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usb_common.h
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usb_common.h
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// DOM-IGNORE-BEGIN
/*******************************************************************************
Copyright 2015 Microchip Technology Inc. (www.microchip.com)
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
To request to license the code under the MLA license (www.microchip.com/mla_license),
please contact [email protected]
*******************************************************************************/
//DOM-IGNORE-END
/*******************************************************************************
Module for Microchip USB Library
Company:
Microchip Technology Inc.
File Name:
usb_common.h
Summary:
Defines types associated with both the USB host and USB device stacks but
not defined by the USB specification.
Description:
Defines types associated with both the USB host and USB device stacks but
not defined by the USB specification.
*******************************************************************************/
//DOM-IGNORE-BEGIN
#ifndef _USB_COMMON_H_
#define _USB_COMMON_H_
//DOM-IGNORE-END
#include <limits.h>
#include <stdbool.h>
#include <stdint.h>
// *****************************************************************************
// *****************************************************************************
// Section: USB Constants
// *****************************************************************************
// *****************************************************************************
// Section: Error Code Values
#define USB_SUCCESS 0x00 // USB operation successful.
#define USB_INVALID_STATE 0x01 // Operation cannot be performed in current state.
#define USB_BUSY 0x02 // A transaction is already in progress.
#define USB_ILLEGAL_REQUEST 0x03 // Cannot perform requested operation.
#define USB_INVALID_CONFIGURATION 0x04 // Configuration descriptor not found.
#define USB_MEMORY_ALLOCATION_ERROR 0x05 // Out of dynamic memory.
#define USB_UNKNOWN_DEVICE 0x06 // Device with specified address is not attached.
#define USB_CANNOT_ENUMERATE 0x07 // Cannot enumerate the attached device.
#define USB_EVENT_QUEUE_FULL 0x08 // Event queue was full when an event occured.
#define USB_ENDPOINT_BUSY 0x10 // Endpoint is currently processing a transaction.
#define USB_ENDPOINT_STALLED 0x11 // Endpoint is currently stalled. User must clear the condition.
#define USB_ENDPOINT_ERROR 0x12 // Will need more than this eventually
#define USB_ENDPOINT_ERROR_ILLEGAL_PID 0x13 // Illegal PID received.
#define USB_ENDPOINT_NOT_FOUND 0x14 // Requested endpoint does not exist on device.
#define USB_ENDPOINT_ILLEGAL_DIRECTION 0x15 // Reads must be performe on IN endpoints, writes on OUT endpoints.
//#define USB_ENDPOINT_TRANSACTION_IN_PROGRESS 0x16
#define USB_ENDPOINT_NAK_TIMEOUT 0x17 // Too many NAK's occurred while waiting for the current transaction.
#define USB_ENDPOINT_ILLEGAL_TYPE 0x18 // Transfer type must match endpoint description.
#define USB_ENDPOINT_UNRESOLVED_STATE 0x19 // Endpoint is in an unknown state after completing a transaction.
#define USB_ENDPOINT_ERROR_BIT_STUFF 0x20 // USB Module - Bit stuff error.
#define USB_ENDPOINT_ERROR_DMA 0x21 // USB Module - DMA error.
#define USB_ENDPOINT_ERROR_TIMEOUT 0x22 // USB Module - Bus timeout.
#define USB_ENDPOINT_ERROR_DATA_FIELD 0x23 // USB Module - Data field size error.
#define USB_ENDPOINT_ERROR_CRC16 0x24 // USB Module - CRC16 failure.
#define USB_ENDPOINT_ERROR_END_OF_FRAME 0x25 // USB Module - End of Frame error.
#define USB_ENDPOINT_ERROR_PID_CHECK 0x26 // USB Module - Illegal PID received.
#define USB_ENDPOINT_ERROR_BMX 0x27 // USB Module - Bus Matrix error.
