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rt-thread/bsp/rm48x50/HALCoGen/include/usblib.h

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//
// usblib.h - Main header file for the USB Library.
//
// Copyright (c) 2008-2010 Texas Instruments Incorporated. All rights reserved.
// Software License Agreement
//
// Texas Instruments (TI) is supplying this software for use solely and
// exclusively on TI's microcontroller products. The software is owned by
// TI and/or its suppliers, and is protected under applicable copyright
// laws. You may not combine this software with "viral" open-source
// software in order to form a larger program.
//
// THIS SOFTWARE IS PROVIDED "AS IS" AND WITH ALL FAULTS.
// NO WARRANTIES, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT
// NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. TI SHALL NOT, UNDER ANY
// CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR CONSEQUENTIAL
// DAMAGES, FOR ANY REASON WHATSOEVER.
//
//
//*****************************************************************************
#ifndef __USBLIB_H__
#define __USBLIB_H__
//*****************************************************************************
//
// If building with a C++ compiler, make all of the definitions in this header
// have a C binding.
//
//*****************************************************************************
#ifdef __cplusplus
extern "C"
{
#endif
/* standard device requests -- USB_SetupDataPacket::bRequest */
#define USB_REQUEST_GETSTATUS (0u)
#define USB_REQUEST_CLEARFEATURE (1u)
#define USB_REQUEST_SETFEATURE (3u)
#define USB_REQUEST_SETADDRESS (5u)
#define USB_REQUEST_GETDESCRIPTOR (6u)
#define USB_REQUEST_SETDESCRIPTOR (7u)
#define USB_REQUEST_GETCONFIGURATION (8u)
#define USB_REQUEST_SETCONFIGURATION (9u)
#define USB_REQUEST_GETINTERFACE (10u)
#define USB_REQUEST_SETINTERFACE (11u)
#define USB_REQUEST_SYNCHFRAME (12u)
//*****************************************************************************
//
// This is the maximum number of endpoints supported by the usblib.
//
//*****************************************************************************
#define USBLIB_NUM_EP 16 // Number of supported endpoints.
//*****************************************************************************
//
// The following macro allows compiler-independent syntax to be used to
// define packed structures. A typical structure definition using these
// macros will look similar to the following example:
//
// #ifdef ewarm
// #pragma pack(1)
// #endif
//
// typedef struct _PackedStructName
// {
// uint32 ulFirstField;
// char cCharMember;
// uint16 usShort;
// }
// PACKED tPackedStructName;
//
// #ifdef ewarm
// #pragma pack()
// #endif
//
// The conditional blocks related to ewarm include the #pragma pack() lines
// only if the IAR Embedded Workbench compiler is being used. Unfortunately,
// it is not possible to emit a #pragma from within a macro definition so this
// must be done explicitly.
//
//*****************************************************************************
#if defined(ccs) || \
defined(codered) || \
defined(gcc) || \
defined(rvmdk) || \
defined(__ARMCC_VERSION) || \
defined(sourcerygxx)
#define PACKED __attribute__ ((packed))
#elif defined(ewarm) || defined(__IAR_SYSTEMS_ICC__)
#define PACKED
#elif (__TMS470__)
#define PACKED __attribute__ ((packed))
#else
#error Unrecognized COMPILER!
#endif
//*****************************************************************************
//
// Assorted language IDs from the document "USB_LANGIDs.pdf" provided by the
// USB Implementers' Forum (Version 1.0).
//
//*****************************************************************************
#define USB_LANG_CHINESE_PRC 0x0804 // Chinese (PRC)
#define USB_LANG_CHINESE_TAIWAN 0x0404 // Chinese (Taiwan)
#define USB_LANG_EN_US 0x0409 // English (United States)
#define USB_LANG_EN_UK 0x0809 // English (United Kingdom)
#define USB_LANG_EN_AUS 0x0C09 // English (Australia)
#define USB_LANG_EN_CA 0x1009 // English (Canada)
#define USB_LANG_EN_NZ 0x1409 // English (New Zealand)
#define USB_LANG_FRENCH 0x040C // French (Standard)
#define USB_LANG_GERMAN 0x0407 // German (Standard)
#define USB_LANG_HINDI 0x0439 // Hindi
#define USB_LANG_ITALIAN 0x0410 // Italian (Standard)
#define USB_LANG_JAPANESE 0x0411 // Japanese
#define USB_LANG_KOREAN 0x0412 // Korean
#define USB_LANG_ES_TRAD 0x040A // Spanish (Traditional)
#define USB_LANG_ES_MODERN 0x0C0A // Spanish (Modern)
#define USB_LANG_SWAHILI 0x0441 // Swahili (Kenya)
#define USB_LANG_URDU_IN 0x0820 // Urdu (India)
#define USB_LANG_URDU_PK 0x0420 // Urdu (Pakistan)
//*****************************************************************************
//
//! \addtogroup usbchap9_src
//! @{
//
//*****************************************************************************
//*****************************************************************************
//
// Note:
//
// Structure definitions which are derived directly from the USB specification
// use field names from the specification. Since a somewhat different version
// of Hungarian prefix notation is used from the Stellaris standard, beware of
// making assumptions about field sizes based on the field prefix when using
// these structures. Of particular note is the difference in the meaning of
// the 'i' prefix. In USB structures, this indicates a single byte index
// whereas in Stellaris code, this is a 32 bit integer.
//
//*****************************************************************************
//*****************************************************************************
//
// All structures defined in this section of the header require byte packing of
// fields. This is usually accomplished using the PACKED macro but, for IAR
// Embedded Workbench, this requires a pragma.
//
//*****************************************************************************
#if defined(ewarm) || defined(__IAR_SYSTEMS_ICC__)
#pragma pack(1)
#endif
//*****************************************************************************
//
// Definitions related to standard USB device requests (sections 9.3 & 9.4)
//
//*****************************************************************************
//*****************************************************************************
//
//! The standard USB request header as defined in section 9.3 of the USB 2.0
//! specification.
//
//*****************************************************************************
typedef struct
{
//
//! Determines the type and direction of the request.
//
uint8 bmRequestType;
//
//! Identifies the specific request being made.
//
uint8 bRequest;
//
//! Word-sized field that varies according to the request.
//
uint16 wValue;
//
//! Word-sized field that varies according to the request; typically used
//! to pass an index or offset.
//
uint16 wIndex;
//
//! The number of bytes to transfer if there is a data stage to the
//! request.
//
uint16 wLength;
}
PACKED tUSBRequest;
//*****************************************************************************
//
// The following defines are used with the bmRequestType member of tUSBRequest.
//
// Request types have 3 bit fields:
// 4:0 - Is the recipient type.
// 6:5 - Is the request type.
// 7 - Is the direction of the request.
