eeh.h 11.4 KB
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/*
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 * Copyright (C) 2001  Dave Engebretsen & Todd Inglett IBM Corporation.
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 * Copyright 2001-2012 IBM Corporation.
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 *
 * 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 of the License, or
 * (at your option) any later version.
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 *
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 * 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.
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 *
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 * 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., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
 */

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#ifndef _POWERPC_EEH_H
#define _POWERPC_EEH_H
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#ifdef __KERNEL__
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#include <linux/init.h>
#include <linux/list.h>
#include <linux/string.h>
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#include <linux/time.h>
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struct pci_dev;
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struct pci_bus;
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struct device_node;

#ifdef CONFIG_EEH

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/*
 * The struct is used to trace PE related EEH functionality.
 * In theory, there will have one instance of the struct to
 * be created against particular PE. In nature, PEs corelate
 * to each other. the struct has to reflect that hierarchy in
 * order to easily pick up those affected PEs when one particular
 * PE has EEH errors.
 *
 * Also, one particular PE might be composed of PCI device, PCI
 * bus and its subordinate components. The struct also need ship
 * the information. Further more, one particular PE is only meaingful
 * in the corresponding PHB. Therefore, the root PEs should be created
 * against existing PHBs in on-to-one fashion.
 */
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#define EEH_PE_INVALID	(1 << 0)	/* Invalid   */
#define EEH_PE_PHB	(1 << 1)	/* PHB PE    */
#define EEH_PE_DEVICE 	(1 << 2)	/* Device PE */
#define EEH_PE_BUS	(1 << 3)	/* Bus PE    */
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#define EEH_PE_ISOLATED		(1 << 0)	/* Isolated PE		*/
#define EEH_PE_RECOVERING	(1 << 1)	/* Recovering PE	*/

struct eeh_pe {
	int type;			/* PE type: PHB/Bus/Device	*/
	int state;			/* PE EEH dependent mode	*/
	int config_addr;		/* Traditional PCI address	*/
	int addr;			/* PE configuration address	*/
	struct pci_controller *phb;	/* Associated PHB		*/
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	struct pci_bus *bus;		/* Top PCI bus for bus PE	*/
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	int check_count;		/* Times of ignored error	*/
	int freeze_count;		/* Times of froze up		*/
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	struct timeval tstamp;		/* Time on first-time freeze	*/
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	int false_positives;		/* Times of reported #ff's	*/
	struct eeh_pe *parent;		/* Parent PE			*/
	struct list_head child_list;	/* Link PE to the child list	*/
	struct list_head edevs;		/* Link list of EEH devices	*/
	struct list_head child;		/* Child PEs			*/
};

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#define eeh_pe_for_each_dev(pe, edev) \
		list_for_each_entry(edev, &pe->edevs, list)

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/*
 * The struct is used to trace EEH state for the associated
 * PCI device node or PCI device. In future, it might
 * represent PE as well so that the EEH device to form
 * another tree except the currently existing tree of PCI
 * buses and PCI devices
 */
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#define EEH_DEV_IRQ_DISABLED	(1<<0)	/* Interrupt disabled		*/
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struct eeh_dev {
	int mode;			/* EEH mode			*/
	int class_code;			/* Class code of the device	*/
	int config_addr;		/* Config address		*/
	int pe_config_addr;		/* PE config address		*/
	u32 config_space[16];		/* Saved PCI config space	*/
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	struct eeh_pe *pe;		/* Associated PE		*/
	struct list_head list;		/* Form link list in the PE	*/
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	struct pci_controller *phb;	/* Associated PHB		*/
	struct device_node *dn;		/* Associated device node	*/
	struct pci_dev *pdev;		/* Associated PCI device	*/
};

static inline struct device_node *eeh_dev_to_of_node(struct eeh_dev *edev)
{
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	return edev ? edev->dn : NULL;
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}

static inline struct pci_dev *eeh_dev_to_pci_dev(struct eeh_dev *edev)
{
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	return edev ? edev->pdev : NULL;
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}