#define USB_ERROR_INSUFFICIENT_POWER 0x28 // Too much power was requested
// Section: Return values for USBHostDeviceStatus()
#define USB_DEVICE_STATUS 0x30 // Offset for USBHostDeviceStatus() return codes
#define USB_DEVICE_ATTACHED (USB_DEVICE_STATUS | 0x30) // Device is attached and running
#define USB_DEVICE_DETACHED (USB_DEVICE_STATUS | 0x01) // No device is attached
#define USB_DEVICE_ENUMERATING (USB_DEVICE_STATUS | 0x02) // Device is enumerating
#define USB_HOLDING_OUT_OF_MEMORY (USB_DEVICE_STATUS | 0x03) // Not enough heap space available
#define USB_HOLDING_UNSUPPORTED_DEVICE (USB_DEVICE_STATUS | 0x04) // Invalid configuration or unsupported class
#define USB_HOLDING_UNSUPPORTED_HUB (USB_DEVICE_STATUS | 0x05) // Hubs are not supported
#define USB_HOLDING_INVALID_CONFIGURATION (USB_DEVICE_STATUS | 0x06) // Invalid configuration requested
#define USB_HOLDING_PROCESSING_CAPACITY (USB_DEVICE_STATUS | 0x07) // Processing requirement excessive
#define USB_HOLDING_POWER_REQUIREMENT (USB_DEVICE_STATUS | 0x08) // Power requirement excessive
#define USB_HOLDING_CLIENT_INIT_ERROR (USB_DEVICE_STATUS | 0x09) // Client driver failed to initialize
#define USB_DEVICE_SUSPENDED (USB_DEVICE_STATUS | 0x0A) // Device is suspended
#define USB_ERROR_CLASS_DEFINED 0x50 // Offset for application defined errors
#define USB_SINGLE_DEVICE_ADDRESS 0x01 // Default USB device address (single device support)
// *****************************************************************************
// *****************************************************************************
// Section: USB Data Types
// *****************************************************************************
// *****************************************************************************
// *****************************************************************************
/* Data Transfer Flags
The following flags are used in the flags parameter of the "USBDEVTransferData"
and "USBHALTransferData" routines. They can be accessed by the bitfield
definitions or the macros can be OR'd together to identify the endpoint number
and properties of the data transfer.
<code>
7 6 5 4 3 2 1 0 - Field name
| | | | \_____/
| | | | +----- ep_num - Endpoint number
| | | +---------- zero_pkt - End transfer with short or zero-sized packet
| | +------------ dts - 0=DATA0 packet, 1=DATA1 packet
| +-------------- force_dts - Force data toggle sync to match dts field
+---------------- direction - Transfer direction: 0=Receive, 1=Transmit
</code>
*/
typedef union
{
uint8_t bitmap;
struct
{
uint8_t ep_num: 4;
uint8_t zero_pkt: 1;
uint8_t dts: 1;
uint8_t force_dts: 1;
uint8_t direction: 1;
}field;
} TRANSFER_FLAGS;
// *****************************************************************************
/* Data Transfer Flags, Endpoint Number Constants
These macros can be used as values for the "ep_num" field of the TRANSFER_FLAGS
data type.
*/
#define USB_EP0 0 //
#define USB_EP1 1 //
#define USB_EP2 2 //
#define USB_EP3 3 //
#define USB_EP4 4 //
#define USB_EP5 5 //
#define USB_EP6 6 //
#define USB_EP7 7 //
#define USB_EP8 8 //
#define USB_EP9 9 //
#define USB_EP10 10 //
#define USB_EP11 11 //
#define USB_EP12 12 //
#define USB_EP13 13 //
#define USB_EP14 14 //
#define USB_EP15 15 //
// *****************************************************************************
/* Data Transfer Flags, Bitmap Constants
These macros can be used as values for the "bitmap" field of the TRANSFER_FLAGS
data type.
*/
#define USB_TRANSMIT 0x80 // Data will be transmitted to the USB
#define USB_RECEIVE 0x00 // Data will be received from the USB
#define USB_FORCE_DTS 0x40 // Forces data toggle sync as below:
#define USB_DTS_MASK 0x20 // Mask for DTS bit (below)
#define USB_ZERO_PKT 0x10 // End transfer w/a short or zero-length packet
#define USB_DATA0 0x00|USB_FORCE_DTS // Force DATA0
#define USB_DATA1 0x20|USB_FORCE_DTS // Force DATA1
#define USB_SETUP_PKT USB_RECEIVE|USB_DATA0|USB_EP0 // Setup Packet
#define USB_SETUP_DATA USB_DATA1|USB_ZERO_PKT|USB_EP0 // Setup-transfer Data Packet
#define USB_SETUP_STATUS USB_DATA1|USB_EP0 // Setup-transfer Status Packet
#define USB_EP_NUM_MASK 0x0F // Endpoint number (ep_num) mask
// *****************************************************************************
/* Data Transfer Flags, Initialization Macro
This macro can be used with the above bitmap constants to initialize a
TRANSFER_FLAGS value. It provides the correct data type to avoid compiler
warnings.
*/
#define XFLAGS(f) ((TRANSFER_FLAGS)((uint8_t)(f))) // Initialization Macro
// *****************************************************************************
/* USB Events
This enumeration identifies USB events that occur. It is used to
inform USB drivers and applications of events on the bus. It is passed
as a parameter to the event-handling routine, which must match the
prototype of the USB_CLIENT_EVENT_HANDLER data type, when an event occurs.
