gpxe/src/include/gpxe/iobuf.h - platform/external/syslinux - Git at Google

 #ifndef _GPXE_IOBUF_H
 #define _GPXE_IOBUF_H

 /** @file
  *
  * I/O buffers
  *
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 #include <stdint.h>
 #include <assert.h>
 #include <gpxe/list.h>

 /**
  * I/O buffer alignment
  *
  * I/O buffers allocated via alloc_iob() are guaranteed to be
  * physically aligned to this boundary.  Some cards cannot DMA across
  * a 4kB boundary.  With a standard Ethernet MTU, aligning to a 2kB
  * boundary is sufficient to guarantee no 4kB boundary crossings.  For
  * a jumbo Ethernet MTU, a packet may be larger than 4kB anyway.
  */
 #define IOB_ALIGN 2048

 /**
  * Minimum I/O buffer length
  *
  * alloc_iob() will round up the allocated length to this size if
  * necessary.  This is used on behalf of hardware that is not capable
  * of auto-padding.
  */
 #define IOB_ZLEN 64

 /**
  * A persistent I/O buffer
  *
  * This data structure encapsulates a long-lived I/O buffer.  The
  * buffer may be passed between multiple owners, queued for possible
  * retransmission, etc.
  */
 struct io_buffer {
 	/** List of which this buffer is a member
 	 *
 	 * The list must belong to the current owner of the buffer.
 	 * Different owners may maintain different lists (e.g. a
 	 * retransmission list for TCP).
 	 */
 	struct list_head list;

 	/** Start of the buffer */
 	void *head;
 	/** Start of data */
 	void *data;
 	/** End of data */
 	void *tail;
 	/** End of the buffer */
         void *end;
 };

 /**
  * Reserve space at start of I/O buffer
  *
  * @v iobuf	I/O buffer
  * @v len	Length to reserve
  * @ret data	Pointer to new start of buffer
  */
 static inline void * iob_reserve ( struct io_buffer *iobuf, size_t len ) {
 	iobuf->data += len;
 	iobuf->tail += len;
 	return iobuf->data;
 }
 #define iob_reserve( iobuf, len ) ( {			\
 	void *__result;					\
 	__result = iob_reserve ( (iobuf), (len) );	\
 	assert ( (iobuf)->tail <= (iobuf)->end );	\
 	__result; } )

 /**
  * Add data to start of I/O buffer
  *
  * @v iobuf	I/O buffer
  * @v len	Length to add
  * @ret data	Pointer to new start of buffer
  */
 static inline void * iob_push ( struct io_buffer *iobuf, size_t len ) {
 	iobuf->data -= len;
 	return iobuf->data;
 }
 #define iob_push( iobuf, len ) ( {			\
 	void *__result;					\
 	__result = iob_push ( (iobuf), (len) );		\
 	assert ( (iobuf)->data >= (iobuf)->head );	\
 	__result; } )

 /**
  * Remove data from start of I/O buffer
  *
  * @v iobuf	I/O buffer
  * @v len	Length to remove
  * @ret data	Pointer to new start of buffer
  */
 static inline void * iob_pull ( struct io_buffer *iobuf, size_t len ) {
 	iobuf->data += len;
 	assert ( iobuf->data <= iobuf->tail );
 	return iobuf->data;
 }
 #define iob_pull( iobuf, len ) ( {			\
 	void *__result;					\
 	__result = iob_pull ( (iobuf), (len) );		\
 	assert ( (iobuf)->data <= (iobuf)->tail );	\
 	__result; } )

 /**
  * Add data to end of I/O buffer
  *
  * @v iobuf	I/O buffer
  * @v len	Length to add
  * @ret data	Pointer to newly added space
  */
 static inline void * iob_put ( struct io_buffer *iobuf, size_t len ) {
 	void *old_tail = iobuf->tail;
 	iobuf->tail += len;
 	return old_tail;
 }
 #define iob_put( iobuf, len ) ( {			\
 	void *__result;					\
 	__result = iob_put ( (iobuf), (len) );		\
 	assert ( (iobuf)->tail <= (iobuf)->end );	\
 	__result; } )

 /**
  * Remove data from end of I/O buffer
  *
  * @v iobuf	I/O buffer
  * @v len	Length to remove
  */
 static inline void iob_unput ( struct io_buffer *iobuf, size_t len ) {
 	iobuf->tail -= len;
 }
 #define iob_unput( iobuf, len ) do {			\
 	iob_unput ( (iobuf), (len) );			\
 	assert ( (iobuf)->tail >= (iobuf)->data );	\
 	} while ( 0 )

 /**
  * Empty an I/O buffer
  *
  * @v iobuf	I/O buffer
  */
 static inline void iob_empty ( struct io_buffer *iobuf ) {
 	iobuf->tail = iobuf->data;
 }