//
//*****************************************************************************
#define USB_RTYPE_DIR_IN 0x80
#define USB_RTYPE_DIR_OUT 0x00
#define USB_RTYPE_TYPE_M 0x60
#define USB_RTYPE_VENDOR 0x40
#define USB_RTYPE_CLASS 0x20
#define USB_RTYPE_STANDARD 0x00
#define USB_RTYPE_RECIPIENT_M 0x1f
#define USB_RTYPE_OTHER 0x03
#define USB_RTYPE_ENDPOINT 0x02
#define USB_RTYPE_INTERFACE 0x01
#define USB_RTYPE_DEVICE 0x00
//*****************************************************************************
//
// Standard USB requests IDs used in the bRequest field of tUSBRequest.
//
//*****************************************************************************
#define USBREQ_GET_STATUS 0x00
#define USBREQ_CLEAR_FEATURE 0x01
#define USBREQ_SET_FEATURE 0x03
#define USBREQ_SET_ADDRESS 0x05
#define USBREQ_GET_DESCRIPTOR 0x06
#define USBREQ_SET_DESCRIPTOR 0x07
#define USBREQ_GET_CONFIG 0x08
#define USBREQ_SET_CONFIG 0x09
#define USBREQ_GET_INTERFACE 0x0a
#define USBREQ_SET_INTERFACE 0x0b
#define USBREQ_SYNC_FRAME 0x0c
//*****************************************************************************
//
// Data returned from a USBREQ_GET_STATUS request to a device.
//
//*****************************************************************************
#define USB_STATUS_SELF_PWR 0x0001 // Currently self powered.
#define USB_STATUS_BUS_PWR 0x0000 // Currently bus-powered.
#define USB_STATUS_PWR_M 0x0001 // Mask for power mode.
#define USB_STATUS_REMOTE_WAKE 0x0002 // Remote wake-up is currently enabled.
//*****************************************************************************
//
// Feature Selectors (tUSBRequest.wValue) passed on USBREQ_CLEAR_FEATURE and
// USBREQ_SET_FEATURE.
//
//*****************************************************************************
#define USB_FEATURE_EP_HALT 0x0000 // Endpoint halt feature.
#define USB_FEATURE_REMOTE_WAKE 0x0001 // Remote wake feature, device only.
#define USB_FEATURE_TEST_MODE 0x0002 // Test mode
//*****************************************************************************
//
// Endpoint Selectors (tUSBRequest.wIndex) passed on USBREQ_CLEAR_FEATURE,
// USBREQ_SET_FEATURE and USBREQ_GET_STATUS.
//
//*****************************************************************************
#define USB_REQ_EP_NUM_M 0x007F
#define USB_REQ_EP_DIR_M 0x0080
#define USB_REQ_EP_DIR_IN 0x0080
#define USB_REQ_EP_DIR_OUT 0x0000
//*****************************************************************************
//
// Standard USB descriptor types. These values are passed in the upper bytes
// of tUSBRequest.wValue on USBREQ_GET_DESCRIPTOR and also appear in the
// bDescriptorType field of standard USB descriptors.
//
//*****************************************************************************
#define USB_DTYPE_DEVICE 1
#define USB_DTYPE_CONFIGURATION 2
#define USB_DTYPE_STRING 3
#define USB_DTYPE_INTERFACE 4
#define USB_DTYPE_ENDPOINT 5
#define USB_DTYPE_DEVICE_QUAL 6
#define USB_DTYPE_OSPEED_CONF 7
#define USB_DTYPE_INTERFACE_PWR 8
#define USB_DTYPE_OTG 9
#define USB_DTYPE_INTERFACE_ASC 11
#define USB_DTYPE_CS_INTERFACE 36
//*****************************************************************************
//
// Definitions related to USB descriptors (sections 9.5 & 9.6)
//
//*****************************************************************************
//*****************************************************************************
//
//! This structure describes a generic descriptor header. These fields are to
//! be found at the beginning of all valid USB descriptors.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor (including this length byte) expressed
//! in bytes.
//
uint8 bLength;
//
//! The type identifier of the descriptor whose information follows. For
//! standard descriptors, this field could contain, for example,
//! USB_DTYPE_DEVICE to identify a device descriptor or USB_DTYPE_ENDPOINT
//! to identify an endpoint descriptor.
//
uint8 bDescriptorType;
}
PACKED tDescriptorHeader;
//*****************************************************************************
//
//! This structure describes the USB device descriptor as defined in USB
//! 2.0 specification section 9.6.1.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. All device descriptors are
//! 18 bytes long.
//
uint8 bLength;
//
//! The type of the descriptor. For a device descriptor, this will be
//! USB_DTYPE_DEVICE (1).
//
uint8 bDescriptorType;
//
//! The USB Specification Release Number in BCD format. For USB 2.0, this
//! will be 0x0200.
//
uint16 bcdUSB;
//
//! The device class code.
//
uint8 bDeviceClass;
//
//! The device subclass code. This value qualifies the value found in the
//! bDeviceClass field.
//
uint8 bDeviceSubClass;
//
//! The device protocol code. This value is qualified by the values of
//! bDeviceClass and bDeviceSubClass.
//
uint8 bDeviceProtocol;
//
//! The maximum packet size for endpoint zero. Valid values are 8, 16, 32
//! and 64.
//
uint8 bMaxPacketSize0;
//
//! The device Vendor ID (VID) as assigned by the USB-IF.
//
uint16 idVendor;
//
//! The device Product ID (PID) as assigned by the manufacturer.
//
uint16 idProduct;
//
//! The device release number in BCD format.
//
uint16 bcdDevice;
//
//! The index of a string descriptor describing the manufacturer.
//
uint8 iManufacturer;
//
//! The index of a string descriptor describing the product.
//
uint8 iProduct;
//
//! The index of a string descriptor describing the device's serial
//! number.
//
uint8 iSerialNumber;
//
//! The number of possible configurations offered by the device. This
//! field indicates the number of distinct configuration descriptors that
//! the device offers.
//
uint8 bNumConfigurations;
}
PACKED tDeviceDescriptor;
//*****************************************************************************
//
// USB Device Class codes used in the tDeviceDescriptor.bDeviceClass field.
// Definitions for the bDeviceSubClass and bDeviceProtocol fields are device
// specific and can be found in the appropriate device class header files.
//
//*****************************************************************************
#define USB_CLASS_DEVICE 0x00
#define USB_CLASS_AUDIO 0x01
#define USB_CLASS_CDC 0x02
#define USB_CLASS_HID 0x03
#define USB_CLASS_PHYSICAL 0x05
#define USB_CLASS_IMAGE 0x06
#define USB_CLASS_PRINTER 0x07
#define USB_CLASS_MASS_STORAGE 0x08
#define USB_CLASS_HUB 0x09
#define USB_CLASS_CDC_DATA 0x0a
#define USB_CLASS_SMART_CARD 0x0b
#define USB_CLASS_SECURITY 0x0d
#define USB_CLASS_VIDEO 0x0e
#define USB_CLASS_HEALTHCARE 0x0f
#define USB_CLASS_DIAG_DEVICE 0xdc
#define USB_CLASS_WIRELESS 0xe0
#define USB_CLASS_MISC 0xef
#define USB_CLASS_APP_SPECIFIC 0xfe
#define USB_CLASS_VEND_SPECIFIC 0xff
#define USB_CLASS_EVENTS 0xffffffff
//*****************************************************************************
//
// Generic values for undefined subclass and protocol.
