How does probe() call gets called? Who calls it? As per my understanding, __init() registers driver and then somehow probe() is called to register the device data and irq etc. How exactly it happens?

I am working on touchscreen driver and its __init registers itself to i2c driver. Then probe expect i2c_client data which returns null. I want to track where it gets filled.

7 Answers 7


Long story short: the probe() function of the driver is called as a result of calling the register_driver for that specific bus. More precisely, it's called by the probe() of that bus_type structure. In your case: i2c_bus_type.

Here's the call chain in your I2C case:

  • i2c_register_driver
  • driver_register
  • bus_add_driver
  • driver_attach
  • __driver_attach (for your device)
  • driver_probe_device
  • really_probe
  • i2c_device_probe (this is what dev->bus->probe is for an i2c driver)
  • your_probe_function
  • When does i2c_register_driver get called? Is it when you call i2cdetect and it finds a device on the bus with a name that matches a registered struct i2c_driver?
    – Ken Lin
    Jul 12, 2020 at 8:22

I have prepared a graph that traces platform drive's probe function. You are working with I2C driver which AFAIK is a platform driver. I hope this helps you to trace the issue.

enter image description here

Also, look into following link to see the discussion on kernelnewbies.



Lets consider an example of a platform device driver:

  1. The starting trigger function for the driver->probe() callback is the module_init() macro called while loading the driver; this macro is defined in include/linux/module.h.

  2. module_init(my_driver_init) has the callback to my_driver_init() function. my_driver_init() function should have a call to platform_driver_register(my_driver)

  3. platform_driver_register(my_driver) assigns my_driver -> probe() handle to generic drv -> probe() and calls the driver_register(my_driver) function.

  4. driver_register(my_driver) function adds my_driver to the platform bus and calls driver_attach() function.

  5. In the same way, even the platform_device needs to attach to the platform bus.

  6. Finally, only if the driver_match_device() returns success based on the .name & .id_table of the driver matches in the platform devices list that comes either from ACPI/DTS, then the driver_probe_device() gets called that has the drv->probe() callback.


@iSegFault : probe() will be called to make sure that the device exist and the functionality is fine.If device is not hot-pluggable, functionality of probe() can be put inside init() method.This will reduce driver's run time memory footprint. P.S link

Probe() happens at the time of device boot or when device is connected.For a "platform" device the probe function is invoked when a platform device is registered and it's device name matches the name specified on the device driver. P.S link

The i2c_detect function probes the I2C adapter, looking for the different addresses specified in the addr_data structure. If a device is found, the chip_detect function then is called. P.S link.

One link that will surely clear your doubt. P.S link

In kernel 2.4.29, i can show you that how does probe happen ? Please see below (File name: drivers/acorn/char/pcf8583.c)

static struct i2c_driver pcf8583_driver = {
name:       "PCF8583",
id:     I2C_DRIVERID_PCF8583,
flags:      I2C_DF_NOTIFY,
attach_adapter: pcf8583_probe, /* This will be called from i2c-core.c P.S see below function i2c_add_driver()*/
detach_client:  pcf8583_detach,
command:    pcf8583_command

File Name: drivers/i2c/i2c-core.c

int i2c_add_driver(struct i2c_driver *driver)

    /* now look for instances of driver on our adapters
    if (driver->flags& (I2C_DF_NOTIFY|I2C_DF_DUMMY)) {
        for (i=0;i<I2C_ADAP_MAX;i++)
            if (adapters[i]!=NULL)
                /* Ignore errors */
                driver->attach_adapter(adapters[i]); /*This is a location from where probe is called. Pointer **driver** is of type **pcf8583_driver** which you have passed into this function*/
    return 0;

Few important links:

  1. http://www.slideshare.net/varunmahajan06/i2c-subsystem-in-linux2624

  2. http://www.programering.com/a/MjNwcTMwATM.html

  3. http://www.linuxjournal.com/article/6717

  4. http://www.developermemo.com/2943157/

  5. http://free-electrons.com/doc/kernel-architecture.pdf

  6. http://www.techques.com/question/1-3014627/Probe-problem-when-writing-a-I2C-device-driver

In PCI for kernel-2.4.29, it gets called when vendor and device id are identified. PCI bus driver do this for you. Please see below code:

File Name: drivers/pci/pci.c

static int pci_announce_device(struct pci_driver *drv, struct pci_dev *dev)
   const struct pci_device_id *id;
   int ret = 0;
   if (drv->id_table) {
    id = pci_match_device(drv->id_table, dev); /* check for device presence*/
    if (!id) {
     ret = 0;
     goto out;
   } else
  id = NULL;
  if (drv->probe(dev, id) >= 0) { /* This is a location from where probe is called*/
   dev->driver = drv;
   ret = 1;
  return ret;

Probe function will be called for every interface of the detected device except the ones which are already registered.


Probe function will gets called when name will match form drivers structure to device structure. Below mentioned eg for both driver and device structure.

1: Driver Structure

 static struct driver your_driver = {
        .driver = {
              .name = YUR_NAME,



static struct i2c_driver l3gd20_driver = {
        .driver = {

                        .name = l3gd20_gyr,


2: Device Structure

static structure device  your_devices = {
              .name = YUR_NAME,


static struct i2c_board_info mxc_i2c2_board_info[] __initdata = {
                I2C_BOARD_INFO("l3gd20_gyr", 0x6a),

Note: When name(l3gd20_gyr) from driver and device will match your probe will gets call.



The probe function is used to initialize and manage a platform device when it is detected by the kernel.

Here's how it works:

1. Device Detection: When the Linux kernel initializes or when a platform device is physically connected or detected, the kernel scans the system's device tree (for ARM-based systems) or ACPI tables (for x86 systems) to identify platform devices.

2.Matching with Compatible Strings: Each platform device is associated with a compatible string that describes the device's type and features. The kernel compares the compatible strings of detected devices with the compatible strings specified in platform drivers.

3.Probe Function Call: When a platform device with a compatible string matching a platform driver is detected, the kernel calls the probe function of that driver.

4.Driver Initialization: Inside the probe function, the driver performs initialization tasks for the specific device. This includes setting up the device's hardware, registering it with relevant kernel subsystems, allocating resources (like memory regions or IRQs), and preparing it for operation.

5.Registration with Subsystems: The probe function often registers the platform device with kernel subsystems, making it accessible to other parts of the kernel and user-space applications.

6.Driver Usage: Once the probe function has successfully initialized the device and completed any necessary setup, the device is ready for use, and the driver can respond to requests and events related to that device.

Note: probe() should in general verify that the specified device hardware actually exists.

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