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/*
 * The struct is used to trace the registered EEH operation
 * callback functions. Actually, those operation callback
 * functions are heavily platform dependent. That means the
 * platform should register its own EEH operation callback
 * functions before any EEH further operations.
 */
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#define EEH_OPT_DISABLE		0	/* EEH disable	*/
#define EEH_OPT_ENABLE		1	/* EEH enable	*/
#define EEH_OPT_THAW_MMIO	2	/* MMIO enable	*/
#define EEH_OPT_THAW_DMA	3	/* DMA enable	*/
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#define EEH_STATE_UNAVAILABLE	(1 << 0)	/* State unavailable	*/
#define EEH_STATE_NOT_SUPPORT	(1 << 1)	/* EEH not supported	*/
#define EEH_STATE_RESET_ACTIVE	(1 << 2)	/* Active reset		*/
#define EEH_STATE_MMIO_ACTIVE	(1 << 3)	/* Active MMIO		*/
#define EEH_STATE_DMA_ACTIVE	(1 << 4)	/* Active DMA		*/
#define EEH_STATE_MMIO_ENABLED	(1 << 5)	/* MMIO enabled		*/
#define EEH_STATE_DMA_ENABLED	(1 << 6)	/* DMA enabled		*/
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#define EEH_RESET_DEACTIVATE	0	/* Deactivate the PE reset	*/
#define EEH_RESET_HOT		1	/* Hot reset			*/
#define EEH_RESET_FUNDAMENTAL	3	/* Fundamental reset		*/
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#define EEH_LOG_TEMP		1	/* EEH temporary error log	*/
#define EEH_LOG_PERM		2	/* EEH permanent error log	*/
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struct eeh_ops {
	char *name;
	int (*init)(void);
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	int (*post_init)(void);
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	void* (*of_probe)(struct device_node *dn, void *flag);
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	int (*dev_probe)(struct pci_dev *dev, void *flag);
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	int (*set_option)(struct eeh_pe *pe, int option);
	int (*get_pe_addr)(struct eeh_pe *pe);
	int (*get_state)(struct eeh_pe *pe, int *state);
	int (*reset)(struct eeh_pe *pe, int option);
	int (*wait_state)(struct eeh_pe *pe, int max_wait);
	int (*get_log)(struct eeh_pe *pe, int severity, char *drv_log, unsigned long len);
	int (*configure_bridge)(struct eeh_pe *pe);
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	int (*read_config)(struct device_node *dn, int where, int size, u32 *val);
	int (*write_config)(struct device_node *dn, int where, int size, u32 val);
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};

extern struct eeh_ops *eeh_ops;
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extern int eeh_subsystem_enabled;
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extern struct mutex eeh_mutex;
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extern int eeh_probe_mode;

#define EEH_PROBE_MODE_DEV	(1<<0)	/* From PCI device	*/
#define EEH_PROBE_MODE_DEVTREE	(1<<1)	/* From device tree	*/

static inline void eeh_probe_mode_set(int flag)
{
	eeh_probe_mode = flag;
}

static inline int eeh_probe_mode_devtree(void)
{
	return (eeh_probe_mode == EEH_PROBE_MODE_DEVTREE);
}

static inline int eeh_probe_mode_dev(void)
{
	return (eeh_probe_mode == EEH_PROBE_MODE_DEV);
}
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static inline void eeh_lock(void)
{
	mutex_lock(&eeh_mutex);
}

static inline void eeh_unlock(void)
{
	mutex_unlock(&eeh_mutex);
}
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/*
 * Max number of EEH freezes allowed before we consider the device
 * to be permanently disabled.
 */
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#define EEH_MAX_ALLOWED_FREEZES 5

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typedef void *(*eeh_traverse_func)(void *data, void *flag);
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int eeh_phb_pe_create(struct pci_controller *phb);
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struct eeh_pe *eeh_phb_pe_get(struct pci_controller *phb);
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struct eeh_pe *eeh_pe_get(struct eeh_dev *edev);
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int eeh_add_to_parent_pe(struct eeh_dev *edev);
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int eeh_rmv_from_parent_pe(struct eeh_dev *edev, int purge_pe);
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void eeh_pe_update_time_stamp(struct eeh_pe *pe);
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void *eeh_pe_dev_traverse(struct eeh_pe *root,
		eeh_traverse_func fn, void *flag);
void eeh_pe_restore_bars(struct eeh_pe *pe);
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struct pci_bus *eeh_pe_bus_get(struct eeh_pe *pe);
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void *eeh_dev_init(struct device_node *dn, void *data);
void eeh_dev_phb_init_dynamic(struct pci_controller *phb);
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int __init eeh_init(void);
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int __init eeh_ops_register(struct eeh_ops *ops);
int __exit eeh_ops_unregister(const char *name);
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unsigned long eeh_check_failure(const volatile void __iomem *token,
				unsigned long val);
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int eeh_dev_check_failure(struct eeh_dev *edev);
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void __init eeh_addr_cache_build(void);
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void eeh_add_device_tree_early(struct device_node *);
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void eeh_add_device_tree_late(struct pci_bus *);
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void eeh_add_sysfs_files(struct pci_bus *);
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void eeh_remove_bus_device(struct pci_dev *, int);
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/**
 * EEH_POSSIBLE_ERROR() -- test for possible MMIO failure.
 *
 * If this macro yields TRUE, the caller relays to eeh_check_failure()
 * which does further tests out of line.
 */
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#define EEH_POSSIBLE_ERROR(val, type)	((val) == (type)~0 && eeh_subsystem_enabled)
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/*
 * Reads from a device which has been isolated by EEH will return
 * all 1s.  This macro gives an all-1s value of the given size (in
 * bytes: 1, 2, or 4) for comparing with the result of a read.
 */
#define EEH_IO_ERROR_VALUE(size)	(~0U >> ((4 - (size)) * 8))