//
//*****************************************************************************
#define USB_SUBCLASS_UNDEFINED 0x00
#define USB_PROTOCOL_UNDEFINED 0x00
//*****************************************************************************
//
// The following are the miscellaneous subclass values.
//
//*****************************************************************************
#define USB_MISC_SUBCLASS_SYNC 0x01
#define USB_MISC_SUBCLASS_COMMON 0x02
//*****************************************************************************
//
// These following are miscellaneous protocol values.
//
//*****************************************************************************
#define USB_MISC_PROTOCOL_IAD 0x01
//*****************************************************************************
//
//! This structure describes the USB device qualifier descriptor as defined in
//! the USB 2.0 specification, section 9.6.2.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. All device qualifier
//! descriptors are 10 bytes long.
//
uint8 bLength;
//
//! The type of the descriptor. For a device descriptor, this will be
//! USB_DTYPE_DEVICE_QUAL (6).
//
uint8 bDescriptorType;
//
//! The USB Specification Release Number in BCD format. For USB 2.0, this
//! will be 0x0200.
//
uint16 bcdUSB;
//
//! The device class code.
//
uint8 bDeviceClass;
//
//! The device subclass code. This value qualifies the value found in the
//! bDeviceClass field.
//
uint8 bDeviceSubClass;
//
//! The device protocol code. This value is qualified by the values of
//! bDeviceClass and bDeviceSubClass.
//
uint8 bDeviceProtocol;
//
//! The maximum packet size for endpoint zero when operating at a speed
//! other than high speed.
//
uint8 bMaxPacketSize0;
//
//! The number of other-speed configurations supported.
//
uint8 bNumConfigurations;
//
//! Reserved for future use. Must be set to zero.
//
uint8 bReserved;
}
PACKED tDeviceQualifierDescriptor;
//*****************************************************************************
//
//! This structure describes the USB configuration descriptor as defined in
//! USB 2.0 specification section 9.6.3. This structure also applies to the
//! USB other speed configuration descriptor defined in section 9.6.4.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. All configuration descriptors
//! are 9 bytes long.
//
uint8 bLength;
//
//! The type of the descriptor. For a configuration descriptor, this will
//! be USB_DTYPE_CONFIGURATION (2).
//
uint8 bDescriptorType;
//
//! The total length of data returned for this configuration. This
//! includes the combined length of all descriptors (configuration,
//! interface, endpoint and class- or vendor-specific) returned for this
//! configuration.
//
uint16 wTotalLength;
//
//! The number of interface supported by this configuration.
//
uint8 bNumInterfaces;
//
//! The value used as an argument to the SetConfiguration standard request
//! to select this configuration.
//
uint8 bConfigurationValue;
//
//! The index of a string descriptor describing this configuration.
//
uint8 iConfiguration;
//
//! Attributes of this configuration.
//
uint8 bmAttributes;
//
//! The maximum power consumption of the USB device from the bus in this
//! configuration when the device is fully operational. This is expressed
//! in units of 2mA so, for example, 100 represents 200mA.
//
uint8 bMaxPower;
}
PACKED tConfigDescriptor;
//*****************************************************************************
//
// Flags used in constructing the value assigned to the field
// tConfigDescriptor.bmAttributes. Note that bit 7 is reserved and must be set
// to 1.
//
//*****************************************************************************
#define USB_CONF_ATTR_PWR_M 0xC0
#define USB_CONF_ATTR_SELF_PWR 0xC0
#define USB_CONF_ATTR_BUS_PWR 0x80
#define USB_CONF_ATTR_RWAKE 0xA0
//*****************************************************************************
//
//! This structure describes the USB interface descriptor as defined in USB
//! 2.0 specification section 9.6.5.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. All interface descriptors
//! are 9 bytes long.
//
uint8 bLength;
//
//! The type of the descriptor. For an interface descriptor, this will
//! be USB_DTYPE_INTERFACE (4).
//
uint8 bDescriptorType;
//
//! The number of this interface. This is a zero based index into the
//! array of concurrent interfaces supported by this configuration.
//
uint8 bInterfaceNumber;
//
//! The value used to select this alternate setting for the interface
//! defined in bInterfaceNumber.
//
uint8 bAlternateSetting;
//
//! The number of endpoints used by this interface (excluding endpoint
//! zero).
//
uint8 bNumEndpoints;
//
//! The interface class code as assigned by the USB-IF.
//
uint8 bInterfaceClass;
//
//! The interface subclass code as assigned by the USB-IF.
//
uint8 bInterfaceSubClass;
//
//! The interface protocol code as assigned by the USB-IF.
//
uint8 bInterfaceProtocol;
//
//! The index of a string descriptor describing this interface.
//
uint8 iInterface;
}
PACKED tInterfaceDescriptor;
//*****************************************************************************
//
//! This structure describes the USB endpoint descriptor as defined in USB
//! 2.0 specification section 9.6.6.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. All endpoint descriptors
//! are 7 bytes long.
//
uint8 bLength;
//
//! The type of the descriptor. For an endpoint descriptor, this will
//! be USB_DTYPE_ENDPOINT (5).
//
uint8 bDescriptorType;
//
//! The address of the endpoint. This field contains the endpoint number
//! ORed with flag USB_EP_DESC_OUT or USB_EP_DESC_IN to indicate the
//! endpoint direction.
//
uint8 bEndpointAddress;
//
//! The endpoint transfer type, USB_EP_ATTR_CONTROL, USB_EP_ATTR_ISOC,
//! USB_EP_ATTR_BULK or USB_EP_ATTR_INT and, if isochronous, additional
//! flags indicating usage type and synchronization method.
//
uint8 bmAttributes;
//
//! The maximum packet size this endpoint is capable of sending or
//! receiving when this configuration is selected. For high speed
//! isochronous or interrupt endpoints, bits 11 and 12 are used to
//! pass additional information.
//
uint16 wMaxPacketSize;
//
//! The polling interval for data transfers expressed in frames or
//! micro frames depending upon the operating speed.
//
uint8 bInterval;
}
PACKED tEndpointDescriptor;
//*****************************************************************************
//
// Flags used in constructing the value assigned to the field
// tEndpointDescriptor.bEndpointAddress.
//
//*****************************************************************************
#define USB_EP_DESC_OUT 0x00
#define USB_EP_DESC_IN 0x80
#define USB_EP_DESC_NUM_M 0x0f
//*****************************************************************************
//
// Mask used to extract the maximum packet size (in bytes) from the
// wMaxPacketSize field of the endpoint descriptor.
//
//*****************************************************************************
#define USB_EP_MAX_PACKET_COUNT_M 0x07FF
//*****************************************************************************
//
// Endpoint attributes used in tEndpointDescriptor.bmAttributes.
