From: arighi Date: Wed, 29 Sep 2010 16:32:26 +0000 (+0000) Subject: USB: add doxygen documentation X-Git-Tag: 2.6.0~43 X-Git-Url: https://codewiz.org/gitweb?a=commitdiff_plain;h=4512274f1561597d312d5f6b6bc72284f65854ca;p=bertos.git USB: add doxygen documentation Also fix a possible endianess bug in DEFINE_USB_STRING(). git-svn-id: https://src.develer.com/svnoss/bertos/trunk@4358 38d2e660-2303-0410-9eaa-f027e97ec537 --- diff --git a/bertos/drv/usb.h b/bertos/drv/usb.h index 02448f2c..23b14973 100644 --- a/bertos/drv/usb.h +++ b/bertos/drv/usb.h @@ -130,10 +130,14 @@ enum usb_device_state { #define USB_DT_CS_INTERFACE (USB_TYPE_CLASS | USB_DT_INTERFACE) #define USB_DT_CS_ENDPOINT (USB_TYPE_CLASS | USB_DT_ENDPOINT) -/* +/** + * + * USB Control Request descriptor + * * This structure is used to send control requests to a USB device. * - * It matches the different fields of the USB 2.0 spec. section 9.3, table 9-2. + * It matches the different fields of the USB 2.0 specification (section 9.3, + * table 9-2). */ typedef struct UsbCtrlRequest { @@ -144,14 +148,22 @@ typedef struct UsbCtrlRequest uint16_t wLength; } PACKED UsbCtrlRequest; -/* All standard descriptors have these 2 fields at the beginning */ +/** + * USB common descriptor header. + * + * \note All the USB standard descriptors have these 2 fields at the beginning. + */ typedef struct UsbDescHeader { uint8_t bLength; uint8_t bDescriptorType; } PACKED UsbDescHeader; -/* Device descriptor */ +/** + * USB Device descriptor + * + * \note See USB 2.0 specification. + */ typedef struct UsbDeviceDesc { uint8_t bLength; @@ -170,7 +182,11 @@ typedef struct UsbDeviceDesc uint8_t bNumConfigurations; } PACKED UsbDeviceDesc; -/* USB string descriptor */ +/** + * USB string descriptor. + * + * \note See USB 2.0 specification. + */ typedef struct UsbStringDesc { uint8_t bLength; @@ -178,11 +194,6 @@ typedef struct UsbStringDesc uint8_t data[0]; } PACKED UsbStringDesc; -/* - * Macros to define USB strings - * - * TODO: add comment. - */ #define USB_STRING_1(__a, ...) __a "\x00" #define USB_STRING_2(__a, ...) __a "\x00" USB_STRING_1(__VA_ARGS__) #define USB_STRING_3(__a, ...) __a "\x00" USB_STRING_2(__VA_ARGS__) @@ -200,18 +211,35 @@ typedef struct UsbStringDesc #define USB_STRING_15(__a, ...) __a "\x00" USB_STRING_14(__VA_ARGS__) #define USB_STRING_16(__a, ...) __a "\x00" USB_STRING_15(__VA_ARGS__) +/** + * Pack a list with a variable number of elements into a UTF-16LE USB string. + * + * \note The macro is recursively defined according the number of elements + * passed as argument. At the moment we support strings with up to 16 + * characters. + */ #define USB_STRING(...) PP_CAT(USB_STRING_, PP_COUNT(__VA_ARGS__))(__VA_ARGS__) -#define DEFINE_USB_STRING(__name, __text) \ - struct { \ - UsbDescHeader __header; \ - uint8_t __body[sizeof(__text)]; \ - } PACKED __name = { \ - .__header = { \ - .bLength = sizeof(__name), \ - .bDescriptorType = USB_DT_STRING, \ - }, \ - .__body = {__text}, \ +/** + * Define and initialize an USB string descriptor. + * + * This macro is reuquired to properly declare and initialize a constant USB + * string in UTF-16LE format. + * + * The structure must contain the standard common USB header (UsbDescHeader) + * and the UTF-16LE string all packed in a contiguous memory region. + */ +#define DEFINE_USB_STRING(__name, __text) \ + struct { \ + UsbDescHeader __header; \ + uint8_t __body[sizeof(__text)]; \ + } PACKED __name = { \ + .