#else /* !CONFIG_EEH */
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static inline int eeh_init(void)
{
	return 0;
}

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static inline void *eeh_dev_init(struct device_node *dn, void *data)
{
	return NULL;
}

static inline void eeh_dev_phb_init_dynamic(struct pci_controller *phb) { }

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static inline unsigned long eeh_check_failure(const volatile void __iomem *token, unsigned long val)
{
	return val;
}

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#define eeh_dev_check_failure(x) (0)
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static inline void eeh_addr_cache_build(void) { }
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static inline void eeh_add_device_tree_early(struct device_node *dn) { }

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static inline void eeh_add_device_tree_late(struct pci_bus *bus) { }

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static inline void eeh_add_sysfs_files(struct pci_bus *bus) { }

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static inline void eeh_remove_bus_device(struct pci_dev *dev, int purge_pe) { }
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static inline void eeh_lock(void) { }
static inline void eeh_unlock(void) { }

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#define EEH_POSSIBLE_ERROR(val, type) (0)
#define EEH_IO_ERROR_VALUE(size) (-1UL)
#endif /* CONFIG_EEH */

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#ifdef CONFIG_PPC64
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/*
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 * MMIO read/write operations with EEH support.
 */
static inline u8 eeh_readb(const volatile void __iomem *addr)
{
	u8 val = in_8(addr);
	if (EEH_POSSIBLE_ERROR(val, u8))
		return eeh_check_failure(addr, val);
	return val;
}

static inline u16 eeh_readw(const volatile void __iomem *addr)
{
	u16 val = in_le16(addr);
	if (EEH_POSSIBLE_ERROR(val, u16))
		return eeh_check_failure(addr, val);
	return val;
}

static inline u32 eeh_readl(const volatile void __iomem *addr)
{
	u32 val = in_le32(addr);
	if (EEH_POSSIBLE_ERROR(val, u32))
		return eeh_check_failure(addr, val);
	return val;
}
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static inline u64 eeh_readq(const volatile void __iomem *addr)
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{
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	u64 val = in_le64(addr);
	if (EEH_POSSIBLE_ERROR(val, u64))
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		return eeh_check_failure(addr, val);
	return val;
}

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static inline u16 eeh_readw_be(const volatile void __iomem *addr)
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{
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	u16 val = in_be16(addr);
	if (EEH_POSSIBLE_ERROR(val, u16))
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		return eeh_check_failure(addr, val);
	return val;
}
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static inline u32 eeh_readl_be(const volatile void __iomem *addr)
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{
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	u32 val = in_be32(addr);
	if (EEH_POSSIBLE_ERROR(val, u32))
		return eeh_check_failure(addr, val);
	return val;
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}
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static inline u64 eeh_readq_be(const volatile void __iomem *addr)
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{
	u64 val = in_be64(addr);
	if (EEH_POSSIBLE_ERROR(val, u64))
		return eeh_check_failure(addr, val);
	return val;
}

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static inline void eeh_memcpy_fromio(void *dest, const
				     volatile void __iomem *src,
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				     unsigned long n)
{
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	_memcpy_fromio(dest, src, n);
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	/* Look for ffff's here at dest[n].  Assume that at least 4 bytes
	 * were copied. Check all four bytes.
	 */
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	if (n >= 4 && EEH_POSSIBLE_ERROR(*((u32 *)(dest + n - 4)), u32))
		eeh_check_failure(src, *((u32 *)(dest + n - 4)));
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}

/* in-string eeh macros */
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static inline void eeh_readsb(const volatile void __iomem *addr, void * buf,
			      int ns)
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{
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	_insb(addr, buf, ns);
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	if (EEH_POSSIBLE_ERROR((*(((u8*)buf)+ns-1)), u8))
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		eeh_check_failure(addr, *(u8*)buf);
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}

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static inline void eeh_readsw(const volatile void __iomem *addr, void * buf,
			      int ns)
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{
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	_insw(addr, buf, ns);
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	if (EEH_POSSIBLE_ERROR((*(((u16*)buf)+ns-1)), u16))
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		eeh_check_failure(addr, *(u16*)buf);
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}

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static inline void eeh_readsl(const volatile void __iomem *addr, void * buf,
			      int nl)
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{
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	_insl(addr, buf, nl);
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	if (EEH_POSSIBLE_ERROR((*(((u32*)buf)+nl-1)), u32))
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		eeh_check_failure(addr, *(u32*)buf);
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}

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#endif /* CONFIG_PPC64 */
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#endif /* __KERNEL__ */
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#endif /* _POWERPC_EEH_H */