//
//*****************************************************************************
#define USB_EP_ATTR_CONTROL 0x00
#define USB_EP_ATTR_ISOC 0x01
#define USB_EP_ATTR_BULK 0x02
#define USB_EP_ATTR_INT 0x03
#define USB_EP_ATTR_TYPE_M 0x03
#define USB_EP_ATTR_ISOC_M 0x0c
#define USB_EP_ATTR_ISOC_NOSYNC 0x00
#define USB_EP_ATTR_ISOC_ASYNC 0x04
#define USB_EP_ATTR_ISOC_ADAPT 0x08
#define USB_EP_ATTR_ISOC_SYNC 0x0c
#define USB_EP_ATTR_USAGE_M 0x30
#define USB_EP_ATTR_USAGE_DATA 0x00
#define USB_EP_ATTR_USAGE_FEEDBACK 0x10
#define USB_EP_ATTR_USAGE_IMPFEEDBACK 0x20
//*****************************************************************************
//
//! This structure describes the USB string descriptor for index 0 as defined
//! in USB 2.0 specification section 9.6.7. Note that the number of language
//! IDs is variable and can be determined by examining bLength. The number of
//! language IDs present in the descriptor is given by ((bLength - 2) / 2).
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. This value will vary
//! depending upon the number of language codes provided in the descriptor.
//
uint8 bLength;
//
//! The type of the descriptor. For a string descriptor, this will be
//! USB_DTYPE_STRING (3).
//
uint8 bDescriptorType;
//
//! The language code (LANGID) for the first supported language. Note that
//! this descriptor may support multiple languages, in which case, the
//! number of elements in the wLANGID array will increase and bLength will
//! be updated accordingly.
//
uint16 wLANGID[1];
}
PACKED tString0Descriptor;
//*****************************************************************************
//
//! This structure describes the USB string descriptor for all string indexes
//! other than 0 as defined in USB 2.0 specification section 9.6.7.
//
//*****************************************************************************
typedef struct
{
//
//! The length of this descriptor in bytes. This value will be 2 greater
//! than the number of bytes comprising the UNICODE string that the
//! descriptor contains.
//
uint8 bLength;
//
//! The type of the descriptor. For a string descriptor, this will be
//! USB_DTYPE_STRING (3).
//
uint8 bDescriptorType;
//
//! The first byte of the UNICODE string. This string is not NULL
//! terminated. Its length (in bytes) can be computed by subtracting 2
//! from the value in the bLength field.
//
uint8 bString;
}
PACKED tStringDescriptor;
//*****************************************************************************
//
//! Write a 2 byte uint16 value to a USB descriptor block.
//!
//! \param usValue is the two byte uint16 that is to be written to
//! the descriptor.
//!
//! This helper macro is used in descriptor definitions to write two-byte
//! values. Since the configuration descriptor contains all interface and
//! endpoint descriptors in a contiguous block of memory, these descriptors are
//! typically defined using an array of bytes rather than as packed structures.
//!
//! \return Not a function.
//
//*****************************************************************************
#define USBShort(usValue) (usValue & 0xff), (usValue >> 8)
//*****************************************************************************
//
//! Write a 3 byte uint32 value to a USB descriptor block.
//!
//! \param ulValue is the three byte unsigned value that is to be written to the
//! descriptor.
//!
//! This helper macro is used in descriptor definitions to write three-byte
//! values. Since the configuration descriptor contains all interface and
//! endpoint descriptors in a contiguous block of memory, these descriptors are
//! typically defined using an array of bytes rather than as packed structures.
//!
//! \return Not a function.
//
//*****************************************************************************
#define USB3Byte(ulValue) (ulValue & 0xff), \
((ulValue >> 8) & 0xff), \
((ulValue >> 16) & 0xff)
//*****************************************************************************
//
//! Write a 4 byte uint32 value to a USB descriptor block.
//!
//! \param ulValue is the four byte uint32 that is to be written to the
//! descriptor.
//!
//! This helper macro is used in descriptor definitions to write four-byte
//! values. Since the configuration descriptor contains all interface and
//! endpoint descriptors in a contiguous block of memory, these descriptors are
//! typically defined using an array of bytes rather than as packed structures.
//!
//! \return Not a function.
//
//*****************************************************************************
#define USBLong(ulValue) (ulValue & 0xff), \
((ulValue >> 8) & 0xff), \
((ulValue >> 16) & 0xff), \
((ulValue >> 24) & 0xff)
//*****************************************************************************
//
//! Traverse to the next USB descriptor in a block.
//!
//! \param ptr points to the first byte of a descriptor in a block of
//! USB descriptors.
//!
//! This macro aids in traversing lists of descriptors by returning a pointer
//! to the next descriptor in the list given a pointer to the current one.
//!
//! \return Returns a pointer to the next descriptor in the block following
//! \e ptr.
//!
//*****************************************************************************
#define NEXT_USB_DESCRIPTOR(ptr) \
(tDescriptorHeader *)(((uint8 *)(ptr)) + \
*((uint8 *)(ptr)))
//*****************************************************************************
//
// Return to default packing when using the IAR Embedded Workbench compiler.
//
//*****************************************************************************
#if defined(ewarm) || defined(__IAR_SYSTEMS_ICC__)
#pragma pack()
#endif
//*****************************************************************************
//
// Close the usbchap9_src Doxygen group.
//! @}
//
//*****************************************************************************
//*****************************************************************************
//
//! \addtogroup device_api
//! @{
//
//*****************************************************************************
//*****************************************************************************
//
// Function prototype for any standard USB request.
//
//*****************************************************************************
typedef void (* tStdRequest)(void *pvInstance, tUSBRequest *pUSBRequest);
//*****************************************************************************
//
// Data callback for receiving data from an endpoint.
//
//*****************************************************************************
typedef void (* tInfoCallback)(void *pvInstance, uint32 ulInfo);
//*****************************************************************************
//
// Callback made to indicate that an interface alternate setting change has
// occurred.
//
//*****************************************************************************
typedef void (* tInterfaceCallback)(void *pvInstance,
uint8 ucInterfaceNum,
uint8 ucAlternateSetting);
//*****************************************************************************
//
// Generic interrupt handler callbacks.
//
//*****************************************************************************
typedef void (* tUSBIntHandler)(void *pvInstance);
//*****************************************************************************
//
// Interrupt handler callbacks that have status information.
//
//*****************************************************************************
typedef void (* tUSBEPIntHandler)(void *pvInstance,
uint32 ulStatus);
//*****************************************************************************
//
// Generic handler callbacks that are used when the callers needs to call into
// an instance of class.
//
//*****************************************************************************
typedef void (* tUSBDeviceHandler)(void *pvInstance,
uint32 ulRequest,
void *pvRequestData);
//*****************************************************************************
//
//! USB event handler functions used during enumeration and operation of the
//! device stack.
//
//*****************************************************************************
typedef struct
{
//
//! This callback is made whenever the USB host requests a non-standard
//! descriptor from the device.
//
tStdRequest pfnGetDescriptor;
//
//! This callback is made whenever the USB host makes a non-standard
//! request.
//
tStdRequest pfnRequestHandler;
//
//! This callback is made in response to a SetInterface request from the
//! host.
