src/drivers/usb/ehci.h - ipxe - Git at Google

 #ifndef _IPXE_EHCI_H
 #define _IPXE_EHCI_H

 /** @file
  *
  * USB Enhanced Host Controller Interface (EHCI) driver
  *
  */

 FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

 #include <ipxe/pci.h>
 #include <ipxe/usb.h>

 /** Minimum alignment required for data structures
  *
  * With the exception of the periodic frame list (which is
  * page-aligned), data structures used by EHCI generally require
  * 32-byte alignment and must not cross a 4kB page boundary.  We
  * simplify this requirement by aligning each structure on its own
  * size, with a minimum of a 32 byte alignment.
  */
 #define EHCI_MIN_ALIGN 32

 /** Maximum transfer size
  *
  * EHCI allows for transfers of up to 20kB with page-alignment, or
  * 16kB with arbitrary alignment.
  */
 #define EHCI_MTU 16384

 /** Page-alignment required for some data structures */
 #define EHCI_PAGE_ALIGN 4096

 /** EHCI PCI BAR */
 #define EHCI_BAR PCI_BASE_ADDRESS_0

 /** Capability register length */
 #define EHCI_CAP_CAPLENGTH 0x00

 /** Host controller interface version number */
 #define EHCI_CAP_HCIVERSION 0x02

 /** Structural parameters */
 #define EHCI_CAP_HCSPARAMS 0x04

 /** Number of ports */
 #define EHCI_HCSPARAMS_PORTS(params) ( ( (params) >> 0 ) & 0x0f )

 /** Capability parameters */
 #define EHCI_CAP_HCCPARAMS 0x08

 /** 64-bit addressing capability */
 #define EHCI_HCCPARAMS_ADDR64(params) ( ( (params) >> 0 ) & 0x1 )

 /** Programmable frame list flag */
 #define EHCI_HCCPARAMS_FLSIZE(params) ( ( (params) >> 1 ) & 0x1 )

 /** EHCI extended capabilities pointer */
 #define EHCI_HCCPARAMS_EECP(params) ( ( ( (params) >> 8 ) & 0xff ) )

 /** EHCI extended capability ID */
 #define EHCI_EECP_ID(eecp) ( ( (eecp) >> 0 ) & 0xff )

 /** Next EHCI extended capability pointer */
 #define EHCI_EECP_NEXT(eecp) ( ( ( (eecp) >> 8 ) & 0xff ) )

 /** USB legacy support extended capability */
 #define EHCI_EECP_ID_LEGACY 1

 /** USB legacy support BIOS owned semaphore */
 #define EHCI_USBLEGSUP_BIOS 0x02

 /** USB legacy support BIOS ownership flag */
 #define EHCI_USBLEGSUP_BIOS_OWNED 0x01

 /** USB legacy support OS owned semaphore */
 #define EHCI_USBLEGSUP_OS 0x03

 /** USB legacy support OS ownership flag */
 #define EHCI_USBLEGSUP_OS_OWNED 0x01

 /** USB legacy support control/status */
 #define EHCI_USBLEGSUP_CTLSTS 0x04

 /** USB command register */
 #define EHCI_OP_USBCMD 0x00

 /** Run/stop */
 #define EHCI_USBCMD_RUN 0x00000001UL

 /** Host controller reset */
 #define EHCI_USBCMD_HCRST 0x00000002UL

 /** Frame list size */
 #define EHCI_USBCMD_FLSIZE(flsize) ( (flsize) << 2 )

 /** Frame list size mask */
 #define EHCI_USBCMD_FLSIZE_MASK EHCI_USBCMD_FLSIZE ( 3 )

 /** Default frame list size */
 #define EHCI_FLSIZE_DEFAULT 0

 /** Smallest allowed frame list size */
 #define EHCI_FLSIZE_SMALL 2

 /** Number of elements in frame list */
 #define EHCI_PERIODIC_FRAMES(flsize) ( 1024 >> (flsize) )

 /** Periodic schedule enable */
 #define EHCI_USBCMD_PERIODIC 0x00000010UL

 /** Asynchronous schedule enable */
 #define EHCI_USBCMD_ASYNC 0x00000020UL

 /** Asyncchronous schedule advance doorbell */
 #define EHCI_USBCMD_ASYNC_ADVANCE 0x000040UL

