDefaultMode);
// Trap in the run loop until a report is received
CFRunLoopRun();
// The run loop has returned, so unschedule the device
IOHIDDeviceUnscheduleFromRunLoop(deviceRef, CFRunLoopGetCurrent(), kCFRunLoopDefaultMode);
if( buffer.size() )
return true;
return false;
}
I ran into this same kIOReturnExclusiveAccess. Instead of fighting it (building a kext, etc). I found the device and used the POSIX api's.
//My funcation was named differently, but I'm using this for continuity..
void DemiUSBDevice::device_attach_callback(void * context,
io_iterator_t iterator)
{
DeviceManager *deviceManager = (__bridge DADeviceManager *)context;
io_registry_entry_t device;
while ((device = IOIteratorNext(iterator))) {
CFTypeRef prop;
prop = IORegistryEntrySearchCFProperty(device,
kIOServicePlane,
CFSTR(kIODialinDeviceKey),
kCFAllocatorDefault,
kIORegistryIterateRecursively);
if(prop){
deviceManager->devPath = (__bridge NSString *)prop;
[deviceManager performSelector:#selector(openDevice)];
}
}
}
once devPath is set you can call open and read/write..
int dfd;
dfd = open([devPath UTF8String], O_RDWR | O_NOCTTY | O_NDELAY);
if (dfd == -1) {
//Could not open the port.
NSLog(#"open_port: Unable to open %#", devPath);
return;
} else {
fcntl(fd, F_SETFL, 0);
}
Can someone explain the issues that although I set both the InstanceContextMode and ConcurrencyMode to single with max concurrent calls instances and sessions set to 1 in ServiceThrottlingBehavior, I still found that at least 2 threads are processing the wcf requests?
Client Output:
Client name :kk Instance:1 Thread:13 Time:2013/12/30 12:17:56
Client name :kk Instance:1 Thread:12 Time:2013/12/30 12:17:57
Client name :kk Instance:1 Thread:13 Time:2013/12/30 12:17:58
Server Code:
Uri httpUrl = new Uri("http://localhost:8010/MyService/HelloWorld");
//Create ServiceHost
ServiceHost host
= new ServiceHost(typeof(ClassLibrary1.HelloWorldService), httpUrl);
//Add a service endpoint
host.AddServiceEndpoint(typeof(ClassLibrary1.IHelloWorldService)
, new WSHttpBinding(), "");
//Enable metadata exchange
ServiceMetadataBehavior smb = new ServiceMetadataBehavior();
smb.HttpGetEnabled = true;
ServiceThrottlingBehavior stb = new ServiceThrottlingBehavior
{
MaxConcurrentCalls = 1,
MaxConcurrentInstances = 1 ,
MaxConcurrentSessions = 1
};
host.Description.Behaviors.Add(smb);
host.Description.Behaviors.Add(stb);
//Start the Service
host.Open();
Client Code:
ServiceReference1.HelloWorldServiceClient obj = new ServiceReference1.HelloWorldServiceClient();
for(int i=0;i<15;i++)
{
obj.Call(str);
Thread.Sleep(1000);
}
Service Code:
[ServiceContract]
public interface IHelloWorldService
{
[OperationContract(IsOneWay=true)]
void Call(string ClientName);
}
[ServiceBehavior(InstanceContextMode=InstanceContextMode.Single, ConcurrencyMode = ConcurrencyMode.Single)]
public class HelloWorldService : IHelloWorldService
{
public static int i;
public HelloWorldService()
{
i++;
}
public void Call(string ClientName)
{
Console.WriteLine("Client name :" + ClientName + " Instance:" + i.ToString() + " Thread:" + Thread.CurrentThread.ManagedThreadId.ToString() + " Time:" + DateTime.Now.ToString() + "\n\n");
}
}
I'm not an expert on threading, but I'll take a stab at this and expand upon my comments.
According to MSDN, ConcurrencyMode.Single means The service instance is single-threaded and does not accept reentrant calls. If the InstanceContextMode property is Single, and additional messages arrive while the instance services a call, these messages must wait until the service is available or until the messages time out.
You're calling your service with a 1 second delay between each successive call. Your output shows this as well - each call is 1 second later than the immediately previous one.
I believe the thread id is a red herring in this case, as I would expect the service to use an available thread from the thread pool. I don't see anything in the documentation that guarantees the same thread will be used every time, and it seems to me that would be an unreasonable expectation.
If you're expecting a dedicated thread from the available threads, I don't think you can do that. If you're expecting the service to handle only one request at a time, the way you have it should do that.
I agree with Tim's answer that same thread need not be servicing all the calls. ConcurencyMode.Single will only guarantee one thread is servicing the call at a time.
If for some reason you require thread affinity on your WCF service, for example, if you are running a singleton service on a WinForms/WPF application and you want the service calls to run over the UI thread only - then, you just have to Open the service host on the UI thread. WCF is SynchronizationContext aware and will dispatch calls to UI thread only irrespective of what your ConcurrencyMode is. Also, see UseSynchronizationContext property of ServiceBehavior attribute.