//
tInterfaceCallback pfnInterfaceChange;
//
//! This callback is made in response to a SetConfiguration request from
//! the host.
//
tInfoCallback pfnConfigChange;
//
//! This callback is made when data has been received following to a call
//! to USBDCDRequestDataEP0.
//
tInfoCallback pfnDataReceived;
//
//! This callback is made when data has been transmitted following a call
//! to USBDCDSendDataEP0.
//
tInfoCallback pfnDataSent;
//
//! This callback is made when a USB reset is detected.
//
tUSBIntHandler pfnResetHandler;
//
//! This callback is made when the bus has been inactive long enough to
//! trigger a suspend condition.
//
tUSBIntHandler pfnSuspendHandler;
//
//! This is called when resume signaling is detected.
//
tUSBIntHandler pfnResumeHandler;
//
//! This callback is made when the device is disconnected from the USB bus.
//
tUSBIntHandler pfnDisconnectHandler;
//
//! This callback is made to inform the device of activity on all endpoints
//! other than endpoint zero.
//
tUSBEPIntHandler pfnEndpointHandler;
//
//! This generic handler is provided to allow requests based on
//! a given instance to be passed into a device. This is commonly used
//! by a top level composite device that is using multiple instances of
//! a class.
//
tUSBDeviceHandler pfnDeviceHandler;
}
tCustomHandlers;
//*****************************************************************************
//
//! This structure defines how a given endpoint's FIFO is configured in
//! relation to the maximum packet size for the endpoint as specified in the
//! endpoint descriptor.
//
//*****************************************************************************
typedef struct
{
//
//! The multiplier to apply to an endpoint's maximum packet size when
//! configuring the FIFO for that endpoint. For example, setting this
//! value to 2 will result in a 128 byte FIFO being configured if
//! bDoubleBuffer is FALSE and the associated endpoint is set to use a 64
//! byte maximum packet size.
//
uint8 cMultiplier;
//
//! This field indicates whether to configure an endpoint's FIFO to be
//! double- or single-buffered. If TRUE, a double-buffered FIFO is
//! created and the amount of required FIFO storage is multiplied by two.
//
tBoolean bDoubleBuffer;
//
//! This field defines endpoint mode flags which cannot be deduced from
//! the configuration descriptor, namely any in the set USB_EP_AUTO_xxx or
//! USB_EP_DMA_MODE_x. USBDCDConfig adds these flags to the endpoint
//! mode and direction determined from the config descriptor before it
//! configures the endpoint using a call to USBDevEndpointConfigSet().
//
uint16 usEPFlags;
}
tFIFOEntry;
//*****************************************************************************
//
//! This structure defines endpoint and FIFO configuration information for
//! all endpoints that the device wishes to use. This information cannot be
//! determined by examining the USB configuration descriptor and is
//! provided to USBDCDConfig by the application to allow the USB controller
//! endpoints to be correctly configured.
//
//*****************************************************************************
typedef struct
{
//
//! An array containing one FIFO entry for each of the IN endpoints.
//! Note that endpoint 0 is configured and managed by the USB device stack
//! so is excluded from this array. The index 0 entry of the array
//! corresponds to endpoint 1, index 1 to endpoint 2, etc.
//
tFIFOEntry sIn[USBLIB_NUM_EP - 1];
//
//! An array containing one FIFO entry for each of the OUT endpoints.
//! Note that endpoint 0 is configured and managed by the USB device stack
//! so is excluded from this array. The index 0 entry of the array
//! corresponds to endpoint 1, index 1 to endpoint 2, etc.
//
tFIFOEntry sOut[USBLIB_NUM_EP - 1];
}
tFIFOConfig;
//*****************************************************************************
//
//! This structure defines a contiguous block of data which contains a group
//! of descriptors that form part of a configuration descriptor for a device.
//! It is assumed that a config section contains only whole descriptors. It is
//! not valid to split a single descriptor across multiple sections.
//!
//*****************************************************************************
typedef struct
{
//
//! The number of bytes of descriptor data pointed to by pucData.
//
uint8 ucSize;
//
//! A pointer to a block of data containing an integral number of
//! USB descriptors which form part of a larger configuration descriptor.
//
const uint8 *pucData;
}
tConfigSection;
//*****************************************************************************
//
//! This is the top level structure defining a USB device configuration
//! descriptor. A configuration descriptor contains a collection of device-
//! specific descriptors in addition to the basic config, interface and
//! endpoint descriptors. To allow flexibility in constructing the
//! configuration, the descriptor is described in terms of a list of data
//! blocks. The first block must contain the configuration descriptor itself
//! and the following blocks are appended to this in order to produce the
//! full descriptor sent to the host in response to a GetDescriptor request
//! for the configuration descriptor.
//!
//*****************************************************************************
typedef struct
{
//
//! The number of sections comprising the full descriptor for this
//! configuration.
//
uint8 ucNumSections;
//
//! A pointer to an array of ucNumSections section pointers which must
//! be concatenated to form the configuration descriptor.
//
const tConfigSection * const *psSections;
}
tConfigHeader;
//*****************************************************************************
//
//! This structure is passed to the USB library on a call to USBDCDInit and
//! provides the library with information about the device that the
//! application is implementing. It contains functions pointers for the
//! various USB event handlers and pointers to each of the standard device
//! descriptors.
//
//*****************************************************************************
typedef struct
{
//
//! A pointer to a structure containing pointers to event handler functions
//! provided by the client to support the operation of this device.
//
tCustomHandlers sCallbacks;
//
//! A pointer to the device descriptor for this device.
//
const uint8 *pDeviceDescriptor;
//
//! A pointer to an array of configuration descriptor pointers. Each entry
//! in the array corresponds to one configuration that the device may be set
//! to use by the USB host. The number of entries in the array must
//! match the bNumConfigurations value in the device descriptor
//! array, pDeviceDescriptor.
//
const tConfigHeader * const *ppConfigDescriptors;
//
//! A pointer to the string descriptor array for this device. This array
//! must be arranged as follows:
//!
//! - [0] - Standard descriptor containing supported language codes.
//! - [1] - String 1 for the first language listed in descriptor 0.
//! - [2] - String 2 for the first language listed in descriptor 0.
//! - ...
//! - [n] - String n for the first language listed in descriptor 0.
//! - [n+1] - String 1 for the second language listed in descriptor 0.
//! - ...
//! - [2n] - String n for the second language listed in descriptor 0.
//! - [2n+1]- String 1 for the third language listed in descriptor 0.
//! - ...
//! - [3n] - String n for the third language listed in descriptor 0.
//!
//! and so on.
//
const uint8 * const *ppStringDescriptors;
//
//! The total number of descriptors provided in the ppStringDescriptors
//! array.
//
uint32 ulNumStringDescriptors;
//
//! A structure defining how the USB controller FIFO is to be partitioned
//! between the various endpoints. This member can be set to point to
//! g_sUSBDefaultFIFOConfig if the default FIFO configuration is acceptable
//! This configuration sets each endpoint FIFO to be single buffered and
//! sized to hold the maximum packet size for the endpoint.
