Usbethernet state handling, Name, Synopsis – Comtrol eCos User Manual

USB-ethernet State Handling

Name

USB-ethernet State Handling

— Maintaining the USB-ethernet connection with the host

Synopsis

#include

<

cyg/io/usb/usbs_eth.h

>

usbs_control_return usbs_eth_class_control_handler(usbs_control_endpoint* ep0, void*

callback_data);

void usbs_eth_state_change_handler(usbs_control_endpoint* ep0, void* callback_data,

usbs_state_change change, int old_state);

void usbs_eth_disable(usbs_eth* usbseth>);

void usbs_eth_enable(usbs_eth* usbseth>);

Description

When

the

USB-ethernet

package

is

initialized

by

a

call

to

usbs_eth_init

it

installs

usbs_eth_state_change_handler

to handle USB state changes. This allows the package to detect when

the connection between the host and the peripheral is established or broken, resulting in internal calls to

usbs_eth_enable

and

usbs_eth_disable

respectively. This is appropriate if no other code needs to access the

USB device. However, if there is other code, either other USB-related packages or the application itself, that
needs to perform I/O over the USB bus, then typically the USB-ethernet package should not have exclusive access
to state change events. Instead, the assumption is that higher-level code, typically provided by the application, will
install an alternative state change handler in the control endpoint data structure after the call to

usbs_eth_init

.

This alternative handler will either chain into

usbs_eth_state_change_handler

when appropriate, or else it

will invoke

usbs_eth_enable

and

usbs_eth_disable

directly. For further details of state change handlers and

control endpoints generally, see the documentation for the common USB-slave package.

Similarly,

usbs_eth_init

will install

usbs_eth_class_control_handler

in the control endpoint data struc-

ture as the appropriate handler for class-specific USB control messages. This code will handle the ethernet-specific

control messages

, for example requests by the host to enable or disable promiscuous mode or to obtain the MAC

address. If the USB device is not shared with any other code then this is both necessary and sufficient. However,
if other code is involved and if that code also needs to process certain control messages, higher-level code should
install its own handler and chain to the USB-ethernet one when appropriate. It should be noted that the request
code is encoded in just a single byte, so there is a real possibility that exactly the same number will be used by
different protocols for different requests. Any such problems will have to be identified and resolved by application
developers, and may involve modifying the source code for the USB-ethernet package.

As an alternative to chaining the state change handler, higher-level code can instead call

usbs_eth_disable

and

usbs_eth_enable

directly. These functions may also be called if the USB-ethernet package should become

inactive for reasons not related directly to events on the USB bus. The main effect of

usbs_eth_enable

is to restart

receive operations and to allow transmits. The main effect of

usbs_eth_disable

is to block further transmits: any

current receive operations need to be aborted at the USB level, for example by halting the appropriate endpoint.

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