drivers/staging/vme/vme_bridge.h - kernel/prism - Git at Google

 #ifndef _VME_BRIDGE_H_
 #define _VME_BRIDGE_H_

 #define VME_CRCSR_BUF_SIZE (508*1024)
 #define VME_SLOTS_MAX 32
 /*
  * Resource structures
  */
 struct vme_master_resource {
 	struct list_head list;
 	struct vme_bridge *parent;
 	/*
 	 * We are likely to need to access the VME bus in interrupt context, so
 	 * protect master routines with a spinlock rather than a mutex.
 	 */
 	spinlock_t lock;
 	int locked;
 	int number;
 	vme_address_t address_attr;
 	vme_cycle_t cycle_attr;
 	vme_width_t width_attr;
 	struct resource pci_resource;	/* XXX Rename to be bus agnostic */
 	void *kern_base;
 };

 struct vme_slave_resource {
 	struct list_head list;
 	struct vme_bridge *parent;
 	struct mutex mtx;
 	int locked;
 	int number;
 	vme_address_t address_attr;
 	vme_cycle_t cycle_attr;
 };

 struct vme_dma_pattern {
 	u32 pattern;
 	vme_pattern_t type;
 };

 struct vme_dma_pci {
 	dma_addr_t address;
 };

 struct vme_dma_vme {
 	unsigned long long address;
 	vme_address_t aspace;
 	vme_cycle_t cycle;
 	vme_width_t dwidth;
 };

 struct vme_dma_list {
 	struct list_head list;
 	struct vme_dma_resource *parent;
 	struct list_head entries;
 	struct mutex mtx;
 };

 struct vme_dma_resource {
 	struct list_head list;
 	struct vme_bridge *parent;
 	struct mutex mtx;
 	int locked;
 	int number;
 	struct list_head pending;
 	struct list_head running;
 };

 struct vme_lm_resource {
 	struct list_head list;
 	struct vme_bridge *parent;
 	struct mutex mtx;
 	int locked;
 	int number;
 	int monitors;
 };

 struct vme_bus_error {
 	struct list_head list;
 	unsigned long long address;
 	u32 attributes;
 };

 struct vme_callback {
 	void (*func)(int, int, void*);
 	void *priv_data;
 };

 struct vme_irq {
 	int count;
 	struct vme_callback callback[255];
 };

 /* Allow 16 characters for name (including null character) */
 #define VMENAMSIZ 16

 /* This structure stores all the information about one bridge
  * The structure should be dynamically allocated by the driver and one instance
  * of the structure should be present for each VME chip present in the system.
  *
  * Currently we assume that all chips are PCI-based
  */
 struct vme_bridge {
         char name[VMENAMSIZ];
 	int num;
 	struct list_head master_resources;
 	struct list_head slave_resources;
 	struct list_head dma_resources;
 	struct list_head lm_resources;

 	struct list_head vme_errors;	/* List for errors generated on VME */

 	/* Bridge Info - XXX Move to private structure? */
 	struct device *parent;	/* Generic device struct (pdev->dev for PCI) */
 	void * base;		/* Base Address of device registers */

 	struct device dev[VME_SLOTS_MAX];	/* Device registered with
 						 * device model on VME bus
 						 */

 	/* Interrupt callbacks */
 	struct vme_irq irq[7];

 	/* Slave Functions */
 	int (*slave_get) (struct vme_slave_resource *, int *,
 		unsigned long long *, unsigned long long *, dma_addr_t *,
 		vme_address_t *, vme_cycle_t *);
 	int (*slave_set) (struct vme_slave_resource *, int, unsigned long long,
 		unsigned long long, dma_addr_t, vme_address_t, vme_cycle_t);

 	/* Master Functions */
 	int (*master_get) (struct vme_master_resource *, int *,
 		unsigned long long *, unsigned long long *, vme_address_t *,
 		vme_cycle_t *, vme_width_t *);
 	int (*master_set) (struct vme_master_resource *, int,
 		unsigned long long, unsigned long long,  vme_address_t,
 		vme_cycle_t, vme_width_t);
 	ssize_t (*master_read) (struct vme_master_resource *, void *, size_t,
 		loff_t);
 	ssize_t (*master_write) (struct vme_master_resource *, void *, size_t,
 		loff_t);
 	unsigned int (*master_rmw) (struct vme_master_resource *, unsigned int,
 		unsigned int, unsigned int, loff_t);

 	/* DMA Functions */
 	int (*dma_list_add) (struct vme_dma_list *, struct vme_dma_attr *,
 		struct vme_dma_attr *, size_t);
 	int (*dma_list_exec) (struct vme_dma_list *);
 	int (*dma_list_empty) (struct vme_dma_list *);