*/
typedef enum
{
// No event occured (NULL event)
EVENT_NONE = 0,
EVENT_DEVICE_STACK_BASE = 1,
EVENT_HOST_STACK_BASE = 100,
// A USB hub has been attached. Hub support is not currently available.
EVENT_HUB_ATTACH,
// A stall has occurred. This event is not used by the Host stack.
EVENT_STALL,
// VBus SRP Pulse, (VBus > 2.0v), Data: uint8_t Port Number (For future support)
EVENT_VBUS_SES_REQUEST,
// The voltage on Vbus has dropped below 4.4V/4.7V. The application is
// responsible for monitoring Vbus and calling USBHostVbusEvent() with this
// event. This event is not generated by the stack.
EVENT_VBUS_OVERCURRENT,
// An enumerating device is requesting power. The data associated with this
// event is of the data type USB_VBUS_POWER_EVENT_DATA. Note that
// the requested current is specified in 2mA units, identical to the power
// specification in a device's Configuration Descriptor.
EVENT_VBUS_REQUEST_POWER,
// Release power from a detaching device. The data associated with this
// event is of the data type USB_VBUS_POWER_EVENT_DATA. The current value
// specified in the data can be ignored.
EVENT_VBUS_RELEASE_POWER,
// The voltage on Vbus is good, and the USB OTG module can be powered on.
// The application is responsible for monitoring Vbus and calling
// USBHostVbusEvent() with this event. This event is not generated by the
// stack. If the application issues an EVENT_VBUS_OVERCURRENT, then no
// power will be applied to that port, and no device can attach to that
// port, until the application issues the EVENT_VBUS_POWER_AVAILABLE for
// the port.
EVENT_VBUS_POWER_AVAILABLE,
// The attached device is not supported by the application. The attached
// device is not allowed to enumerate.
EVENT_UNSUPPORTED_DEVICE,
// Cannot enumerate the attached device. This is generated if communication
// errors prevent the device from enumerating.
EVENT_CANNOT_ENUMERATE,
// The client driver cannot initialize the the attached device. The
// attached is not allowed to enumerate.
EVENT_CLIENT_INIT_ERROR,
// The Host stack does not have enough heap space to enumerate the device.
// Check the amount of heap space allocated to the application. In MPLAB,
// select Project> Build Options...> Project. Select the appropriate
// linker tab, and inspect the "Heap size" entry.
EVENT_OUT_OF_MEMORY,
// Unspecified host error. (This error should not occur).
EVENT_UNSPECIFIED_ERROR,
// USB cable has been detached. The data associated with this event is the
// address of detached device, a single uint8_t.
EVENT_DETACH,
// A USB transfer has completed. The data associated with this event is of
// the data type HOST_TRANSFER_DATA if the event is generated from the host
// stack.
EVENT_TRANSFER,
// A USB Start of Frame token has been received. This event is not
// used by the Host stack.
EVENT_SOF,
// Device-mode resume received. This event is not used by the Host stack.
EVENT_RESUME,
// Device-mode suspend/idle event received. This event is not used by the
// Host stack.
EVENT_SUSPEND,
// Device-mode bus reset received. This event is not used by the Host
// stack.
EVENT_RESET,
// In Host mode, an isochronous data read has completed. This event will only
// be passed to the DataEventHandler, which is only utilized if it is defined.
// Note that the DataEventHandler is called from within the USB interrupt, so
// it is critical that it return in time for the next isochronous data packet.
EVENT_DATA_ISOC_READ,
// In Host mode, an isochronous data write has completed. This event will only
// be passed to the DataEventHandler, which is only utilized if it is defined.
// Note that the DataEventHandler is called from within the USB interrupt, so
// it is critical that it return in time for the next isochronous data packet.
EVENT_DATA_ISOC_WRITE,
// In Host mode, this event gives the application layer the option to reject
// a client driver that was selected by the stack. This is needed when multiple
// devices are supported by class level support, but one configuration and client
// driver is preferred over another. Since configuration number is not guaranteed,
// the stack cannot do this automatically. This event is issued only when
// looking through configuration descriptors; the driver selected at the device
// level cannot be overridden, since there shouldn't be any other options to
// choose from.
EVENT_OVERRIDE_CLIENT_DRIVER_SELECTION,
// In host mode, this event is thrown for every millisecond that passes. Like all
// events, this is thrown from the USBHostTasks() or USBTasks() routine so its
// timeliness will be determined by the rate that these functions are called. If
// they are not called very often, then the 1ms events will build up and be
// dispatched as the USBTasks() or USBHostTasks() functions are called (one event
// per call to these functions.
EVENT_1MS,
// In device mode, this event is thrown when we receive a Set Interface request from
// the host. The stack will automatically handle the interface switch, but the app
// may need to know about the interface switch for performing tasks such as powering
// up/down audio hardware.