 /** USB status register */
 #define EHCI_OP_USBSTS 0x04

 /** USB interrupt */
 #define EHCI_USBSTS_USBINT 0x00000001UL

 /** USB error interrupt */
 #define EHCI_USBSTS_USBERRINT 0x00000002UL

 /** Port change detect */
 #define EHCI_USBSTS_PORT 0x00000004UL

 /** Frame list rollover */
 #define EHCI_USBSTS_ROLLOVER 0x00000008UL

 /** Host system error */
 #define EHCI_USBSTS_SYSERR 0x00000010UL

 /** Asynchronous schedule advanced */
 #define EHCI_USBSTS_ASYNC_ADVANCE 0x00000020UL

 /** Periodic schedule enabled */
 #define EHCI_USBSTS_PERIODIC 0x00004000UL

 /** Asynchronous schedule enabled */
 #define EHCI_USBSTS_ASYNC 0x00008000UL

 /** Host controller halted */
 #define EHCI_USBSTS_HCH 0x00001000UL

 /** USB status change mask */
 #define EHCI_USBSTS_CHANGE						\
 	( EHCI_USBSTS_USBINT | EHCI_USBSTS_USBERRINT |			\
 	  EHCI_USBSTS_PORT | EHCI_USBSTS_ROLLOVER |			\
 	  EHCI_USBSTS_SYSERR | EHCI_USBSTS_ASYNC_ADVANCE )

 /** USB interrupt enable register */
 #define EHCI_OP_USBINTR 0x08

 /** Frame index register */
 #define EHCI_OP_FRINDEX 0x0c

 /** Control data structure segment register */
 #define EHCI_OP_CTRLDSSEGMENT 0x10

 /** Periodic frame list base address register */
 #define EHCI_OP_PERIODICLISTBASE 0x14

 /** Current asynchronous list address register */
 #define EHCI_OP_ASYNCLISTADDR 0x18

 /** Configure flag register */
 #define EHCI_OP_CONFIGFLAG 0x40

 /** Configure flag */
 #define EHCI_CONFIGFLAG_CF 0x00000001UL

 /** Port status and control register */
 #define EHCI_OP_PORTSC(port) ( 0x40 + ( (port) << 2 ) )

 /** Current connect status */
 #define EHCI_PORTSC_CCS 0x00000001UL

 /** Connect status change */
 #define EHCI_PORTSC_CSC 0x00000002UL

 /** Port enabled */
 #define EHCI_PORTSC_PED 0x00000004UL

 /** Port enabled/disabled change */
 #define EHCI_PORTSC_PEC 0x00000008UL

 /** Over-current change */
 #define EHCI_PORTSC_OCC 0x00000020UL

 /** Port reset */
 #define EHCI_PORTSC_PR 0x00000100UL

 /** Line status */
 #define EHCI_PORTSC_LINE_STATUS(portsc) ( ( (portsc) >> 10 ) & 0x3 )

 /** Line status: low-speed device */
 #define EHCI_PORTSC_LINE_STATUS_LOW 0x1

 /** Port power */
 #define EHCI_PORTSC_PP 0x00001000UL

 /** Port owner */
 #define EHCI_PORTSC_OWNER 0x00002000UL

 /** Port status change mask */
 #define EHCI_PORTSC_CHANGE \
 	( EHCI_PORTSC_CSC | EHCI_PORTSC_PEC | EHCI_PORTSC_OCC )

 /** List terminator */
 #define EHCI_LINK_TERMINATE 0x00000001UL

 /** Frame list type */
 #define EHCI_LINK_TYPE(type) ( (type) << 1 )

 /** Queue head type */
 #define EHCI_LINK_TYPE_QH EHCI_LINK_TYPE ( 1 )

 /** A periodic frame list entry */
 struct ehci_periodic_frame {
 	/** First queue head */
 	uint32_t link;
 } __attribute__ (( packed ));

 /** A transfer descriptor */
 struct ehci_transfer_descriptor {
 	/** Next transfer descriptor */
 	uint32_t next;
 	/** Alternate next transfer descriptor */
 	uint32_t alt;
 	/** Status */
 	uint8_t status;
 	/** Flags */
 	uint8_t flags;
 	/** Transfer length */
 	uint16_t len;
 	/** Buffer pointers (low 32 bits) */
 	uint32_t low[5];
 	/** Extended buffer pointers (high 32 bits) */
 	uint32_t high[5];
 	/** Reserved */
 	uint8_t reserved[12];
 } __attribute__ (( packed ));

 /** Transaction error */
 #define EHCI_STATUS_XACT_ERR 0x08

 /** Babble detected */
 #define EHCI_STATUS_BABBLE 0x10

 /** Data buffer error */
 #define EHCI_STATUS_BUFFER 0x20

 /** Halted */
 #define EHCI_STATUS_HALTED 0x40

 /** Active */
 #define EHCI_STATUS_ACTIVE 0x80

 /** PID code */
 #define EHCI_FL_PID(code) ( (code) << 0 )

