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linux-next/drivers/scsi/aic94xx/aic94xx_reg.h
James Bottomley 2908d778ab [SCSI] aic94xx: new driver
This is the end point of the separate aic94xx driver based on the
original driver and transport class from Luben Tuikov
<ltuikov@yahoo.com>

The log of the separate development is:

Alexis Bruemmer:
  o aic94xx: fix hotplug/unplug for expanderless systems
  o aic94xx: disable split completion timer/setting by default
  o aic94xx: wide port off expander support
  o aic94xx: remove various inline functions
  o aic94xx: use bitops
  o aic94xx: remove queue comment
  o aic94xx: remove sas_common.c
  o aic94xx: sas remove depot's
  o aic94xx: use available list_for_each_entry_safe_reverse()
  o aic94xx: sas header file merge

James Bottomley:
  o aic94xx: fix TF_TMF_NO_CTX processing
  o aic94xx: convert to request_firmware interface
  o aic94xx: fix hotplug/unplug
  o aic94xx: add link error counts to the expander phys
  o aic94xx: add transport class phy reset capability
  o aic94xx: remove local_attached flag
  o Remove README
  o Fixup Makefile variable for libsas rename
  o Rename sas->libsas
  o aic94xx: correct return code for sas_discover_event
  o aic94xx: use parent backlink port
  o aic94xx: remove channel abstraction
  o aic94xx: fix routing algorithms
  o aic94xx: add backlink port
  o aic94xx: fix cascaded expander properties
  o aic94xx: fix sleep under lock
  o aic94xx: fix panic on module removal in complex topology
  o aic94xx: make use of the new sas_port
  o rename sas_port to asd_sas_port
  o Fix for eh_strategy_handler move
  o aic94xx: move entirely over to correct transport class formulation
  o remove last vestages of sas_rphy_alloc()
  o update for eh_timed_out move
  o Preliminary expander support for aic94xx
  o sas: remove event thread
  o minor warning cleanups
  o remove last vestiges of id mapping arrays
  o Further updates
  o Convert aic94xx over entirely to the transport class end device and
  o update aic94xx/sas to use the new sas transport class end device
  o [PATCH] aic94xx: attaching to the sas transport class
  o Add missing completion removal from prior patch
  o [PATCH] aic94xx: attaching to the sas transport class
  o Build fixes from akpm

Jeff Garzik:
  o [scsi aic94xx] Remove ->owner from PCI info table

Luben Tuikov:
  o initial aic94xx driver

Mike Anderson:
  o aic94xx: fix panic on module insertion
  o aic94xx: stub out SATA_DEV case
  o aic94xx: compile warning cleanups
  o aic94xx: sas_alloc_task
  o aic94xx: ref count update
  o aic94xx nexus loss time value
  o [PATCH] aic94xx: driver assertion in non-x86 BIOS env

Randy Dunlap:
  o libsas: externs not needed

Robert Tarte:
  o aic94xx: sequence patch - fixes SATA support

Signed-off-by: James Bottomley <James.Bottomley@SteelEye.com>
2006-08-29 09:52:29 -05:00