 	/* Interrupt Functions */
 	int (*request_irq) (int, int, void (*cback)(int, int, void*), void *);
 	void (*free_irq) (int, int);
 	int (*generate_irq) (int, int);

 	/* Location monitor functions */
 	int (*lm_set) (struct vme_lm_resource *, unsigned long long,
 		vme_address_t, vme_cycle_t);
 	int (*lm_get) (struct vme_lm_resource *, unsigned long long *,
 		vme_address_t *, vme_cycle_t *);
 	int (*lm_attach) (struct vme_lm_resource *, int, void (*callback)(int));
 	int (*lm_detach) (struct vme_lm_resource *, int);

 	/* CR/CSR space functions */
 	int (*slot_get) (void);
 	/* Use standard master read and write functions to access CR/CSR */

 #if 0
 	int (*set_prefetch) (void);
 	int (*get_prefetch) (void);
 	int (*set_arbiter) (void);
 	int (*get_arbiter) (void);
 	int (*set_requestor) (void);
 	int (*get_requestor) (void);
 #endif
 };

 int vme_register_bridge (struct vme_bridge *);
 void vme_unregister_bridge (struct vme_bridge *);

 #endif /* _VME_BRIDGE_H_ */

 #if 0
 /*
  *  VMEbus GET INFO Arg Structure
  */
 struct vmeInfoCfg {
 	int vmeSlotNum;		/*  VME slot number of interest */
 	int boardResponded;	/* Board responded */
 	char sysConFlag;	/*  System controller flag */
 	int vmeControllerID;	/*  Vendor/device ID of VME bridge */
 	int vmeControllerRev;	/*  Revision of VME bridge */
 	char osName[8];		/*  Name of OS e.g. "Linux" */
 	int vmeSharedDataValid;	/*  Validity of data struct */
 	int vmeDriverRev;	/*  Revision of VME driver */
 	unsigned int vmeAddrHi[8];	/* Address on VME bus */
 	unsigned int vmeAddrLo[8];	/* Address on VME bus */
 	unsigned int vmeSize[8];	/* Size on VME bus */
 	unsigned int vmeAm[8];	/* Address modifier on VME bus */
 	int reserved;		/* For future use */
 };
 typedef struct vmeInfoCfg vmeInfoCfg_t;

 /*
  *  VMEbus Requester Arg Structure
  */
 struct vmeRequesterCfg {
 	int requestLevel;	/*  Requester Bus Request Level */
 	char fairMode;		/*  Requester Fairness Mode Indicator */
 	int releaseMode;	/*  Requester Bus Release Mode */
 	int timeonTimeoutTimer;	/*  Master Time-on Time-out Timer */
 	int timeoffTimeoutTimer;	/*  Master Time-off Time-out Timer */
 	int reserved;		/* For future use */
 };
 typedef struct vmeRequesterCfg vmeRequesterCfg_t;

 /*
  *  VMEbus Arbiter Arg Structure
  */
 struct vmeArbiterCfg {
 	vme_arbitration_t arbiterMode;	/*  Arbitration Scheduling Algorithm */
 	char arbiterTimeoutFlag;	/*  Arbiter Time-out Timer Indicator */
 	int globalTimeoutTimer;	/*  VMEbus Global Time-out Timer */
 	char noEarlyReleaseFlag;	/*  No Early Release on BBUSY */
 	int reserved;		/* For future use */
 };
 typedef struct vmeArbiterCfg vmeArbiterCfg_t;


 /*
  *  VMEbus RMW Configuration Data
  */
 struct vmeRmwCfg {
 	unsigned int targetAddrU;	/*  VME Address (Upper) to trigger RMW cycle */
 	unsigned int targetAddr;	/*  VME Address (Lower) to trigger RMW cycle */
 	vme_address_t addrSpace;	/*  VME Address Space */
 	int enableMask;		/*  Bit mask defining the bits of interest */
 	int compareData;	/*  Data to be compared with the data read */
 	int swapData;		/*  Data written to the VMEbus on success */
 	int maxAttempts;	/*  Maximum times to try */
 	int numAttempts;	/*  Number of attempts before success */
 	int reserved;		/* For future use */

 };
 typedef struct vmeRmwCfg vmeRmwCfg_t;