I have a board that is connected to USB on a STM32F107 with the following pins
USB_OTG_VBUS : PA9
USBDM : PA11
USBDP : PA12
I have a project that needs to use both Virtual Com Port and USB Mass Storage. It needs to re-enumerate the USB then do a software reset to enable the different USB class.
I have tried various different things to get it to re-enumerate but so far have been unable to, the only way to re-enumerate is to unplug usb cable.
These are some of the functions i have tried with no success
USB_OTG_DisableGlobalInt(&USB_OTG_dev);
USB_OTG_WRITE_REG32(&USB_OTG_dev.regs.GREGS->GINTSTS, 0xBFFFFFFF);
USB_OTG_CoreReset(&USB_OTG_dev);
USBD_DeInit(&USB_OTG_dev);
DCD_DevDisconnect(&USB_OTG_dev);
NVIC_SystemReset();
Would anyone have any ideas on how to get the USB to re-enumerate when it is configured with only these 3 pins for the STM32F107?
If you're using a demo board, it has the functionality to disconnect the USB through a microcontroller pin. If you're not using a demo board, you need to come up with that ability yourself, by disconnecting the pull-up resistor on the USB_DM/USB_DP line...
Before initializing USB peripheral, configure D+ pin (USBP) as GPIO output push-pull and set low (0V) for 5ms. Then initiate standard USB configuration including GPIO. After this procedure USB host recognizes new device and starts enumeration.
GPIO_InitTypeDef GPIO_InitStructure;
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_12;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_Init(GPIOA, &GPIO_InitStructure);
GPIO_ResetBits(GPIOA, GPIO_Pin_12);
delay_ms(5);
//call your USB Init here
Worked for me.
source
Had a similar problem. Try this:
USB_OTG_dev.regs.GREGS->GCCFG = 0;
Wait a bit and then init the USB again.
I used the answer from #viteo and tweaked it a little as I had some compile errors. This code works on the Blue Pill development board (STM32F103C8), which includes a 1.5k pullup resistor on the PA12 (USB_DP) line. Therefore, this code forces the USB_DP line low for a short time, which is like the USB cable has been unplugged and reconnected, thereby forcing the host to re-enumerate the bus when the USB is subsequently configured.
Edit USB_DEVICE/App/usb_device.c and add the code inside the USB_DEVICE_Init_PreTreatment block
void MX_USB_DEVICE_Init(void)
{
/* USER CODE BEGIN USB_DEVICE_Init_PreTreatment */
GPIO_InitTypeDef GPIO_InitStruct = {0};
GPIO_InitStruct.Pin = GPIO_PIN_12;
GPIO_InitStruct.Mode = GPIO_MODE_OUTPUT_PP;
GPIO_InitStruct.Pull = GPIO_PULLDOWN;
GPIO_InitStruct.Speed = GPIO_SPEED_HIGH;
HAL_GPIO_Init(GPIOA, &GPIO_InitStruct);
HAL_GPIO_WritePin(GPIOA, GPIO_PIN_12, GPIO_PIN_RESET);
HAL_Delay(100);
/* USER CODE END USB_DEVICE_Init_PreTreatment */
How can I get my default Gateway IP and MAC Address in Objective-C?
Right now, I was able to make a function to get the IP that uses arpa/inet.h it works fine, but I've no idea how to get the default gateway IP and MAC Address.
NSString* GetMyIP(NSString* inf) {
NSString *address = #"error";
struct ifaddrs *interfaces = NULL;
struct ifaddrs *temp_addr = NULL;
int success = 0;
// retrieve the current interfaces - returns 0 on success
success = getifaddrs(&interfaces);
if (success == 0)
{
// Loop through linked list of interfaces
temp_addr = interfaces;
while(temp_addr != NULL)
{
if(temp_addr->ifa_addr->sa_family == AF_INET)
{
// Check if interface!
if([[NSString stringWithUTF8String:temp_addr->ifa_name] isEqualToString:inf])
{
// Get NSString from C String
address = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_addr)->sin_addr)];
}
}
temp_addr = temp_addr->ifa_next;
}
}
freeifaddrs(interfaces);
return address;
}
I used arp and netstat for a while but they don't always work as expected and as you might understand are risky solutions...
Is there another more "Apple-way" to get this kind of info? Without using arpa/inet.h? Examples?
Thank you.
This answer explains how to get the MAC address for an interface on OSX.
The default gateway is registered in the routing table - not directly associated with a network interface. Note that the default gateway (i.e. the gateway for 0.0.0.0) is probably not the only one you need to care about, there might be routers set for more constrained address ranges. (also, there may be multiple gateways, default or otherwise, with different priorities)
The routing table is documented in the route(4) manpage - that should hopefully give you enough information for retrieving the routing table in your app.