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/*
 * SPU file system
 *
 * (C) Copyright IBM Deutschland Entwicklung GmbH 2005
 *
 * Author: Arnd Bergmann <arndb@de.ibm.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2, or (at your option)
 * any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 */
#ifndef SPUFS_H
#define SPUFS_H

#include <linux/kref.h>
#include <linux/mutex.h>
#include <linux/spinlock.h>
#include <linux/fs.h>
#include <linux/cpumask.h>

#include <asm/spu.h>
#include <asm/spu_csa.h>
#include <asm/spu_info.h>

/* The magic number for our file system */
enum {
	SPUFS_MAGIC = 0x23c9b64e,
};

struct spu_context_ops;
struct spu_gang;

enum {
	SPU_SCHED_WAS_ACTIVE,	/* was active upon spu_acquire_saved()  */
};

struct spu_context {
	struct spu *spu;		  /* pointer to a physical SPU */
	struct spu_state csa;		  /* SPU context save area. */
	spinlock_t mmio_lock;		  /* protects mmio access */
	struct address_space *local_store; /* local store mapping.  */
	struct address_space *mfc;	   /* 'mfc' area mappings. */
	struct address_space *cntl;	   /* 'control' area mappings. */
	struct address_space *signal1;	   /* 'signal1' area mappings. */
	struct address_space *signal2;	   /* 'signal2' area mappings. */
	struct address_space *mss;	   /* 'mss' area mappings. */
	struct address_space *psmap;	   /* 'psmap' area mappings. */
	struct mutex mapping_lock;
	u64 object_id;		   /* user space pointer for oprofile */

	enum { SPU_STATE_RUNNABLE, SPU_STATE_SAVED } state;
	struct mutex state_mutex;
	struct mutex run_mutex;

	struct mm_struct *owner;

	struct kref kref;
	wait_queue_head_t ibox_wq;
	wait_queue_head_t wbox_wq;
	wait_queue_head_t stop_wq;
	wait_queue_head_t mfc_wq;
	struct fasync_struct *ibox_fasync;
	struct fasync_struct *wbox_fasync;
	struct fasync_struct *mfc_fasync;
	u32 tagwait;
	struct spu_context_ops *ops;
	struct work_struct reap_work;
	unsigned long flags;
	unsigned long event_return;

	struct list_head gang_list;
	struct spu_gang *gang;

	/* owner thread */
	pid_t tid;

	/* scheduler fields */
	struct list_head rq;
	unsigned int time_slice;
	unsigned long sched_flags;
	cpumask_t cpus_allowed;
	int policy;
	int prio;

	/* statistics */
	struct {
		/* updates protected by ctx->state_mutex */
		enum spu_utilization_state util_state;
		unsigned long long tstamp;	/* time of last state switch */
		unsigned long long times[SPU_UTIL_MAX];
		unsigned long long vol_ctx_switch;
		unsigned long long invol_ctx_switch;
		unsigned long long min_flt;
		unsigned long long maj_flt;
		unsigned long long hash_flt;
		unsigned long long slb_flt;
		unsigned long long slb_flt_base; /* # at last ctx switch */
		unsigned long long class2_intr;
		unsigned long long class2_intr_base; /* # at last ctx switch */
		unsigned long long libassist;
	} stats;
};

struct spu_gang {
	struct list_head list;
	struct mutex mutex;
	struct kref kref;
	int contexts;
};

struct mfc_dma_command {
	int32_t pad;	/* reserved */
	uint32_t lsa;	/* local storage address */
	uint64_t ea;	/* effective address */
	uint16_t size;	/* transfer size */
	uint16_t tag;	/* command tag */
	uint16_t class;	/* class ID */
	uint16_t cmd;	/* command opcode */
};


/* SPU context query/set operations. */
struct spu_context_ops {
	int (*mbox_read) (struct spu_context * ctx, u32 * data);
	 u32(*mbox_stat_read) (struct spu_context * ctx);
	unsigned int (*mbox_stat_poll)(struct spu_context *ctx,
					unsigned int events);
	int (*ibox_read) (struct spu_context * ctx, u32 * data);
	int (*wbox_write) (struct spu_context * ctx, u32 data);
	 u32(*signal1_read) (struct spu_context * ctx);
	void (*signal1_write) (struct spu_context * ctx, u32 data);
	 u32(*signal2_read) (struct spu_context * ctx);
	void (*signal2_write) (struct spu_context * ctx, u32 data);
	void (*signal1_type_set) (struct spu_context * ctx, u64 val);
	 u64(*signal1_type_get) (struct spu_context * ctx);
	void (*signal2_type_set) (struct spu_context * ctx, u64 val);
	 u64(*signal2_type_get) (struct spu_context * ctx);
	 u32(*npc_read) (struct spu_context * ctx);
	void (*npc_write) (struct spu_context * ctx, u32 data);
	 u32(*status_read) (struct spu_context * ctx);
	char*(*get_ls) (struct spu_context * ctx);
	 u32 (*runcntl_read) (struct spu_context * ctx);
	void (*runcntl_write) (struct spu_context * ctx, u32 data);
	void (*master_start) (struct spu_context * ctx);
	void (*master_stop) (struct spu_context * ctx);
	int (*set_mfc_query)(struct spu_context * ctx, u32 mask, u32 mode);
	u32 (*read_mfc_tagstatus)(struct spu_context * ctx);
	u32 (*get_mfc_free_elements)(struct spu_context *ctx);
	int (*send_mfc_command)(struct spu_context * ctx,
				struct mfc_dma_command * cmd);
	void (*dma_info_read) (struct spu_context * ctx,
			       struct spu_dma_info * info);
	void (*proxydma_info_read) (struct spu_context * ctx,
				    struct spu_proxydma_info * info);
	void (*restart_dma)(struct spu_context *ctx);
};

extern struct spu_context_ops spu_hw_ops;
extern struct spu_context_ops spu_backing_ops;

struct spufs_inode_info {
	struct spu_context *i_ctx;
	struct spu_gang *i_gang;
	struct inode vfs_inode;
	int i_openers;
};
#define SPUFS_I(inode) \
	container_of(inode, struct spufs_inode_info, vfs_inode)

extern struct tree_descr spufs_dir_contents[];
extern struct tree_descr spufs_dir_nosched_contents[];

