linux_dsm_epyc7002/drivers/misc/hpilo.h
David Altobelli 9f70484121 hpilo: add interrupt handler
Add interrupt handler to hpilo.  This is enablement for poll handler,
and it also simplifies the logic for handling an iLO reset, because now
only the interrupt handler needs to look for reset, the file system
interfaces only need to return failure when a reset has happened.

Signed-off-by: David Altobelli <david.altobelli@hp.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
2009-09-15 09:50:48 -07:00

202 lines
5.1 KiB
C

/*
* linux/drivers/char/hpilo.h
*
* Copyright (C) 2008 Hewlett-Packard Development Company, L.P.
* David Altobelli <david.altobelli@hp.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#ifndef __HPILO_H
#define __HPILO_H
#define ILO_NAME "hpilo"
/* max number of open channel control blocks per device, hw limited to 32 */
#define MAX_CCB 8
/* max number of supported devices */
#define MAX_ILO_DEV 1
/* max number of files */
#define MAX_OPEN (MAX_CCB * MAX_ILO_DEV)
/* total wait time in usec */
#define MAX_WAIT_TIME 10000
/* per spin wait time in usec */
#define WAIT_TIME 10
/* spin counter for open/close delay */
#define MAX_WAIT (MAX_WAIT_TIME / WAIT_TIME)
/*
* Per device, used to track global memory allocations.
*/
struct ilo_hwinfo {
/* mmio registers on device */
char __iomem *mmio_vaddr;
/* doorbell registers on device */
char __iomem *db_vaddr;
/* shared memory on device used for channel control blocks */
char __iomem *ram_vaddr;
/* files corresponding to this device */
struct ccb_data *ccb_alloc[MAX_CCB];
struct pci_dev *ilo_dev;
spinlock_t alloc_lock;
spinlock_t fifo_lock;
spinlock_t open_lock;
struct cdev cdev;
};
/* offset from mmio_vaddr for enabling doorbell interrupts */
#define DB_IRQ 0xB2
/* offset from mmio_vaddr for outbound communications */
#define DB_OUT 0xD4
/* DB_OUT reset bit */
#define DB_RESET 26
/*
* Channel control block. Used to manage hardware queues.
* The format must match hw's version. The hw ccb is 128 bytes,
* but the context area shouldn't be touched by the driver.
*/
#define ILOSW_CCB_SZ 64
#define ILOHW_CCB_SZ 128
struct ccb {
union {
char *send_fifobar;
u64 padding1;
} ccb_u1;
union {
char *send_desc;
u64 padding2;
} ccb_u2;
u64 send_ctrl;
union {
char *recv_fifobar;
u64 padding3;
} ccb_u3;
union {
char *recv_desc;
u64 padding4;
} ccb_u4;
u64 recv_ctrl;
union {
char __iomem *db_base;
u64 padding5;
} ccb_u5;
u64 channel;
/* unused context area (64 bytes) */
};
/* ccb queue parameters */
#define SENDQ 1
#define RECVQ 2
#define NR_QENTRY 4
#define L2_QENTRY_SZ 12
/* ccb ctrl bitfields */
#define CTRL_BITPOS_L2SZ 0
#define CTRL_BITPOS_FIFOINDEXMASK 4
#define CTRL_BITPOS_DESCLIMIT 18
#define CTRL_BITPOS_A 30
#define CTRL_BITPOS_G 31
/* ccb doorbell macros */
#define L2_DB_SIZE 14
#define ONE_DB_SIZE (1 << L2_DB_SIZE)
/*
* Per fd structure used to track the ccb allocated to that dev file.
*/
struct ccb_data {
/* software version of ccb, using virtual addrs */
struct ccb driver_ccb;
/* hardware version of ccb, using physical addrs */
struct ccb ilo_ccb;
/* hardware ccb is written to this shared mapped device memory */
struct ccb __iomem *mapped_ccb;
/* dma'able memory used for send/recv queues */
void *dma_va;
dma_addr_t dma_pa;
size_t dma_size;
/* pointer to hardware device info */
struct ilo_hwinfo *ilo_hw;
/* queue for this ccb to wait for recv data */
wait_queue_head_t ccb_waitq;
/* usage count, to allow for shared ccb's */
int ccb_cnt;
/* open wanted exclusive access to this ccb */
int ccb_excl;
};
/*
* FIFO queue structure, shared with hw.
*/
#define ILO_START_ALIGN 4096
#define ILO_CACHE_SZ 128
struct fifo {
u64 nrents; /* user requested number of fifo entries */
u64 imask; /* mask to extract valid fifo index */
u64 merge; /* O/C bits to merge in during enqueue operation */
u64 reset; /* set to non-zero when the target device resets */
u8 pad_0[ILO_CACHE_SZ - (sizeof(u64) * 4)];
u64 head;
u8 pad_1[ILO_CACHE_SZ - (sizeof(u64))];
u64 tail;
u8 pad_2[ILO_CACHE_SZ - (sizeof(u64))];
u64 fifobar[1];
};
/* convert between struct fifo, and the fifobar, which is saved in the ccb */
#define FIFOHANDLESIZE (sizeof(struct fifo) - sizeof(u64))
#define FIFOBARTOHANDLE(_fifo) \
((struct fifo *)(((char *)(_fifo)) - FIFOHANDLESIZE))
/* the number of qwords to consume from the entry descriptor */
#define ENTRY_BITPOS_QWORDS 0
/* descriptor index number (within a specified queue) */
#define ENTRY_BITPOS_DESCRIPTOR 10
/* state bit, fifo entry consumed by consumer */
#define ENTRY_BITPOS_C 22
/* state bit, fifo entry is occupied */
#define ENTRY_BITPOS_O 23
#define ENTRY_BITS_QWORDS 10
#define ENTRY_BITS_DESCRIPTOR 12
#define ENTRY_BITS_C 1
#define ENTRY_BITS_O 1
#define ENTRY_BITS_TOTAL \
(ENTRY_BITS_C + ENTRY_BITS_O + \
ENTRY_BITS_QWORDS + ENTRY_BITS_DESCRIPTOR)
/* extract various entry fields */
#define ENTRY_MASK ((1 << ENTRY_BITS_TOTAL) - 1)
#define ENTRY_MASK_C (((1 << ENTRY_BITS_C) - 1) << ENTRY_BITPOS_C)
#define ENTRY_MASK_O (((1 << ENTRY_BITS_O) - 1) << ENTRY_BITPOS_O)
#define ENTRY_MASK_QWORDS \
(((1 << ENTRY_BITS_QWORDS) - 1) << ENTRY_BITPOS_QWORDS)
#define ENTRY_MASK_DESCRIPTOR \
(((1 << ENTRY_BITS_DESCRIPTOR) - 1) << ENTRY_BITPOS_DESCRIPTOR)
#define ENTRY_MASK_NOSTATE (ENTRY_MASK >> (ENTRY_BITS_C + ENTRY_BITS_O))
#endif /* __HPILO_H */