//
const tFIFOConfig *psFIFOConfig;
//
//! This value will be passed back to all call back functions so that
//! they have access to individual instance data based on the this pointer.
//
void *pvInstance;
}
tDeviceInfo;
//*****************************************************************************
//
// Close the Doxygen group.
//! @}
//
//*****************************************************************************
//*****************************************************************************
//
//! \addtogroup general_usblib_api
//! @{
//
//*****************************************************************************
//*****************************************************************************
//
// USB descriptor parsing functions found in usbdesc.c
//
//*****************************************************************************
//*****************************************************************************
//
//! The USB_DESC_ANY label is used as a wild card in several of the descriptor
//! parsing APIs to determine whether or not particular search criteria should
//! be ignored.
//
//*****************************************************************************
#define USB_DESC_ANY 0xFFFFFFFF
extern uint32 USBDescGetNum(tDescriptorHeader *psDesc,
uint32 ulSize, uint32 ulType);
extern tDescriptorHeader *USBDescGet(tDescriptorHeader *psDesc,
uint32 ulSize,
uint32 ulType,
uint32 ulIndex);
extern uint32
USBDescGetNumAlternateInterfaces(tConfigDescriptor *psConfig,
uint8 ucInterfaceNumber);
extern tInterfaceDescriptor *USBDescGetInterface(tConfigDescriptor *psConfig,
uint32 ulIndex,
uint32 ulAltCfg);
extern tEndpointDescriptor *
USBDescGetInterfaceEndpoint(tInterfaceDescriptor *psInterface,
uint32 ulIndex,
uint32 ulSize);
//*****************************************************************************
//
//! The operating mode required by the USB library client. This type is used
//! by applications which wish to be able to switch between host and device
//! modes by calling the USBStackModeSet() API.
//
//*****************************************************************************
typedef enum
{
//
//! The application wishes to operate as a USB device.
//
USB_MODE_DEVICE = 0,
//
//! The application wishes to operate as a USB host.
//
USB_MODE_HOST,
//
//! The application wishes to operate as both a host and device using
//! On-The-Go protocols to negotiate.
//
USB_MODE_OTG,
//
//! A marker indicating that no USB mode has yet been set by the
//! application.
//
USB_MODE_NONE
} tUSBMode;
//*****************************************************************************
//
// A pointer to a USB mode callback function. This function is called by the
// USB library to indicate to the application which operating mode it should
// use, host or device.
//
//*****************************************************************************
typedef void (*tUSBModeCallback)(uint32 ulIndex, tUSBMode eMode);
//*****************************************************************************
//
// Mode selection and dual mode interrupt steering functions.
//
//*****************************************************************************
extern void USBStackModeSet(uint32 ulIndex, tUSBMode eUSBMode,
tUSBModeCallback pfnCallback);
extern void USBDualModeInit(uint32 ulIndex);
extern void USBDualModeTerm(uint32 ulIndex);
extern void USBOTGMain(uint32 ulMsTicks);
extern void USBOTGPollRate(uint32 ulIndex, uint32 ulPollRate);
extern void USBOTGModeInit(uint32 ulIndex, uint32 ulPollRate,
void *pHostData, uint32 ulHostDataSize);
extern void USBOTGModeTerm(uint32 ulIndex);
extern void USB0OTGModeIntHandler(void);
extern void USB0DualModeIntHandler(void);
//*****************************************************************************
//
//! USB callback function.
//!
//! \param pvCBData is the callback pointer associated with the instance
//! generating the callback. This is a value provided by the client during
//! initialization of the instance making the callback.
//! \param ulEvent is the identifier of the asynchronous event which is being
//! notified to the client.
//! \param ulMsgParam is an event-specific parameter.
//! \param pvMsgData is an event-specific data pointer.
//!
//! A function pointer provided to the USB layer by the application
//! which will be called to notify it of all asynchronous events relating to
//! data transmission or reception. This callback is used by device class
//! drivers and host pipe functions.
//!
//! \return Returns an event-dependent value.
//
//*****************************************************************************
typedef uint32 (* tUSBCallback)(void *pvCBData, uint32 ulEvent,
uint32 ulMsgParam,
void *pvMsgData);
//*****************************************************************************
//
// Base identifiers for groups of USB events. These are used by both the
// device class drivers and host layer.
//
// USB_CLASS_EVENT_BASE is the lowest identifier that should be used for
// a class-specific event. Individual event bases are defined for each
// of the supported device class drivers. Events with IDs between
// USB_EVENT_BASE and USB_CLASS_EVENT_BASE are reserved for stack use.
//
//*****************************************************************************
#define USB_EVENT_BASE 0x0000
#define USB_CLASS_EVENT_BASE 0x8000
//*****************************************************************************
//
// Event base identifiers for the various device classes supported in host
// and device modes.
// The first 0x800 values of a range are reserved for the device specific
// messages and the second 0x800 values of a range are used for the host
// specific messages for a given class.
//
//*****************************************************************************
#define USBD_CDC_EVENT_BASE (USB_CLASS_EVENT_BASE + 0)
#define USBD_HID_EVENT_BASE (USB_CLASS_EVENT_BASE + 0x1000)
#define USBD_HID_KEYB_EVENT_BASE (USBD_HID_EVENT_BASE + 0x100)
#define USBD_BULK_EVENT_BASE (USB_CLASS_EVENT_BASE + 0x2000)
#define USBD_MSC_EVENT_BASE (USB_CLASS_EVENT_BASE + 0x3000)
#define USBD_AUDIO_EVENT_BASE (USB_CLASS_EVENT_BASE + 0x4000)
#define USBH_CDC_EVENT_BASE (USBD_CDC_EVENT_BASE + 0x800)
#define USBH_HID_EVENT_BASE (USBD_HID_EVENT_BASE + 0x800)
#define USBH_BULK_EVENT_BASE (USBD_BULK_EVENT_BASE + 0x800)
#define USBH_MSC_EVENT_BASE (USBD_MSC_EVENT_BASE + 0x800)
#define USBH_AUDIO_EVENT_BASE (USBD_AUDIO_EVENT_BASE + 0x800)
//*****************************************************************************
//
// General events supported by device classes and host pipes.
//
//*****************************************************************************
//
//! The device is now attached to a USB host and ready to begin sending
//! and receiving data (used by device classes only).
//
#define USB_EVENT_CONNECTED (USB_EVENT_BASE + 0)
//
//! The device has been disconnected from the USB host (used by device classes
//! only).
//!
//! Note: Due to a hardware erratum in revision A of LM3S3748, this
//! event is not posted to self-powered USB devices when they are disconnected
//! from the USB host.
//
#define USB_EVENT_DISCONNECTED (USB_EVENT_BASE + 1)
//
//! Data has been received and is in the buffer provided.
//
#define USB_EVENT_RX_AVAILABLE (USB_EVENT_BASE + 2)
//
//! This event is sent by a lower layer to inquire about the amount of
//! unprocessed data buffered in the layers above. It is used in cases
//! where a low level driver needs to ensure that all preceding data has
//! been processed prior to performing some action or making some notification.