EVENT_ALT_INTERFACE,
// If the application layer must do things to the device before the device is
// configured, they should be done at this point. The application layer should
// return true to hold the USB state machine at this point, while any USB or other
// processing continues. When the USB state machine can safely proceed, the application
// layer should return FALSE.
EVENT_HOLD_BEFORE_CONFIGURATION,
// Class-defined event offsets start here:
EVENT_GENERIC_BASE = 400, // Offset for Generic class events
EVENT_MSD_BASE = 500, // Offset for Mass Storage Device class events
EVENT_HID_BASE = 600, // Offset for Human Interface Device class events
EVENT_PRINTER_BASE = 700, // Offset for Printer class events
EVENT_CDC_BASE = 800, // Offset for CDC class events
EVENT_CHARGER_BASE = 900, // Offset for Charger client driver events.
EVENT_AUDIO_BASE = 1000, // Offset for Audio client driver events.
EVENT_USER_BASE = 10000, // Add integral values to this event number
// to create user-defined events.
// There was a transfer error on the USB. The data associated with this
// event is of data type HOST_TRANSFER_DATA.
EVENT_BUS_ERROR = INT_MAX
} USB_EVENT;
// *****************************************************************************
/* EVENT_TRANSFER Data
This data structure is passed to the appropriate layer's
USB_EVENT_HANDLER when an EVT_XFER event has occurred, indicating
that a transfer has completed on the USB. It provides the endpoint,
direction, and actual size of the transfer.
*/
typedef struct _transfer_event_data
{
TRANSFER_FLAGS flags; // Transfer flags (see above)
uint32_t size; // Actual number of bytes transferred
uint8_t pid; // Packet ID
} USB_TRANSFER_EVENT_DATA;
// *****************************************************************************
/* EVENT_VBUS_REQUEST_POWER and EVENT_VBUS_RELEASE_POWER Data
This data structure is passed to the appropriate layer's
USB_EVENT_HANDLER when an EVENT_VBUS_REQUEST_POWER or EVENT_VBUS_RELEASE_POWER
event has occurred, indicating that a change in Vbus power is being requested.
*/
typedef struct _vbus_power_data
{
uint8_t port; // Physical port number
uint8_t current; // Current in 2mA units
} USB_VBUS_POWER_EVENT_DATA;
// *****************************************************************************
/* USB_OVERRIDE_CLIENT_DRIVER_EVENT_DATA Data
This data structure is passed to the application layer when a client driver is
select, in case multiple client drivers can support a particular device.
*/
typedef struct _override_client_driver_data
{
uint16_t idVendor;
uint16_t idProduct;
uint8_t bDeviceClass;
uint8_t bDeviceSubClass;
uint8_t bDeviceProtocol;
} USB_OVERRIDE_CLIENT_DRIVER_EVENT_DATA;
// *****************************************************************************
/* EVT_STALL Data
The EVT_STALL event has a 16-bit data value associated with it where
a bit is set in the position for each endpoint that is currently
stalled (ie. bit 0 = EP0, bit 1 = EP1, etc.)
*/
// *****************************************************************************
// *****************************************************************************
// Section: Event Handling Routines
// *****************************************************************************
// *****************************************************************************
/*******************************************************************************
Function:
bool <Event-handling Function Name> ( USB_EVENT event,
void *data, unsigned int size )
Description:
This routine is a "call out" routine that must be implemented by
any layer of the USB SW Stack (except the HAL which is at the
root of the event-call tree that needs to receive events. When
an event occurs, the HAL calls the next higher layer in the
stack to handle the event. Each layer either handles the event
or calls the layer above it to handle the event. Events are
identified by the "event" parameter and may have associated
data. If the higher layer was able to handle the event, it
should return true. If not, it should return false.
Preconditions:
USBInitialize must have been called to initialize the USB SW
Stack.
Parameters:
USB_EVENT event - Identifies the bus event that occurred
void *data - Pointer to event-specific data
unsigned int size - Size of the event-specific data
Return Values:
None
Remarks:
The function is name is defined by the layer that implements
it. A pointer to the function will be placed by into a table
that the lower-layer will use to call it. This requires the
function to use a specific call "signature" (return data type
and values and data parameter types and values).
*******************************************************************************/
typedef bool (*USB_EVENT_HANDLER) ( USB_EVENT event, void *data, unsigned int size );
#define USB_PING_PONG__NO_PING_PONG 0x00 //0b00
#define USB_PING_PONG__EP0_OUT_ONLY 0x01 //0b01
#define USB_PING_PONG__FULL_PING_PONG 0x02 //0b10
#define USB_PING_PONG__ALL_BUT_EP0 0x03 //0b11
#endif // _USB_COMMON_H_
/*************************************************************************
* EOF
*/