 /** OUT token */
 #define EHCI_FL_PID_OUT EHCI_FL_PID ( 0 )

 /** IN token */
 #define EHCI_FL_PID_IN EHCI_FL_PID ( 1 )

 /** SETUP token */
 #define EHCI_FL_PID_SETUP EHCI_FL_PID ( 2 )

 /** Error counter */
 #define EHCI_FL_CERR( count ) ( (count) << 2 )

 /** Error counter maximum value */
 #define EHCI_FL_CERR_MAX EHCI_FL_CERR ( 3 )

 /** Interrupt on completion */
 #define EHCI_FL_IOC 0x80

 /** Length mask */
 #define EHCI_LEN_MASK 0x7fff

 /** Data toggle */
 #define EHCI_LEN_TOGGLE 0x8000

 /** A queue head */
 struct ehci_queue_head {
 	/** Horizontal link pointer */
 	uint32_t link;
 	/** Endpoint characteristics */
 	uint32_t chr;
 	/** Endpoint capabilities */
 	uint32_t cap;
 	/** Current transfer descriptor */
 	uint32_t current;
 	/** Transfer descriptor cache */
 	struct ehci_transfer_descriptor cache;
 } __attribute__ (( packed ));

 /** Device address */
 #define EHCI_CHR_ADDRESS( address ) ( (address) << 0 )

 /** Endpoint number */
 #define EHCI_CHR_ENDPOINT( address ) ( ( (address) & 0xf ) << 8 )

 /** Endpoint speed */
 #define EHCI_CHR_EPS( eps ) ( (eps) << 12 )

 /** Full-speed endpoint */
 #define EHCI_CHR_EPS_FULL EHCI_CHR_EPS ( 0 )

 /** Low-speed endpoint */
 #define EHCI_CHR_EPS_LOW EHCI_CHR_EPS ( 1 )

 /** High-speed endpoint */
 #define EHCI_CHR_EPS_HIGH EHCI_CHR_EPS ( 2 )

 /** Explicit data toggles */
 #define EHCI_CHR_TOGGLE 0x00004000UL

 /** Head of reclamation list flag */
 #define EHCI_CHR_HEAD 0x00008000UL

 /** Maximum packet length */
 #define EHCI_CHR_MAX_LEN( len ) ( (len) << 16 )

 /** Control endpoint flag */
 #define EHCI_CHR_CONTROL 0x08000000UL

 /** Interrupt schedule mask */
 #define EHCI_CAP_INTR_SCHED( uframe ) ( 1 << ( (uframe) + 0 ) )

 /** Split completion schedule mask */
 #define EHCI_CAP_SPLIT_SCHED( uframe ) ( 1 << ( (uframe) + 8 ) )

 /** Default split completion schedule mask
  *
  * We schedule all split starts in microframe 0, on the assumption
  * that we will never have to deal with more than sixteen actively
  * interrupting devices via the same transaction translator.  We
  * schedule split completions for all remaining microframes after
  * microframe 1 (in which the low-speed or full-speed transaction is
  * assumed to execute).  This is a very crude approximation designed
  * to avoid the need for calculating exactly when low-speed and
  * full-speed transactions will execute.  Since we only ever deal with
  * interrupt endpoints (rather than isochronous endpoints), the volume
  * of periodic traffic is extremely low, and this approximation should
  * remain valid.
  */
 #define EHCI_CAP_SPLIT_SCHED_DEFAULT					\
 	( EHCI_CAP_SPLIT_SCHED ( 2 ) | EHCI_CAP_SPLIT_SCHED ( 3 ) |	\
 	  EHCI_CAP_SPLIT_SCHED ( 4 ) | EHCI_CAP_SPLIT_SCHED ( 5 ) |	\
 	  EHCI_CAP_SPLIT_SCHED ( 6 ) | EHCI_CAP_SPLIT_SCHED ( 7 ) )

 /** Transaction translator hub address */
 #define EHCI_CAP_TT_HUB( address ) ( (address) << 16 )

 /** Transaction translator port number */
 #define EHCI_CAP_TT_PORT( port ) ( (port) << 23 )

 /** High-bandwidth pipe multiplier */
 #define EHCI_CAP_MULT( mult ) ( (mult) << 30 )

 /** A transfer descriptor ring */
 struct ehci_ring {
 	/** Producer counter */
 	unsigned int prod;
 	/** Consumer counter */
 	unsigned int cons;