//! Clients receiving this event should return the number of bytes of data
//! that are unprocessed or 0 if no outstanding data remains.
//
#define USB_EVENT_DATA_REMAINING (USB_EVENT_BASE + 3)
//
//! This event is sent by a lower layer supporting DMA to request a buffer in
//! which the next received packet may be stored. The \e ulMsgValue parameter
//! indicates the maximum size of packet that can be received in this channel
//! and \e pvMsgData points to storage which should be written with the
//! returned buffer pointer. The return value from the callback should be the
//! size of the buffer allocated (which may be less than the maximum size
//! passed in \e ulMsgValue if the client knows that fewer bytes are expected
//! to be received) or 0 if no buffer is being returned.
//
#define USB_EVENT_REQUEST_BUFFER (USB_EVENT_BASE + 4)
//
//! Data has been sent and acknowledged. If this event is received via the
//! USB buffer callback, the \e ulMsgValue parameter indicates the number of
//! bytes from the transmit buffer that have been successfully transmitted
//! and acknowledged.
//
#define USB_EVENT_TX_COMPLETE (USB_EVENT_BASE + 5)
//
//! An error has been reported on the channel or pipe. The \e ulMsgValue
//! parameter indicates the source(s) of the error and is the logical OR
//! combination of "USBERR_" flags defined below.
//
#define USB_EVENT_ERROR (USB_EVENT_BASE + 6)
//
//! The bus has entered suspend state.
//
#define USB_EVENT_SUSPEND (USB_EVENT_BASE + 7)
//
//! The bus has left suspend state.
//
#define USB_EVENT_RESUME (USB_EVENT_BASE + 8)
//
//! A scheduler event has occurred.
//
#define USB_EVENT_SCHEDULER (USB_EVENT_BASE + 9)
//
//! A device or host has detected a stall condition.
//
#define USB_EVENT_STALL (USB_EVENT_BASE + 10)
//
//! The host detected a power fault condition.
//
#define USB_EVENT_POWER_FAULT (USB_EVENT_BASE + 11)
//
//! The controller has detected a A-Side cable and needs power applied This is
//! only generated on OTG parts if automatic power control is disabled.
//
#define USB_EVENT_POWER_ENABLE (USB_EVENT_BASE + 12)
//
//! The controller needs power removed, This is only generated on OTG parts
//! if automatic power control is disabled.
//
#define USB_EVENT_POWER_DISABLE (USB_EVENT_BASE + 13)
//
//! Used with pfnDeviceHandler handler function is classes to indicate changes
//! in the interface number by a class outside the class being accessed.
//! Typically this is when composite device class is in use.
//!
//! The \e pvInstance value should point to an instance of the device being
//! accessed.
//!
//! The \e ulRequest should be USB_EVENT_COMP_IFACE_CHANGE.
//!
//! The \e pvRequestData should point to a two byte array where the first value
//! is the old interface number and the second is the new interface number.
//
#define USB_EVENT_COMP_IFACE_CHANGE (USB_EVENT_BASE + 14)
//
//! Used with pfnDeviceHandler handler function is classes to indicate changes
//! in endpoint number by a class outside the class being accessed.
//! Typically this is when composite device class is in use.
//!
//! The \e pvInstance value should point to an instance of the device being
//! accessed.
//!
//! The \e ulRequest should be USB_EVENT_COMP_EP_CHANGE.
//!
//! The \e pvRequestData should point to a two byte array where the first value
//! is the old endpoint number and the second is the new endpoint number. The
//! endpoint numbers should be exactly as USB specification defines them and
//! bit 7 set indicates an IN endpoint and bit 7 clear indicates an OUT
//! endpoint.
//
#define USB_EVENT_COMP_EP_CHANGE (USB_EVENT_BASE + 15)
//
//! Used with pfnDeviceHandler handler function is classes to indicate changes
//! in string index number by a class outside the class being accessed.
//! Typically this is when composite device class is in use.
//!
//! The \e pvInstance value should point to an instance of the device being
//! accessed.
//!
//! The \e ulRequest should be USB_EVENT_COMP_STR_CHANGE.
//!
//! The \e pvRequestData should point to a two byte array where the first value
//! is the old string index and the second is the new string index.
//
#define USB_EVENT_COMP_STR_CHANGE (USB_EVENT_BASE + 16)
//
//! Used with pfnDeviceHandler handler function is classes to allow the device
//! class to make final adjustments to the configuration descriptor.
//! This is only used when a device class is used in a composite device class
//! is in use.
//!
//! The \e pvInstance value should point to an instance of the device being
//! accessed.
//!
//! The \e ulRequest should be USB_EVENT_COMP_CONFIG.
//!
//! The \e pvRequestData should point to the beginning of the configuration
//! descriptor for the device instance.
//
#define USB_EVENT_COMP_CONFIG (USB_EVENT_BASE + 17)
//*****************************************************************************
//
// Error sources reported via USB_EVENT_ERROR.
//
//*****************************************************************************
//
//! The host received an invalid PID in a transaction.
//
#define USBERR_HOST_IN_PID_ERROR 0x01000000
//
//! The host did not receive a response from a device.
//
#define USBERR_HOST_IN_NOT_COMP 0x00100000
//
//! The host received a stall on an IN endpoint.
//
#define USBERR_HOST_IN_STALL 0x00400000
//
//! The host detected a CRC or bit-stuffing error (isochronous mode).
//
#define USBERR_HOST_IN_DATA_ERROR 0x00080000
//
//! The host received NAK on an IN endpoint for longer than the specified
//! timeout period (interrupt, bulk and control modes).
//
#define USBERR_HOST_IN_NAK_TO 0x00080000
//
//! The host failed to communicate with a device via an IN endpoint.
//
#define USBERR_HOST_IN_ERROR 0x00040000
//
//! The host receive FIFO is full.
//
#define USBERR_HOST_IN_FIFO_FULL 0x00020000 // RX FIFO full
//
//! The host received NAK on an OUT endpoint for longer than the specified
//! timeout period (bulk, interrupt and control modes).
//
#define USBERR_HOST_OUT_NAK_TO 0x00000080
//
//! The host did not receive a response from a device (isochronous mode).
//
#define USBERR_HOST_OUT_NOT_COMP 0x00000080
//
//! The host received a stall on an OUT endpoint.
//
#define USBERR_HOST_OUT_STALL 0x00000020
//
//! The host failed to communicate with a device via an OUT endpoint.
//
#define USBERR_HOST_OUT_ERROR 0x00000004
//
//! The host received NAK on endpoint 0 for longer than the configured
//! timeout.
//
#define USBERR_HOST_EP0_NAK_TO 0x00000080
//
//! The host failed to communicate with a device via an endpoint zero.
//
#define USBERR_HOST_EP0_ERROR 0x00000010
//
//! The device detected a CRC error in received data.
//
#define USBERR_DEV_RX_DATA_ERROR 0x00080000
//
//! The device was unable to receive a packet from the host since the receive
//! FIFO is full.