303 lines
10 KiB
C

/*
* Aic94xx SAS/SATA driver hardware registers definitions.
*
* Copyright (C) 2005 Adaptec, Inc. All rights reserved.
* Copyright (C) 2005 Luben Tuikov <luben_tuikov@adaptec.com>
*
* This file is licensed under GPLv2.
*
* This file is part of the aic94xx driver.
*
* The aic94xx driver 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; version 2 of the
* License.
*
* The aic94xx driver 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 the aic94xx driver; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifndef _AIC94XX_REG_H_
#define _AIC94XX_REG_H_
#include <asm/io.h>
#include "aic94xx_hwi.h"
/* Values */
#define AIC9410_DEV_REV_B0 0x8
/* MBAR0, SWA, SWB, SWC, internal memory space addresses */
#define REG_BASE_ADDR 0xB8000000
#define REG_BASE_ADDR_CSEQCIO 0xB8002000
#define REG_BASE_ADDR_EXSI 0xB8042800
#define MBAR0_SWA_SIZE 0x58
extern u32 MBAR0_SWB_SIZE;
#define MBAR0_SWC_SIZE 0x8
/* MBAR1, points to On Chip Memory */
#define OCM_BASE_ADDR 0xA0000000
#define OCM_MAX_SIZE 0x20000
/* Smallest address possible to reference */
#define ALL_BASE_ADDR OCM_BASE_ADDR
/* PCI configuration space registers */
#define PCI_IOBAR_OFFSET 4
#define PCI_CONF_MBAR1 0x6C
#define PCI_CONF_MBAR0_SWA 0x70
#define PCI_CONF_MBAR0_SWB 0x74
#define PCI_CONF_MBAR0_SWC 0x78
#define PCI_CONF_MBAR_KEY 0x7C
#define PCI_CONF_FLSH_BAR 0xB8
#include "aic94xx_reg_def.h"
u8 asd_read_reg_byte(struct asd_ha_struct *asd_ha, u32 reg);
u16 asd_read_reg_word(struct asd_ha_struct *asd_ha, u32 reg);
u32 asd_read_reg_dword(struct asd_ha_struct *asd_ha, u32 reg);
void asd_write_reg_byte(struct asd_ha_struct *asd_ha, u32 reg, u8 val);
void asd_write_reg_word(struct asd_ha_struct *asd_ha, u32 reg, u16 val);
void asd_write_reg_dword(struct asd_ha_struct *asd_ha, u32 reg, u32 val);
void asd_read_reg_string(struct asd_ha_struct *asd_ha, void *dst,
u32 offs, int count);
void asd_write_reg_string(struct asd_ha_struct *asd_ha, void *src,
u32 offs, int count);
#define ASD_READ_OCM(type, ord, S) \
static inline type asd_read_ocm_##ord (struct asd_ha_struct *asd_ha, \
u32 offs) \
{ \
struct asd_ha_addrspace *io_handle = &asd_ha->io_handle[1]; \
type val = read##S (io_handle->addr + (unsigned long) offs); \
rmb(); \
return val; \
}
ASD_READ_OCM(u8, byte, b);
ASD_READ_OCM(u16,word, w);
ASD_READ_OCM(u32,dword,l);
#define ASD_WRITE_OCM(type, ord, S) \
static inline void asd_write_ocm_##ord (struct asd_ha_struct *asd_ha, \
u32 offs, type val) \
{ \
struct asd_ha_addrspace *io_handle = &asd_ha->io_handle[1]; \
write##S (val, io_handle->addr + (unsigned long) offs); \
return; \
}
ASD_WRITE_OCM(u8, byte, b);
ASD_WRITE_OCM(u16,word, w);
ASD_WRITE_OCM(u32,dword,l);
#define ASD_DDBSITE_READ(type, ord) \
static inline type asd_ddbsite_read_##ord (struct asd_ha_struct *asd_ha, \
u16 ddb_site_no, \
u16 offs) \
{ \
asd_write_reg_word(asd_ha, ALTCIOADR, MnDDB_SITE + offs); \
asd_write_reg_word(asd_ha, ADDBPTR, ddb_site_no); \
return asd_read_reg_##ord (asd_ha, CTXACCESS); \
}
ASD_DDBSITE_READ(u32, dword);
ASD_DDBSITE_READ(u16, word);
static inline u8 asd_ddbsite_read_byte(struct asd_ha_struct *asd_ha,
u16 ddb_site_no,
u16 offs)
{
if (offs & 1)
return asd_ddbsite_read_word(asd_ha, ddb_site_no,
offs & ~1) >> 8;
else
return asd_ddbsite_read_word(asd_ha, ddb_site_no,
offs) & 0xFF;
}
#define ASD_DDBSITE_WRITE(type, ord) \
static inline void asd_ddbsite_write_##ord (struct asd_ha_struct *asd_ha, \
u16 ddb_site_no, \
u16 offs, type val) \
{ \
asd_write_reg_word(asd_ha, ALTCIOADR, MnDDB_SITE + offs); \
asd_write_reg_word(asd_ha, ADDBPTR, ddb_site_no); \