 /**
  * Calculate length of data in an I/O buffer
  *
  * @v iobuf	I/O buffer
  * @ret len	Length of data in buffer
  */
 static inline size_t iob_len ( struct io_buffer *iobuf ) {
 	return ( iobuf->tail - iobuf->data );
 }

 /**
  * Calculate available space at start of an I/O buffer
  *
  * @v iobuf	I/O buffer
  * @ret len	Length of data available at start of buffer
  */
 static inline size_t iob_headroom ( struct io_buffer *iobuf ) {
 	return ( iobuf->data - iobuf->head );
 }

 /**
  * Calculate available space at end of an I/O buffer
  *
  * @v iobuf	I/O buffer
  * @ret len	Length of data available at end of buffer
  */
 static inline size_t iob_tailroom ( struct io_buffer *iobuf ) {
 	return ( iobuf->end - iobuf->tail );
 }

 /**
  * Create a temporary I/O buffer
  *
  * @v iobuf	I/O buffer
  * @v data	Data buffer
  * @v len	Length of data
  * @v max_len	Length of buffer
  *
  * It is sometimes useful to use the iob_xxx() methods on temporary
  * data buffers.
  */
 static inline void iob_populate ( struct io_buffer *iobuf,
 				  void *data, size_t len, size_t max_len ) {
 	iobuf->head = iobuf->data = data;
 	iobuf->tail = ( data + len );
 	iobuf->end = ( data + max_len );
 }

 /**
  * Disown an I/O buffer
  *
  * @v iobuf	I/O buffer
  *
  * There are many functions that take ownership of the I/O buffer they
  * are passed as a parameter.  The caller should not retain a pointer
  * to the I/O buffer.  Use iob_disown() to automatically nullify the
  * caller's pointer, e.g.:
  *
  *     xfer_deliver_iob ( xfer, iob_disown ( iobuf ) );
  *
  * This will ensure that iobuf is set to NULL for any code after the
  * call to xfer_deliver_iob().
  */
 #define iob_disown( iobuf ) ( {				\
 	struct io_buffer *__iobuf = (iobuf);		\
 	(iobuf) = NULL;					\
 	__iobuf; } )

 extern struct io_buffer * __malloc alloc_iob ( size_t len );
 extern void free_iob ( struct io_buffer *iobuf );
 extern void iob_pad ( struct io_buffer *iobuf, size_t min_len );
 extern int iob_ensure_headroom ( struct io_buffer *iobuf, size_t len );

 #endif /* _GPXE_IOBUF_H */
	#ifndef _GPXE_IOBUF_H
	#define _GPXE_IOBUF_H

	/** @file
	*
	* I/O buffers
	*
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	#include <stdint.h>
	#include <assert.h>
	#include <gpxe/list.h>

	/**
	* I/O buffer alignment
	*
	* I/O buffers allocated via alloc_iob() are guaranteed to be
	* physically aligned to this boundary. Some cards cannot DMA across
	* a 4kB boundary. With a standard Ethernet MTU, aligning to a 2kB
	* boundary is sufficient to guarantee no 4kB boundary crossings. For
	* a jumbo Ethernet MTU, a packet may be larger than 4kB anyway.
	*/
	#define IOB_ALIGN 2048

	/**
	* Minimum I/O buffer length
	*
	* alloc_iob() will round up the allocated length to this size if
	* necessary. This is used on behalf of hardware that is not capable
	* of auto-padding.
	*/
	#define IOB_ZLEN 64

	/**
	* A persistent I/O buffer
	*
	* This data structure encapsulates a long-lived I/O buffer. The
	* buffer may be passed between multiple owners, queued for possible
	* retransmission, etc.
	*/
	struct io_buffer {
	/** List of which this buffer is a member
	*
	* The list must belong to the current owner of the buffer.
	* Different owners may maintain different lists (e.g. a
	* retransmission list for TCP).
	*/
	struct list_head list;

	/** Start of the buffer */
	void *head;
	/** Start of data */
	void *data;
	/** End of data */
	void *tail;
	/** End of the buffer */
	void *end;
	};

	/**
	* Reserve space at start of I/O buffer
	*
	* @v iobuf I/O buffer
	* @v len Length to reserve
	* @ret data Pointer to new start of buffer
	*/
	static inline void * iob_reserve ( struct io_buffer *iobuf, size_t len ) {
	iobuf->data += len;
	iobuf->tail += len;
	return iobuf->data;
	}
	#define iob_reserve( iobuf, len ) ( { \
	void *__result; \
	__result = iob_reserve ( (iobuf), (len) ); \
	assert ( (iobuf)->tail <= (iobuf)->end ); \
	__result; } )