__header = { \ + .bLength = \ + cpu_to_le16((uint16_t)sizeof(__name)), \ + .bDescriptorType = USB_DT_STRING, \ + }, \ + .__body = {__text}, \ } /* @@ -246,7 +274,11 @@ typedef struct UsbStringDesc #define USB_CDC_SUBCLASS_EEM 0x0c #define USB_CDC_SUBCLASS_NCM 0x0d -/* Device configuration descriptor */ +/** + * Device configuration descriptor + * + * \note See USB 2.0 specification. + */ typedef struct UsbConfigDesc { uint8_t bLength; @@ -265,7 +297,11 @@ typedef struct UsbConfigDesc #define USB_CONFIG_ATT_WAKEUP (1 << 5) /* can wakeup */ #define USB_CONFIG_ATT_BATTERY (1 << 4) /* battery powered */ -/* Device interface descriptor */ +/** + * Device interface descriptor + * + * \note See USB 2.0 specification. + */ typedef struct UsbInterfaceDesc { uint8_t bLength; @@ -279,7 +315,11 @@ typedef struct UsbInterfaceDesc uint8_t iInterface; } PACKED UsbInterfaceDesc; -/* Endpoint descriptor */ +/** + * Endpoint descriptor + * + * \note See USB 2.0 specification. + */ typedef struct UsbEndpointDesc { uint8_t bLength; @@ -309,54 +349,56 @@ typedef struct UsbEndpointDesc #define USB_ENDPOINT_XFER_INT 3 #define USB_ENDPOINT_MAX_ADJUSTABLE 0x80 -/* USB: generic device descriptor */ +/** + * USB: generic device descriptor + */ typedef struct UsbDevice { - UsbDeviceDesc *device; - const UsbDescHeader **config; - const UsbStringDesc **strings; + UsbDeviceDesc *device; ///< USB 2.0 device descriptor + const UsbDescHeader **config; ///< USB 2.0 configuration descriptors + const UsbStringDesc **strings; ///< USB strings /* Callbacks */ - void (*event_cb)(UsbCtrlRequest *); + void (*event_cb)(UsbCtrlRequest *); ///< Called to handle control requests. /* Private data */ - bool configured; + bool configured; ///< True when the device has been correctly initialized. } UsbDevice; -/* - * usb_endpointNum - get the endpoint's number +/** + * Get the endpoint's address number of \a epd. */ INLINE int usb_endpointNum(const UsbEndpointDesc *epd) { return epd->bEndpointAddress & USB_ENDPOINT_NUMBER_MASK; } -/* - * usb_endpointType - get the endpoint's transfer type +/** + * Get the transfer type of the endpoint \a epd. */ INLINE int usb_endpointType(const struct UsbEndpointDesc *epd) { return epd->bmAttributes & USB_ENDPOINT_XFERTYPE_MASK; } -/* - * usb_endpointDirIn - check if the endpoint has IN direction +/** + * Check if the endpoint \a epd has IN direction. */ INLINE int usb_endpointDirIn(const struct UsbEndpointDesc *epd) { return ((epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_IN); } -/* - * usb_endpointDirOut - check if the endpoint has OUT direction +/** + * Check if the endpoint \a epd has OUT direction. */ INLINE int usb_endpointDirOut(const struct UsbEndpointDesc *epd) { return ((epd->bEndpointAddress & USB_ENDPOINT_DIR_MASK) == USB_DIR_OUT); } -/* - * usb_endpointXferBulk - check if the endpoint has bulk transfer type +/** + * Check if the endpoint \a epd has bulk transfer type. */ INLINE int usb_endpointXferBulk(const struct UsbEndpointDesc *epd) { @@ -364,8 +406,8 @@ INLINE int usb_endpointXferBulk(const struct UsbEndpointDesc *epd) USB_ENDPOINT_XFER_BULK); } -/* - * usb_endpointXferControl - check if the endpoint has