 /*
  *  VMEbus Location Monitor Arg Structure
  */
 struct vmeLmCfg {
 	unsigned int addrU;	/*  Location Monitor Address upper */
 	unsigned int addr;	/*  Location Monitor Address lower */
 	vme_address_t addrSpace;	/*  Address Space */
 	int userAccessType;	/*  User/Supervisor Access Type */
 	int dataAccessType;	/*  Data/Program Access Type */
 	int lmWait;		/* Time to wait for access */
 	int lmEvents;		/* Lm event mask */
 	int reserved;		/* For future use */
 };
 typedef struct vmeLmCfg vmeLmCfg_t;
 #endif
	#ifndef _VME_BRIDGE_H_
	#define _VME_BRIDGE_H_

	#define VME_CRCSR_BUF_SIZE (508*1024)
	#define VME_SLOTS_MAX 32
	/*
	* Resource structures
	*/
	struct vme_master_resource {
	struct list_head list;
	struct vme_bridge *parent;
	/*
	* We are likely to need to access the VME bus in interrupt context, so
	* protect master routines with a spinlock rather than a mutex.
	*/
	spinlock_t lock;
	int locked;
	int number;
	vme_address_t address_attr;
	vme_cycle_t cycle_attr;
	vme_width_t width_attr;
	struct resource pci_resource; /* XXX Rename to be bus agnostic */
	void *kern_base;
	};

	struct vme_slave_resource {
	struct list_head list;
	struct vme_bridge *parent;
	struct mutex mtx;
	int locked;
	int number;
	vme_address_t address_attr;
	vme_cycle_t cycle_attr;
	};

	struct vme_dma_pattern {
	u32 pattern;
	vme_pattern_t type;
	};

	struct vme_dma_pci {
	dma_addr_t address;
	};

	struct vme_dma_vme {
	unsigned long long address;
	vme_address_t aspace;
	vme_cycle_t cycle;
	vme_width_t dwidth;
	};

	struct vme_dma_list {
	struct list_head list;
	struct vme_dma_resource *parent;
	struct list_head entries;
	struct mutex mtx;
	};

	struct vme_dma_resource {
	struct list_head list;
	struct vme_bridge *parent;
	struct mutex mtx;
	int locked;
	int number;
	struct list_head pending;
	struct list_head running;
	};

	struct vme_lm_resource {
	struct list_head list;
	struct vme_bridge *parent;
	struct mutex mtx;
	int locked;
	int number;
	int monitors;
	};

	struct vme_bus_error {
	struct list_head list;
	unsigned long long address;
	u32 attributes;
	};

	struct vme_callback {
	void (func)(int, int, void);
	void *priv_data;
	};

	struct vme_irq {
	int count;
	struct vme_callback callback[255];
	};

	/* Allow 16 characters for name (including null character) */
	#define VMENAMSIZ 16

	/* This structure stores all the information about one bridge
	* The structure should be dynamically allocated by the driver and one instance
	* of the structure should be present for each VME chip present in the system.
	*
	* Currently we assume that all chips are PCI-based
	*/
	struct vme_bridge {
	char name[VMENAMSIZ];
	int num;
	struct list_head master_resources;
	struct list_head slave_resources;
	struct list_head dma_resources;
	struct list_head lm_resources;

	struct list_head vme_errors; /* List for errors generated on VME */

	/* Bridge Info - XXX Move to private structure? */
	struct device parent; / Generic device struct (pdev->dev for PCI) */
	void * base; /* Base Address of device registers */

	struct device dev[VME_SLOTS_MAX]; /* Device registered with
	* device model on VME bus
	*/

	/* Interrupt callbacks */
	struct vme_irq irq[7];

	/* Slave Functions */
	int (slave_get) (struct vme_slave_resource , int *,
	unsigned long long , unsigned long long , dma_addr_t *,
	vme_address_t , vme_cycle_t );
	int (slave_set) (struct vme_slave_resource , int, unsigned long long,
	unsigned long long, dma_addr_t, vme_address_t, vme_cycle_t);

	/* Master Functions */
	int (master_get) (struct vme_master_resource , int *,
	unsigned long long , unsigned long long , vme_address_t *,
	vme_cycle_t , vme_width_t );
	int (master_set) (struct vme_master_resource , int,
	unsigned long long, unsigned long long, vme_address_t,
	vme_cycle_t, vme_width_t);
	ssize_t (master_read) (struct vme_master_resource , void *, size_t,
	loff_t);
	ssize_t (master_write) (struct vme_master_resource , void *, size_t,
	loff_t);
	unsigned int (master_rmw) (struct vme_master_resource , unsigned int,
	unsigned int, unsigned int, loff_t);

	/* DMA Functions */
	int (dma_list_add) (struct vme_dma_list , struct vme_dma_attr *,
	struct vme_dma_attr *, size_t);
	int (dma_list_exec) (struct vme_dma_list );
	int (dma_list_empty) (struct vme_dma_list );