 	/** Residual untransferred data */
 	size_t residual;

 	/** I/O buffers */
 	struct io_buffer **iobuf;

 	/** Queue head */
 	struct ehci_queue_head *head;
 	/** Transfer descriptors */
 	struct ehci_transfer_descriptor *desc;
 };

 /** Number of transfer descriptors in a ring
  *
  * This is a policy decision.
  */
 #define EHCI_RING_COUNT 64

 /**
  * Calculate space used in transfer descriptor ring
  *
  * @v ring		Transfer descriptor ring
  * @ret fill		Number of entries used
  */
 static inline __attribute__ (( always_inline )) unsigned int
 ehci_ring_fill ( struct ehci_ring *ring ) {
 	unsigned int fill;

 	fill = ( ring->prod - ring->cons );
 	assert ( fill <= EHCI_RING_COUNT );
 	return fill;
 }

 /**
  * Calculate space remaining in transfer descriptor ring
  *
  * @v ring		Transfer descriptor ring
  * @ret remaining	Number of entries remaining
  */
 static inline __attribute__ (( always_inline )) unsigned int
 ehci_ring_remaining ( struct ehci_ring *ring ) {
 	unsigned int fill = ehci_ring_fill ( ring );

 	return ( EHCI_RING_COUNT - fill );
 }

 /** Time to delay after enabling power to a port
  *
  * This is not mandated by EHCI; we use the value given for xHCI.
  */
 #define EHCI_PORT_POWER_DELAY_MS 20

 /** Time to delay after releasing ownership of a port
  *
  * This is a policy decision.
  */
 #define EHCI_DISOWN_DELAY_MS 100

 /** Maximum time to wait for BIOS to release ownership
  *
  * This is a policy decision.
  */
 #define EHCI_USBLEGSUP_MAX_WAIT_MS 100

 /** Maximum time to wait for asynchronous schedule to advance
  *
  * This is a policy decision.
  */
 #define EHCI_ASYNC_ADVANCE_MAX_WAIT_MS 100

 /** Maximum time to wait for host controller to stop
  *
  * This is a policy decision.
  */
 #define EHCI_STOP_MAX_WAIT_MS 100

 /** Maximum time to wait for reset to complete
  *
  * This is a policy decision.
  */
 #define EHCI_RESET_MAX_WAIT_MS 500

 /** Maximum time to wait for a port reset to complete
  *
  * This is a policy decision.
  */
 #define EHCI_PORT_RESET_MAX_WAIT_MS 500

 /** An EHCI transfer */
 struct ehci_transfer {
 	/** Data buffer */
 	void *data;
 	/** Length */
 	size_t len;
 	/** Flags
 	 *
 	 * This is the bitwise OR of zero or more EHCI_FL_XXX values.
 	 * The low 8 bits are copied to the flags byte within the
 	 * transfer descriptor; the remaining bits hold flags
 	 * meaningful only to our driver code.
 	 */
 	unsigned int flags;
 };

 /** Set initial data toggle */
 #define EHCI_FL_TOGGLE 0x8000

 /** An EHCI device */
 struct ehci_device {
 	/** Registers */
 	void *regs;
 	/** Name */
 	const char *name;

 	/** Capability registers */
 	void *cap;
 	/** Operational registers */
 	void *op;

 	/** Number of ports */
 	unsigned int ports;
 	/** 64-bit addressing capability */
 	int addr64;
 	/** Frame list size */
 	unsigned int flsize;
 	/** EHCI extended capabilities offset */
 	unsigned int eecp;

 	/** USB legacy support capability (if present and enabled) */
 	unsigned int legacy;

 	/** Control data structure segment */
 	uint32_t ctrldssegment;
 	/** Asynchronous queue head */
 	struct ehci_queue_head *head;
 	/** Periodic frame list */
 	struct ehci_periodic_frame *frame;

 	/** List of all endpoints */
 	struct list_head endpoints;
 	/** Asynchronous schedule */
 	struct list_head async;
 	/** Periodic schedule
 	 *
 	 * Listed in decreasing order of endpoint interval.
 	 */
 	struct list_head periodic;

 	/** USB bus */
 	struct usb_bus *bus;
 };

 /** An EHCI endpoint */
 struct ehci_endpoint {
 	/** EHCI device */
 	struct ehci_device *ehci;
 	/** USB endpoint */
 	struct usb_endpoint *ep;
 	/** List of all endpoints */
 	struct list_head list;
 	/** Endpoint schedule */
 	struct list_head schedule;