//
#define USBERR_DEV_RX_OVERRUN 0x00040000
//
//! The device receive FIFO is full.
//
#define USBERR_DEV_RX_FIFO_FULL 0x00020000 // RX FIFO full
//*****************************************************************************
//
// Close the general_usblib_api Doxygen group.
//! @}
//
//*****************************************************************************
//*****************************************************************************
//
//! \addtogroup usblib_buffer_api
//! @{
//
//*****************************************************************************
//*****************************************************************************
//
//! A function pointer type which describes either a class driver packet read
//! or packet write function (both have the same prototype) to the USB
//! buffer object.
//
//*****************************************************************************
typedef uint32 (* tUSBPacketTransfer)(void *pvHandle,
uint8 *pcData,
uint32 ulLength,
tBoolean bLast);
//*****************************************************************************
//
//! A function pointer type which describes either a class driver transmit
//! or receive packet available function (both have the same prototype) to the
//! USB buffer object.
//
//*****************************************************************************
typedef uint32 (* tUSBPacketAvailable)(void *pvHandle);
//*****************************************************************************
//
//! The number of bytes of workspace that each USB buffer object requires.
//! This workspace memory is provided to the buffer on USBBufferInit() in
//! the \e pvWorkspace field of the \e tUSBBuffer structure.
//
//*****************************************************************************
#define USB_BUFFER_WORKSPACE_SIZE 16
//*****************************************************************************
//
//! The structure used by the application to initialize a buffer object that
//! will provide buffered access to either a transmit or receive channel.
//
//*****************************************************************************
typedef struct
{
//
//! This field sets the mode of the buffer. If TRUE, the buffer
//! operates as a transmit buffer and supports calls to USBBufferWrite
//! by the client. If FALSE, the buffer operates as a receive buffer
//! and supports calls to USBBufferRead.
//
tBoolean bTransmitBuffer;
//
//! A pointer to the callback function which will be called to notify
//! the application of all asynchronous events related to the operation
//! of the buffer.
//
tUSBCallback pfnCallback;
//
//! A pointer that the buffer will pass back to the client in the
//! first parameter of all callbacks related to this instance.
//
void *pvCBData;
//
//! The function which should be called to transmit a packet of data
//! in transmit mode or receive a packet in receive mode.
//
tUSBPacketTransfer pfnTransfer;
//
//! The function which should be called to determine if the endpoint is
//! ready to accept a new packet for transmission in transmit mode or
//! to determine the size of the buffer required to read a packet in
//! receive mode.
//
tUSBPacketAvailable pfnAvailable;
//
//! The handle to pass to the low level function pointers
//! provided in the pfnTransfer and pfnAvailable members. For USB device
//! use, this is the psDevice parameter required by the relevant device
//! class driver APIs. For USB host use, this is the pipe identifier
//! returned by USBHCDPipeAlloc.
//
void *pvHandle;
//
//! A pointer to memory to be used as the ring buffer for this
//! instance.
//
uint8 *pcBuffer;
//
//! The size, in bytes, of the buffer pointed to by pcBuffer.
//
uint32 ulBufferSize;
//
//! A pointer to USB_BUFFER_WORKSPACE_SIZE bytes of RAM that the buffer
//! object can use for workspace.
//
void *pvWorkspace;
}
tUSBBuffer;
//*****************************************************************************
//
//! The structure used for encapsulating all the items associated with a
//! ring buffer.
//
//*****************************************************************************
typedef struct
{
//
//! The ring buffer size.
//
uint32 ulSize;
//
//! The ring buffer write index.
//
volatile uint32 ulWriteIndex;
//
//! The ring buffer read index.
//
volatile uint32 ulReadIndex;
//
//! The ring buffer.
//
uint8 *pucBuf;
}
tUSBRingBufObject;
//*****************************************************************************
//
// USB buffer API function prototypes.
//
//*****************************************************************************
extern const tUSBBuffer *USBBufferInit(const tUSBBuffer *psBuffer);
extern void USBBufferInfoGet(const tUSBBuffer *psBuffer,
tUSBRingBufObject *psRingBuf);
extern void *USBBufferCallbackDataSet(tUSBBuffer *psBuffer, void *pvCBData);
extern uint32 USBBufferWrite(const tUSBBuffer *psBuffer,
const uint8 *pucData,
uint32 ulLength);
extern void USBBufferDataWritten(const tUSBBuffer *psBuffer,
uint32 ulLength);
extern void USBBufferDataRemoved(const tUSBBuffer *psBuffer,
uint32 ulLength);
extern void USBBufferFlush(const tUSBBuffer *psBuffer);
extern uint32 USBBufferRead(const tUSBBuffer *psBuffer,
uint8 *pucData,
uint32 ulLength);
extern uint32 USBBufferDataAvailable(const tUSBBuffer *psBuffer);
extern uint32 USBBufferSpaceAvailable(const tUSBBuffer *psBuffer);
extern uint32 USBBufferEventCallback(void *pvCBData,
uint32 ulEvent,
uint32 ulMsgValue,
void *pvMsgData);
extern tBoolean USBRingBufFull(tUSBRingBufObject *ptUSBRingBuf);
extern tBoolean USBRingBufEmpty(tUSBRingBufObject *ptUSBRingBuf);
extern void USBRingBufFlush(tUSBRingBufObject *ptUSBRingBuf);
extern uint32 USBRingBufUsed(tUSBRingBufObject *ptUSBRingBuf);
extern uint32 USBRingBufFree(tUSBRingBufObject *ptUSBRingBuf);
extern uint32 USBRingBufContigUsed(tUSBRingBufObject *ptUSBRingBuf);
extern uint32 USBRingBufContigFree(tUSBRingBufObject *ptUSBRingBuf);
extern uint32 USBRingBufSize(tUSBRingBufObject *ptUSBRingBuf);
extern uint8 USBRingBufReadOne(tUSBRingBufObject *ptUSBRingBuf);
extern void USBRingBufRead(tUSBRingBufObject *ptUSBRingBuf,
uint8 *pucData, uint32 ulLength);
extern void USBRingBufWriteOne(tUSBRingBufObject *ptUSBRingBuf,
uint8 ucData);
extern void USBRingBufWrite(tUSBRingBufObject *ptUSBRingBuf,
const uint8 *pucData,
uint32 ulLength);
extern void USBRingBufAdvanceWrite(tUSBRingBufObject *ptUSBRingBuf,
uint32 ulNumBytes);
extern void USBRingBufAdvanceRead(tUSBRingBufObject *ptUSBRingBuf,
uint32 ulNumBytes);
extern void USBRingBufInit(tUSBRingBufObject *ptUSBRingBuf,
uint8 *pucBuf, uint32 ulSize);
//*****************************************************************************
//
// Close the Doxygen group.
//! @}
//
//*****************************************************************************
//*****************************************************************************
//
// Mark the end of the C bindings section for C++ compilers.
//
//*****************************************************************************
#ifdef __cplusplus
}
#endif
#endif // __USBLIB_H__
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