	/* Interrupt Functions */
	int (request_irq) (int, int, void (cback)(int, int, void), void );
	void (*free_irq) (int, int);
	int (*generate_irq) (int, int);

	/* Location monitor functions */
	int (lm_set) (struct vme_lm_resource , unsigned long long,
	vme_address_t, vme_cycle_t);
	int (lm_get) (struct vme_lm_resource , unsigned long long *,
	vme_address_t , vme_cycle_t );
	int (lm_attach) (struct vme_lm_resource , int, void (*callback)(int));
	int (lm_detach) (struct vme_lm_resource , int);

	/* CR/CSR space functions */
	int (*slot_get) (void);
	/* Use standard master read and write functions to access CR/CSR */

	#if 0
	int (*set_prefetch) (void);
	int (*get_prefetch) (void);
	int (*set_arbiter) (void);
	int (*get_arbiter) (void);
	int (*set_requestor) (void);
	int (*get_requestor) (void);
	#endif
	};

	int vme_register_bridge (struct vme_bridge *);
	void vme_unregister_bridge (struct vme_bridge *);

	#endif /* _VME_BRIDGE_H_ */

	#if 0
	/*
	* VMEbus GET INFO Arg Structure
	*/
	struct vmeInfoCfg {
	int vmeSlotNum; /* VME slot number of interest */
	int boardResponded; /* Board responded */
	char sysConFlag; /* System controller flag */
	int vmeControllerID; /* Vendor/device ID of VME bridge */
	int vmeControllerRev; /* Revision of VME bridge */
	char osName[8]; /* Name of OS e.g. "Linux" */
	int vmeSharedDataValid; /* Validity of data struct */
	int vmeDriverRev; /* Revision of VME driver */
	unsigned int vmeAddrHi[8]; /* Address on VME bus */
	unsigned int vmeAddrLo[8]; /* Address on VME bus */
	unsigned int vmeSize[8]; /* Size on VME bus */
	unsigned int vmeAm[8]; /* Address modifier on VME bus */
	int reserved; /* For future use */
	};
	typedef struct vmeInfoCfg vmeInfoCfg_t;

	/*
	* VMEbus Requester Arg Structure
	*/
	struct vmeRequesterCfg {
	int requestLevel; /* Requester Bus Request Level */
	char fairMode; /* Requester Fairness Mode Indicator */
	int releaseMode; /* Requester Bus Release Mode */
	int timeonTimeoutTimer; /* Master Time-on Time-out Timer */
	int timeoffTimeoutTimer; /* Master Time-off Time-out Timer */
	int reserved; /* For future use */
	};
	typedef struct vmeRequesterCfg vmeRequesterCfg_t;

	/*
	* VMEbus Arbiter Arg Structure
	*/
	struct vmeArbiterCfg {
	vme_arbitration_t arbiterMode; /* Arbitration Scheduling Algorithm */
	char arbiterTimeoutFlag; /* Arbiter Time-out Timer Indicator */
	int globalTimeoutTimer; /* VMEbus Global Time-out Timer */
	char noEarlyReleaseFlag; /* No Early Release on BBUSY */
	int reserved; /* For future use */
	};
	typedef struct vmeArbiterCfg vmeArbiterCfg_t;


	/*
	* VMEbus RMW Configuration Data
	*/
	struct vmeRmwCfg {
	unsigned int targetAddrU; /* VME Address (Upper) to trigger RMW cycle */
	unsigned int targetAddr; /* VME Address (Lower) to trigger RMW cycle */
	vme_address_t addrSpace; /* VME Address Space */
	int enableMask; /* Bit mask defining the bits of interest */
	int compareData; /* Data to be compared with the data read */
	int swapData; /* Data written to the VMEbus on success */
	int maxAttempts; /* Maximum times to try */
	int numAttempts; /* Number of attempts before success */
	int reserved; /* For future use */

	};
	typedef struct vmeRmwCfg vmeRmwCfg_t;

	/*
	* VMEbus Location Monitor Arg Structure
	*/
	struct vmeLmCfg {
	unsigned int addrU; /* Location Monitor Address upper */
	unsigned int addr; /* Location Monitor Address lower */
	vme_address_t addrSpace; /* Address Space */
	int userAccessType; /* User/Supervisor Access Type */
	int dataAccessType; /* Data/Program Access Type */
	int lmWait; /* Time to wait for access */
	int lmEvents; /* Lm event mask */
	int reserved; /* For future use */
	};
	typedef struct vmeLmCfg vmeLmCfg_t;
	#endif