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Declared in: drivers/driver_settings.h
If your driver is loaded before the file system for the disk on which your settings file resides, your driver might not be able to load its settings using Posix calls. Also, a robust method for reading settings files—even if they might have become corrupted—can help the system be more stable; if your driver crashes trying to read its settings, the entire system is in jeopardy.
The driver settings API provides easy, safe access to boolean and string settings, and is available to all drivers and modules. If your driver has more complex settings, the get_driver_settings() function is available to retrieve all your settings in a hierarchical tree.
The boot loader reads the settings files from the boot volume and passes them to the kernel for distribution to the drivers upon request. The boot loader also lets the user add to these settings at boot time; a line of the form "filename:parameters" in the advanced safe mode menu will add "parameters" to the end of the specified settings file. This can be used to change debugging information and to test different options while developing your driver.
Using the API is very simple. Just follow these basic steps:
Driver settings files are kept in ~/config/settings/kernel/drivers.
The settings file is formatted like this:
name [value]* [{
[parameter]*
}] ['n',',']
Where [ ... ] indicates an optional part, and [ ... ]* indicates an optional repeated part.
Here's an example settings file:
device 0 {
attribute1 value
attribute2 value
}
device 1 {
attribute1 value
}
For this settings file, get_driver_settings() will return a pointer to the following tree:
driver_settings = {
parameter_count = 2
parameters = {
name = "device"
value_count = 1
values = { "0" }
parameter_count = 2
parameters = {
name = "attributes1"
value_count = 1
values = "value"
parameter_count = 0
parameters = NULL
},
{
name = "attribute2"
value_count = 1
values = "value"
parameter_count = 0
parameters = NULL
}
},
{
name = "device"
value_count = 1
values = { "1" }
parameter_count = 1
parameters = {
name = "attribute1"
value_count = 1
values = "value"
parameter_count = 0
parameters = NULL
}
}
}
To load the driver's settings, you need to call load_driver_settings(). For example, if your driver's name is "xr_joystick", you might do this:
void *handle = load_driver_settings("xr_joystick");
The handle is then used when calling the other driver settings functions, to indicate which driver's settings you want to reference. This opaque reference protects you against any future changes in the kernel.
There are three functions you can use to read driver settings:
Let's look at a simple driver that has one boolean parameter, "debug", that enables a special debug mode. The value of this parameter is represented in the settings file by a line "debug value", where value is either "true" or "false". By default, if there's no setting for the debug parameter, false should be assumed. If the parameter is specified but no value is included, we want to assume that the user means true.
Our code to read this setting looks like this:
void *handle = load_driver_settings("xr_joystick"); bool debug = get_driver_boolean_parameter(handle, "debug", false, true); unload_driver_settings(handle);
If there's no settings file, load_driver_settings() will return NULL. In this case, get_driver_boolean_parameter() will return false (the value we're passing as the unknownValue argument).
If there's a settings file, but the debug entry isn't found, the unknownValue argument is returned. Even though the handle is valid, the function can't find a value for that argument, so it uses this as the default.
If the file contains a line starting with "debug", the second word on the line is used as the value. If no value is specified, true is returned (the value of the noArgValue argument to get_driver_boolean_parameter()). Otherwise the following is done:
If more than one line containing the word "debug" is found, the last one in the file is used. This lets the user override, at boot time, the value previously specified in the settings file.
Reading string parameters works in much the same way, using the get_driver_parameter() function. The only difference is that the string returned will be NULL if the parameter is missing, or the file doesn't exist.
If your driver has more complex parameters (such as parameters with multiple values, or with subparameters), you can read the entire settings tree using the get_driver_settings() function.
The driver_settings structure contains the root of the settings tree:
typedef struct driver_settings { int parameter_count; struct driver_parameter *parameters; };
Each parameter is described by the driver_parameter structure:
typedef struct driver_parameter { char *name; int value_count; char **values; int parameter_count; struct driver_parameter *parameters; };
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Returns the value of a given boolean parameter. The driver settings file is specified by the handle, as returned by load_driver_settings(). The parameter's name is given by keyName. If the parameter isn't found, unknownValue is returned. If the parameter exists but has no value, noArgValue is returned. This lets you easily deal with these two conditions, providing appropriate default values without additional code to check for error conditions.
If the handle is NULL, unknownValue is returned.
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Returns the value of a given string parameter. The driver settings file is specified by the handle, as returned by load_driver_settings(). The parameter's name is given by keyName. If the parameter isn't found, unknownValue is returned. If the parameter exists but has no value, noArgValue is returned. This lets you easily deal with these two conditions, providing appropriate default values without additional code to check for error conditions.
The special keyName value B_SAFEMODE_SAFE_MODE can be used if you want to find out whether or not BeOS was booted in safe mode; the value will be true if BeOS is running in safe mode, or false if a normal boot was performed.
If the handle is NULL, unknownValue is returned.
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Returns the values of all parameters in encapsulated form.
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load_driver_settings() loads the settings for the driver specified by driverName, and returns a handle that should be used for calls to other driver settings functions. If you want to access the safe mode settings, pass B_SAFEMODE_DRIVER_SETTINGS Returns NULL if no settings are available for the driver.
unload_driver_settings() unloads the settings for the driver whose settings file is specified by handle. You should always call this function when you're done reading the settings.
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Describes a subtree of parameters.
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Encapsulates all the settings for a driver.
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