control transfer type +/** + * Check if the endpoint \a epd has control transfer type. */ INLINE int usb_endpointXferControl(const struct UsbEndpointDesc *epd) { @@ -373,8 +415,8 @@ INLINE int usb_endpointXferControl(const struct UsbEndpointDesc *epd) USB_ENDPOINT_XFER_CONTROL); } -/* - * usb_endpointXferInt - check if the endpoint has interrupt transfer type +/** + * Check if the endpoint \a epd has interrupt transfer type. */ INLINE int usb_endpointXferInt(const struct UsbEndpointDesc *epd) { @@ -382,8 +424,8 @@ INLINE int usb_endpointXferInt(const struct UsbEndpointDesc *epd) USB_ENDPOINT_XFER_INT); } -/* - * usb_endpointXferIsoc - check if the endpoint has isochronous transfer type +/** + * Check if the endpoint \a epd has isochronous transfer type. */ INLINE int usb_endpointXferIsoc(const struct UsbEndpointDesc *epd) { @@ -391,66 +433,72 @@ INLINE int usb_endpointXferIsoc(const struct UsbEndpointDesc *epd) USB_ENDPOINT_XFER_ISOC); } -/* - * usb_endpointIsBulkIn - check if the endpoint is bulk IN +/** + * Check if the endpoint \a epd is bulk IN. */ INLINE int usb_endpointIsBulkIn(const struct UsbEndpointDesc *epd) { return usb_endpointXferBulk(epd) && usb_endpointDirIn(epd); } -/* - * usb_endpointIsBulkOut - check if the endpoint is bulk OUT +/** + * Check if the endpoint \a epd is bulk OUT. */ INLINE int usb_endpointIsBulkOut(const struct UsbEndpointDesc *epd) { return usb_endpointXferBulk(epd) && usb_endpointDirOut(epd); } -/* - * usb_endpointIsIntIn - check if the endpoint is interrupt IN +/** + * Check if the endpoint \a epd is interrupt IN. */ INLINE int usb_endpointIsIntIn(const struct UsbEndpointDesc *epd) { return usb_endpointXferInt(epd) && usb_endpointDirIn(epd); } -/* - * usb_endpointIsIntOut - check if the endpoint is interrupt OUT +/** + * Check if the endpoint \a epd is interrupt OUT. */ INLINE int usb_endpointIsIntOut(const struct UsbEndpointDesc *epd) { return usb_endpointXferInt(epd) && usb_endpointDirOut(epd); } -/* - * usb_endpointIsIsocIn - check if the endpoint is isochronous IN +/** + * Check if the endpoint \a epd is isochronous IN. */ INLINE int usb_endpointIsIsocIn(const struct UsbEndpointDesc *epd) { return usb_endpointXferIsoc(epd) && usb_endpointDirIn(epd); } -/* - * usb_endpointIsIsocOut - check if the endpoint is isochronous OUT +/** + * Check if the endpoint \a epd is isochronous OUT. */ INLINE int usb_endpointIsIsocOut(const struct UsbEndpointDesc *epd) { return usb_endpointXferIsoc(epd) && usb_endpointDirOut(epd); } -/* - * usb_endpointRead - configure endponint and perform the read operation +/** + * Read up to \a size bytes from the USB endpoint identified by the address + * \a ep and store them in \a buffer. + * + * \return number of bytes actually read. */ ssize_t usb_endpointRead(int ep, void *buffer, ssize_t size); -/* - * usb_endpointWrite - configure endponint and perform the write operation +/** + * Write up to \a size bytes from the buffer pointed \a buffer to the USB + * endpoint identified by the address \a ep. + * + * \return number of bytes actually wrote. */ ssize_t usb_endpointWrite(int ep, const void *buffer, ssize_t size); -/* - * usb_deviceRegister - register a generic USB device driver +/** + * Register a generic USB device driver \a dev in the USB controller. */ int usb_deviceRegister(UsbDevice *dev);