 	/** Transfer descriptor ring */
 	struct ehci_ring ring;
 };

 extern unsigned int ehci_companion ( struct pci_device *pci );

 #endif /* _IPXE_EHCI_H */
	#ifndef _IPXE_EHCI_H
	#define _IPXE_EHCI_H

	/** @file
	*
	* USB Enhanced Host Controller Interface (EHCI) driver
	*
	*/

	FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

	#include <ipxe/pci.h>
	#include <ipxe/usb.h>

	/** Minimum alignment required for data structures
	*
	* With the exception of the periodic frame list (which is
	* page-aligned), data structures used by EHCI generally require
	* 32-byte alignment and must not cross a 4kB page boundary. We
	* simplify this requirement by aligning each structure on its own
	* size, with a minimum of a 32 byte alignment.
	*/
	#define EHCI_MIN_ALIGN 32

	/** Maximum transfer size
	*
	* EHCI allows for transfers of up to 20kB with page-alignment, or
	* 16kB with arbitrary alignment.
	*/
	#define EHCI_MTU 16384

	/** Page-alignment required for some data structures */
	#define EHCI_PAGE_ALIGN 4096

	/** EHCI PCI BAR */
	#define EHCI_BAR PCI_BASE_ADDRESS_0

	/** Capability register length */
	#define EHCI_CAP_CAPLENGTH 0x00

	/** Host controller interface version number */
	#define EHCI_CAP_HCIVERSION 0x02

	/** Structural parameters */
	#define EHCI_CAP_HCSPARAMS 0x04

	/** Number of ports */
	#define EHCI_HCSPARAMS_PORTS(params) ( ( (params) >> 0 ) & 0x0f )

	/** Capability parameters */
	#define EHCI_CAP_HCCPARAMS 0x08

	/** 64-bit addressing capability */
	#define EHCI_HCCPARAMS_ADDR64(params) ( ( (params) >> 0 ) & 0x1 )

	/** Programmable frame list flag */
	#define EHCI_HCCPARAMS_FLSIZE(params) ( ( (params) >> 1 ) & 0x1 )

	/** EHCI extended capabilities pointer */
	#define EHCI_HCCPARAMS_EECP(params) ( ( ( (params) >> 8 ) & 0xff ) )

	/** EHCI extended capability ID */
	#define EHCI_EECP_ID(eecp) ( ( (eecp) >> 0 ) & 0xff )

	/** Next EHCI extended capability pointer */
	#define EHCI_EECP_NEXT(eecp) ( ( ( (eecp) >> 8 ) & 0xff ) )

	/** USB legacy support extended capability */
	#define EHCI_EECP_ID_LEGACY 1

	/** USB legacy support BIOS owned semaphore */
	#define EHCI_USBLEGSUP_BIOS 0x02

	/** USB legacy support BIOS ownership flag */
	#define EHCI_USBLEGSUP_BIOS_OWNED 0x01

	/** USB legacy support OS owned semaphore */
	#define EHCI_USBLEGSUP_OS 0x03

	/** USB legacy support OS ownership flag */
	#define EHCI_USBLEGSUP_OS_OWNED 0x01

	/** USB legacy support control/status */
	#define EHCI_USBLEGSUP_CTLSTS 0x04

	/** USB command register */
	#define EHCI_OP_USBCMD 0x00

	/** Run/stop */
	#define EHCI_USBCMD_RUN 0x00000001UL

	/** Host controller reset */
	#define EHCI_USBCMD_HCRST 0x00000002UL

	/** Frame list size */
	#define EHCI_USBCMD_FLSIZE(flsize) ( (flsize) << 2 )

	/** Frame list size mask */
	#define EHCI_USBCMD_FLSIZE_MASK EHCI_USBCMD_FLSIZE ( 3 )

	/** Default frame list size */
	#define EHCI_FLSIZE_DEFAULT 0

	/** Smallest allowed frame list size */
	#define EHCI_FLSIZE_SMALL 2

	/** Number of elements in frame list */
	#define EHCI_PERIODIC_FRAMES(flsize) ( 1024 >> (flsize) )

	/** Periodic schedule enable */
	#define EHCI_USBCMD_PERIODIC 0x00000010UL

	/** Asynchronous schedule enable */
	#define EHCI_USBCMD_ASYNC 0x00000020UL

	/** Asyncchronous schedule advance doorbell */
	#define EHCI_USBCMD_ASYNC_ADVANCE 0x000040UL