	/**
	* Add data to start of I/O buffer
	*
	* @v iobuf I/O buffer
	* @v len Length to add
	* @ret data Pointer to new start of buffer
	*/
	static inline void * iob_push ( struct io_buffer *iobuf, size_t len ) {
	iobuf->data -= len;
	return iobuf->data;
	}
	#define iob_push( iobuf, len ) ( { \
	void *__result; \
	__result = iob_push ( (iobuf), (len) ); \
	assert ( (iobuf)->data >= (iobuf)->head ); \
	__result; } )

	/**
	* Remove data from start of I/O buffer
	*
	* @v iobuf I/O buffer
	* @v len Length to remove
	* @ret data Pointer to new start of buffer
	*/
	static inline void * iob_pull ( struct io_buffer *iobuf, size_t len ) {
	iobuf->data += len;
	assert ( iobuf->data <= iobuf->tail );
	return iobuf->data;
	}
	#define iob_pull( iobuf, len ) ( { \
	void *__result; \
	__result = iob_pull ( (iobuf), (len) ); \
	assert ( (iobuf)->data <= (iobuf)->tail ); \
	__result; } )

	/**
	* Add data to end of I/O buffer
	*
	* @v iobuf I/O buffer
	* @v len Length to add
	* @ret data Pointer to newly added space
	*/
	static inline void * iob_put ( struct io_buffer *iobuf, size_t len ) {
	void *old_tail = iobuf->tail;
	iobuf->tail += len;
	return old_tail;
	}
	#define iob_put( iobuf, len ) ( { \
	void *__result; \
	__result = iob_put ( (iobuf), (len) ); \
	assert ( (iobuf)->tail <= (iobuf)->end ); \
	__result; } )

	/**
	* Remove data from end of I/O buffer
	*
	* @v iobuf I/O buffer
	* @v len Length to remove
	*/
	static inline void iob_unput ( struct io_buffer *iobuf, size_t len ) {
	iobuf->tail -= len;
	}
	#define iob_unput( iobuf, len ) do { \
	iob_unput ( (iobuf), (len) ); \
	assert ( (iobuf)->tail >= (iobuf)->data ); \
	} while ( 0 )

	/**
	* Empty an I/O buffer
	*
	* @v iobuf I/O buffer
	*/
	static inline void iob_empty ( struct io_buffer *iobuf ) {
	iobuf->tail = iobuf->data;
	}

	/**
	* Calculate length of data in an I/O buffer
	*
	* @v iobuf I/O buffer
	* @ret len Length of data in buffer
	*/
	static inline size_t iob_len ( struct io_buffer *iobuf ) {
	return ( iobuf->tail - iobuf->data );
	}

	/**
	* Calculate available space at start of an I/O buffer
	*
	* @v iobuf I/O buffer
	* @ret len Length of data available at start of buffer
	*/
	static inline size_t iob_headroom ( struct io_buffer *iobuf ) {
	return ( iobuf->data - iobuf->head );
	}

	/**
	* Calculate available space at end of an I/O buffer
	*
	* @v iobuf I/O buffer
	* @ret len Length of data available at end of buffer
	*/
	static inline size_t iob_tailroom ( struct io_buffer *iobuf ) {
	return ( iobuf->end - iobuf->tail );
	}

	/**
	* Create a temporary I/O buffer
	*
	* @v iobuf I/O buffer
	* @v data Data buffer
	* @v len Length of data
	* @v max_len Length of buffer
	*
	* It is sometimes useful to use the iob_xxx() methods on temporary
	* data buffers.
	*/
	static inline void iob_populate ( struct io_buffer *iobuf,
	void *data, size_t len, size_t max_len ) {
	iobuf->head = iobuf->data = data;
	iobuf->tail = ( data + len );
	iobuf->end = ( data + max_len );
	}

	/**
	* Disown an I/O buffer
	*
	* @v iobuf I/O buffer
	*
	* There are many functions that take ownership of the I/O buffer they
	* are passed as a parameter. The caller should not retain a pointer
	* to the I/O buffer. Use iob_disown() to automatically nullify the
	* caller's pointer, e.g.:
	*
	* xfer_deliver_iob ( xfer, iob_disown ( iobuf ) );
	*
	* This will ensure that iobuf is set to NULL for any code after the
	* call to xfer_deliver_iob().
	*/
	#define iob_disown( iobuf ) ( { \
	struct io_buffer *__iobuf = (iobuf); \
	(iobuf) = NULL; \
	__iobuf; } )

	extern struct io_buffer * __malloc alloc_iob ( size_t len );
	extern void free_iob ( struct io_buffer *iobuf );
	extern void iob_pad ( struct io_buffer *iobuf, size_t min_len );
	extern int iob_ensure_headroom ( struct io_buffer *iobuf, size_t len );

	#endif /* _GPXE_IOBUF_H */