/* system call implementation */
long spufs_run_spu(struct file *file,
		   struct spu_context *ctx, u32 *npc, u32 *status);
long spufs_create(struct nameidata *nd,
			 unsigned int flags, mode_t mode);
extern const struct file_operations spufs_context_fops;

/* gang management */
struct spu_gang *alloc_spu_gang(void);
struct spu_gang *get_spu_gang(struct spu_gang *gang);
int put_spu_gang(struct spu_gang *gang);
void spu_gang_remove_ctx(struct spu_gang *gang, struct spu_context *ctx);
void spu_gang_add_ctx(struct spu_gang *gang, struct spu_context *ctx);

/* fault handling */
int spufs_handle_class1(struct spu_context *ctx);

/* context management */
extern atomic_t nr_spu_contexts;
static inline void spu_acquire(struct spu_context *ctx)
{
	mutex_lock(&ctx->state_mutex);
}

static inline void spu_release(struct spu_context *ctx)
{
	mutex_unlock(&ctx->state_mutex);
}

struct spu_context * alloc_spu_context(struct spu_gang *gang);
void destroy_spu_context(struct kref *kref);
struct spu_context * get_spu_context(struct spu_context *ctx);
int put_spu_context(struct spu_context *ctx);
void spu_unmap_mappings(struct spu_context *ctx);

void spu_forget(struct spu_context *ctx);
int spu_acquire_runnable(struct spu_context *ctx, unsigned long flags);
void spu_acquire_saved(struct spu_context *ctx);
void spu_release_saved(struct spu_context *ctx);

int spu_activate(struct spu_context *ctx, unsigned long flags);
void spu_deactivate(struct spu_context *ctx);
void spu_yield(struct spu_context *ctx);
void spu_set_timeslice(struct spu_context *ctx);
void spu_update_sched_info(struct spu_context *ctx);
void __spu_update_sched_info(struct spu_context *ctx);
int __init spu_sched_init(void);
void spu_sched_exit(void);

extern char *isolated_loader;

/*
 * spufs_wait
 *	Same as wait_event_interruptible(), except that here
 *	we need to call spu_release(ctx) before sleeping, and
 *	then spu_acquire(ctx) when awoken.
 */

#define spufs_wait(wq, condition)					\
({									\
	int __ret = 0;							\
	DEFINE_WAIT(__wait);						\
	for (;;) {							\
		prepare_to_wait(&(wq), &__wait, TASK_INTERRUPTIBLE);	\
		if (condition)						\
			break;						\
		if (signal_pending(current)) {				\
			__ret = -ERESTARTSYS;				\
			break;						\
		}							\
		spu_release(ctx);					\
		schedule();						\
		spu_acquire(ctx);					\
	}								\
	finish_wait(&(wq), &__wait);					\
	__ret;								\
})

size_t spu_wbox_write(struct spu_context *ctx, u32 data);
size_t spu_ibox_read(struct spu_context *ctx, u32 *data);

/* irq callback funcs. */
void spufs_ibox_callback(struct spu *spu);
void spufs_wbox_callback(struct spu *spu);
void spufs_stop_callback(struct spu *spu);
void spufs_mfc_callback(struct spu *spu);
void spufs_dma_callback(struct spu *spu, int type);

extern struct spu_coredump_calls spufs_coredump_calls;
struct spufs_coredump_reader {
	char *name;
	ssize_t (*read)(struct spu_context *ctx,
			char __user *buffer, size_t size, loff_t *pos);
	u64 (*get)(void *data);
	size_t size;
};
extern struct spufs_coredump_reader spufs_coredump_read[];
extern int spufs_coredump_num_notes;

/*
 * This function is a little bit too large for an inline, but
 * as fault.c is built into the kernel we can't move it out of
 * line.
 */
static inline void spuctx_switch_state(struct spu_context *ctx,
		enum spu_utilization_state new_state)
{
	unsigned long long curtime;
	signed long long delta;
	struct timespec ts;
	struct spu *spu;
	enum spu_utilization_state old_state;

	ktime_get_ts(&ts);
	curtime = timespec_to_ns(&ts);
	delta = curtime - ctx->stats.tstamp;

	WARN_ON(!mutex_is_locked(&ctx->state_mutex));
	WARN_ON(delta < 0);

	spu = ctx->spu;
	old_state = ctx->stats.util_state;
	ctx->stats.util_state = new_state;
	ctx->stats.tstamp = curtime;

	/*
	 * Update the physical SPU utilization statistics.
	 */
	if (spu) {
		ctx->stats.times[old_state] += delta;
		spu->stats.times[old_state] += delta;
		spu->stats.util_state = new_state;
		spu->stats.tstamp = curtime;
	}
}

#endif