	/** USB status register */
	#define EHCI_OP_USBSTS 0x04

	/** USB interrupt */
	#define EHCI_USBSTS_USBINT 0x00000001UL

	/** USB error interrupt */
	#define EHCI_USBSTS_USBERRINT 0x00000002UL

	/** Port change detect */
	#define EHCI_USBSTS_PORT 0x00000004UL

	/** Frame list rollover */
	#define EHCI_USBSTS_ROLLOVER 0x00000008UL

	/** Host system error */
	#define EHCI_USBSTS_SYSERR 0x00000010UL

	/** Asynchronous schedule advanced */
	#define EHCI_USBSTS_ASYNC_ADVANCE 0x00000020UL

	/** Periodic schedule enabled */
	#define EHCI_USBSTS_PERIODIC 0x00004000UL

	/** Asynchronous schedule enabled */
	#define EHCI_USBSTS_ASYNC 0x00008000UL

	/** Host controller halted */
	#define EHCI_USBSTS_HCH 0x00001000UL

	/** USB status change mask */
	#define EHCI_USBSTS_CHANGE \
	( EHCI_USBSTS_USBINT \| EHCI_USBSTS_USBERRINT \| \
	EHCI_USBSTS_PORT \| EHCI_USBSTS_ROLLOVER \| \
	EHCI_USBSTS_SYSERR \| EHCI_USBSTS_ASYNC_ADVANCE )

	/** USB interrupt enable register */
	#define EHCI_OP_USBINTR 0x08

	/** Frame index register */
	#define EHCI_OP_FRINDEX 0x0c

	/** Control data structure segment register */
	#define EHCI_OP_CTRLDSSEGMENT 0x10

	/** Periodic frame list base address register */
	#define EHCI_OP_PERIODICLISTBASE 0x14

	/** Current asynchronous list address register */
	#define EHCI_OP_ASYNCLISTADDR 0x18

	/** Configure flag register */
	#define EHCI_OP_CONFIGFLAG 0x40

	/** Configure flag */
	#define EHCI_CONFIGFLAG_CF 0x00000001UL

	/** Port status and control register */
	#define EHCI_OP_PORTSC(port) ( 0x40 + ( (port) << 2 ) )

	/** Current connect status */
	#define EHCI_PORTSC_CCS 0x00000001UL

	/** Connect status change */
	#define EHCI_PORTSC_CSC 0x00000002UL

	/** Port enabled */
	#define EHCI_PORTSC_PED 0x00000004UL

	/** Port enabled/disabled change */
	#define EHCI_PORTSC_PEC 0x00000008UL

	/** Over-current change */
	#define EHCI_PORTSC_OCC 0x00000020UL

	/** Port reset */
	#define EHCI_PORTSC_PR 0x00000100UL

	/** Line status */
	#define EHCI_PORTSC_LINE_STATUS(portsc) ( ( (portsc) >> 10 ) & 0x3 )

	/** Line status: low-speed device */
	#define EHCI_PORTSC_LINE_STATUS_LOW 0x1

	/** Port power */
	#define EHCI_PORTSC_PP 0x00001000UL

	/** Port owner */
	#define EHCI_PORTSC_OWNER 0x00002000UL

	/** Port status change mask */
	#define EHCI_PORTSC_CHANGE \
	( EHCI_PORTSC_CSC \| EHCI_PORTSC_PEC \| EHCI_PORTSC_OCC )

	/** List terminator */
	#define EHCI_LINK_TERMINATE 0x00000001UL

	/** Frame list type */
	#define EHCI_LINK_TYPE(type) ( (type) << 1 )

	/** Queue head type */
	#define EHCI_LINK_TYPE_QH EHCI_LINK_TYPE ( 1 )

	/** A periodic frame list entry */
	struct ehci_periodic_frame {
	/** First queue head */
	uint32_t link;
	} __attribute__ (( packed ));

	/** A transfer descriptor */
	struct ehci_transfer_descriptor {
	/** Next transfer descriptor */
	uint32_t next;
	/** Alternate next transfer descriptor */
	uint32_t alt;
	/** Status */
	uint8_t status;
	/** Flags */
	uint8_t flags;
	/** Transfer length */
	uint16_t len;
	/** Buffer pointers (low 32 bits) */
	uint32_t low[5];
	/** Extended buffer pointers (high 32 bits) */
	uint32_t high[5];
	/** Reserved */
	uint8_t reserved[12];
	} __attribute__ (( packed ));

	/** Transaction error */
	#define EHCI_STATUS_XACT_ERR 0x08

	/** Babble detected */
	#define EHCI_STATUS_BABBLE 0x10

	/** Data buffer error */
	#define EHCI_STATUS_BUFFER 0x20

	/** Halted */
	#define EHCI_STATUS_HALTED 0x40

	/** Active */
	#define EHCI_STATUS_ACTIVE 0x80

	/** PID code */
	#define EHCI_FL_PID(code) ( (code) << 0 )

	/** OUT token */
	#define EHCI_FL_PID_OUT EHCI_FL_PID ( 0 )

	/** IN token */
	#define EHCI_FL_PID_IN EHCI_FL_PID ( 1 )

	/** SETUP token */
	#define EHCI_FL_PID_SETUP EHCI_FL_PID ( 2 )

	/** Error counter */
	#define EHCI_FL_CERR( count ) ( (count) << 2 )

	/** Error counter maximum value */
	#define EHCI_FL_CERR_MAX EHCI_FL_CERR ( 3 )

	/** Interrupt on completion */
	#define EHCI_FL_IOC 0x80

	/** Length mask */
	#define EHCI_LEN_MASK 0x7fff

	/** Data toggle */
	#define EHCI_LEN_TOGGLE 0x8000

	/** A queue head */
	struct ehci_queue_head {
	/** Horizontal link pointer */
	uint32_t link;
	/** Endpoint characteristics */
	uint32_t chr;
	/** Endpoint capabilities */
	uint32_t cap;
	/** Current transfer descriptor */
	uint32_t current;
	/** Transfer descriptor cache */
	struct ehci_transfer_descriptor cache;
	} __attribute__ (( packed ));

	/** Device address */
	#define EHCI_CHR_ADDRESS( address ) ( (address) << 0 )

	/** Endpoint number */
	#define EHCI_CHR_ENDPOINT( address ) ( ( (address) & 0xf ) << 8 )

	/** Endpoint speed */
	#define EHCI_CHR_EPS( eps ) ( (eps) << 12 )

	/** Full-speed endpoint */
	#define EHCI_CHR_EPS_FULL EHCI_CHR_EPS ( 0 )

	/** Low-speed endpoint */
	#define EHCI_CHR_EPS_LOW EHCI_CHR_EPS ( 1 )

	/** High-speed endpoint */
	#define EHCI_CHR_EPS_HIGH EHCI_CHR_EPS ( 2 )

	/** Explicit data toggles */
	#define EHCI_CHR_TOGGLE 0x00004000UL

	/** Head of reclamation list flag */
	#define EHCI_CHR_HEAD 0x00008000UL

	/** Maximum packet length */
	#define EHCI_CHR_MAX_LEN( len ) ( (len) << 16 )

	/** Control endpoint flag */
	#define EHCI_CHR_CONTROL 0x08000000UL

	/** Interrupt schedule mask */
	#define EHCI_CAP_INTR_SCHED( uframe ) ( 1 << ( (uframe) + 0 ) )

	/** Split completion schedule mask */
	#define EHCI_CAP_SPLIT_SCHED( uframe ) ( 1 << ( (uframe) + 8 ) )

	/** Default split completion schedule mask
	*
	* We schedule all split starts in microframe 0, on the assumption
	* that we will never have to deal with more than sixteen actively
	* interrupting devices via the same transaction translator. We
	* schedule split completions for all remaining microframes after
	* microframe 1 (in which the low-speed or full-speed transaction is
	* assumed to execute). This is a very crude approximation designed
	* to avoid the need for calculating exactly when low-speed and
	* full-speed transactions will execute. Since we only ever deal with
	* interrupt endpoints (rather than isochronous endpoints), the volume
	* of periodic traffic is extremely low, and this approximation should
	* remain valid.
	*/
	#define EHCI_CAP_SPLIT_SCHED_DEFAULT \
	( EHCI_CAP_SPLIT_SCHED ( 2 ) \| EHCI_CAP_SPLIT_SCHED ( 3 ) \| \
	EHCI_CAP_SPLIT_SCHED ( 4 ) \| EHCI_CAP_SPLIT_SCHED ( 5 ) \| \
	EHCI_CAP_SPLIT_SCHED ( 6 ) \| EHCI_CAP_SPLIT_SCHED ( 7 ) )

	/** Transaction translator hub address */
	#define EHCI_CAP_TT_HUB( address ) ( (address) << 16 )

	/** Transaction translator port number */
	#define EHCI_CAP_TT_PORT( port ) ( (port) << 23 )

	/** High-bandwidth pipe multiplier */
	#define EHCI_CAP_MULT( mult ) ( (mult) << 30 )

	/** A transfer descriptor ring */
	struct ehci_ring {
	/** Producer counter */
	unsigned int prod;
	/** Consumer counter */
	unsigned int cons;

	/** Residual untransferred data */
	size_t residual;

	/** I/O buffers */
	struct io_buffer **iobuf;

	/** Queue head */
	struct ehci_queue_head *head;
	/** Transfer descriptors */
	struct ehci_transfer_descriptor *desc;
	};

	/** Number of transfer descriptors in a ring
	*
	* This is a policy decision.
	*/
	#define EHCI_RING_COUNT 64

	/**
	* Calculate space used in transfer descriptor ring
	*
	* @v ring Transfer descriptor ring
	* @ret fill Number of entries used
	*/
	static inline __attribute__ (( always_inline )) unsigned int
	ehci_ring_fill ( struct ehci_ring *ring ) {
	unsigned int fill;

	fill = ( ring->prod - ring->cons );
	assert ( fill <= EHCI_RING_COUNT );
	return fill;
	}

	/**
	* Calculate space remaining in transfer descriptor ring
	*
	* @v ring Transfer descriptor ring
	* @ret remaining Number of entries remaining
	*/
	static inline __attribute__ (( always_inline )) unsigned int
	ehci_ring_remaining ( struct ehci_ring *ring ) {
	unsigned int fill = ehci_ring_fill ( ring );

	return ( EHCI_RING_COUNT - fill );
	}

	/** Time to delay after enabling power to a port
	*
	* This is not mandated by EHCI; we use the value given for xHCI.
	*/
	#define EHCI_PORT_POWER_DELAY_MS 20

	/** Time to delay after releasing ownership of a port
	*
	* This is a policy decision.
	*/
	#define EHCI_DISOWN_DELAY_MS 100

	/** Maximum time to wait for BIOS to release ownership
	*
	* This is a policy decision.
	*/
	#define EHCI_USBLEGSUP_MAX_WAIT_MS 100

	/** Maximum time to wait for asynchronous schedule to advance
	*
	* This is a policy decision.
	*/
	#define EHCI_ASYNC_ADVANCE_MAX_WAIT_MS 100

	/** Maximum time to wait for host controller to stop
	*
	* This is a policy decision.
	*/
	#define EHCI_STOP_MAX_WAIT_MS 100

	/** Maximum time to wait for reset to complete
	*
	* This is a policy decision.
	*/
	#define EHCI_RESET_MAX_WAIT_MS 500

	/** Maximum time to wait for a port reset to complete
	*
	* This is a policy decision.
	*/
	#define EHCI_PORT_RESET_MAX_WAIT_MS 500

	/** An EHCI transfer */
	struct ehci_transfer {
	/** Data buffer */
	void *data;
	/** Length */
	size_t len;
	/** Flags
	*
	* This is the bitwise OR of zero or more EHCI_FL_XXX values.
	* The low 8 bits are copied to the flags byte within the
	* transfer descriptor; the remaining bits hold flags
	* meaningful only to our driver code.
	*/
	unsigned int flags;
	};

	/** Set initial data toggle */
	#define EHCI_FL_TOGGLE 0x8000

	/** An EHCI device */
	struct ehci_device {
	/** Registers */
	void *regs;
	/** Name */
	const char *name;

	/** Capability registers */
	void *cap;
	/** Operational registers */
	void *op;

	/** Number of ports */
	unsigned int ports;
	/** 64-bit addressing capability */
	int addr64;
	/** Frame list size */
	unsigned int flsize;
	/** EHCI extended capabilities offset */
	unsigned int eecp;

	/** USB legacy support capability (if present and enabled) */
	unsigned int legacy;

	/** Control data structure segment */
	uint32_t ctrldssegment;
	/** Asynchronous queue head */
	struct ehci_queue_head *head;
	/** Periodic frame list */
	struct ehci_periodic_frame *frame;

	/** List of all endpoints */
	struct list_head endpoints;
	/** Asynchronous schedule */
	struct list_head async;
	/** Periodic schedule
	*
	* Listed in decreasing order of endpoint interval.
	*/
	struct list_head periodic;

	/** USB bus */
	struct usb_bus *bus;
	};

	/** An EHCI endpoint */
	struct ehci_endpoint {
	/** EHCI device */
	struct ehci_device *ehci;
	/** USB endpoint */
	struct usb_endpoint *ep;
	/** List of all endpoints */
	struct list_head list;
	/** Endpoint schedule */
	struct list_head schedule;

	/** Transfer descriptor ring */
	struct ehci_ring ring;
	};

	extern unsigned int ehci_companion ( struct pci_device *pci );

	#endif /* _IPXE_EHCI_H */