asd_write_reg_##ord (asd_ha, CTXACCESS, val); \
}
ASD_DDBSITE_WRITE(u32, dword);
ASD_DDBSITE_WRITE(u16, word);
static inline void asd_ddbsite_write_byte(struct asd_ha_struct *asd_ha,
u16 ddb_site_no,
u16 offs, u8 val)
{
u16 base = offs & ~1;
u16 rval = asd_ddbsite_read_word(asd_ha, ddb_site_no, base);
if (offs & 1)
rval = (val << 8) | (rval & 0xFF);
else
rval = (rval & 0xFF00) | val;
asd_ddbsite_write_word(asd_ha, ddb_site_no, base, rval);
}
#define ASD_SCBSITE_READ(type, ord) \
static inline type asd_scbsite_read_##ord (struct asd_ha_struct *asd_ha, \
u16 scb_site_no, \
u16 offs) \
{ \
asd_write_reg_word(asd_ha, ALTCIOADR, MnSCB_SITE + offs); \
asd_write_reg_word(asd_ha, ASCBPTR, scb_site_no); \
return asd_read_reg_##ord (asd_ha, CTXACCESS); \
}
ASD_SCBSITE_READ(u32, dword);
ASD_SCBSITE_READ(u16, word);
static inline u8 asd_scbsite_read_byte(struct asd_ha_struct *asd_ha,
u16 scb_site_no,
u16 offs)
{
if (offs & 1)
return asd_scbsite_read_word(asd_ha, scb_site_no,
offs & ~1) >> 8;
else
return asd_scbsite_read_word(asd_ha, scb_site_no,
offs) & 0xFF;
}
#define ASD_SCBSITE_WRITE(type, ord) \
static inline void asd_scbsite_write_##ord (struct asd_ha_struct *asd_ha, \
u16 scb_site_no, \
u16 offs, type val) \
{ \
asd_write_reg_word(asd_ha, ALTCIOADR, MnSCB_SITE + offs); \
asd_write_reg_word(asd_ha, ASCBPTR, scb_site_no); \
asd_write_reg_##ord (asd_ha, CTXACCESS, val); \
}
ASD_SCBSITE_WRITE(u32, dword);
ASD_SCBSITE_WRITE(u16, word);
static inline void asd_scbsite_write_byte(struct asd_ha_struct *asd_ha,
u16 scb_site_no,
u16 offs, u8 val)
{
u16 base = offs & ~1;
u16 rval = asd_scbsite_read_word(asd_ha, scb_site_no, base);
if (offs & 1)
rval = (val << 8) | (rval & 0xFF);
else
rval = (rval & 0xFF00) | val;
asd_scbsite_write_word(asd_ha, scb_site_no, base, rval);
}
/**
* asd_ddbsite_update_word -- atomically update a word in a ddb site
* @asd_ha: pointer to host adapter structure
* @ddb_site_no: the DDB site number
* @offs: the offset into the DDB
* @oldval: old value found in that offset
* @newval: the new value to replace it
*
* This function is used when the sequencers are running and we need to
* update a DDB site atomically without expensive pausing and upausing
* of the sequencers and accessing the DDB site through the CIO bus.
*
* Return 0 on success; -EFAULT on parity error; -EAGAIN if the old value
* is different than the current value at that offset.
*/
static inline int asd_ddbsite_update_word(struct asd_ha_struct *asd_ha,
u16 ddb_site_no, u16 offs,
u16 oldval, u16 newval)
{
u8 done;
u16 oval = asd_ddbsite_read_word(asd_ha, ddb_site_no, offs);
if (oval != oldval)
return -EAGAIN;
asd_write_reg_word(asd_ha, AOLDDATA, oldval);
asd_write_reg_word(asd_ha, ANEWDATA, newval);
do {
done = asd_read_reg_byte(asd_ha, ATOMICSTATCTL);
} while (!(done & ATOMICDONE));
if (done & ATOMICERR)
return -EFAULT; /* parity error */
else if (done & ATOMICWIN)
return 0; /* success */
else
return -EAGAIN; /* oldval different than current value */
}
static inline int asd_ddbsite_update_byte(struct asd_ha_struct *asd_ha,
u16 ddb_site_no, u16 offs,
u8 _oldval, u8 _newval)
{
u16 base = offs & ~1;
u16 oval;
u16 nval = asd_ddbsite_read_word(asd_ha, ddb_site_no, base);
if (offs & 1) {
if ((nval >> 8) != _oldval)
return -EAGAIN;
nval = (_newval << 8) | (nval & 0xFF);
oval = (_oldval << 8) | (nval & 0xFF);
} else {
if ((nval & 0xFF) != _oldval)
return -EAGAIN;
nval = (nval & 0xFF00) | _newval;
oval = (nval & 0xFF00) | _oldval;
}
return asd_ddbsite_update_word(asd_ha, ddb_site_no, base, oval, nval);
}
static inline void asd_write_reg_addr(struct asd_ha_struct *asd_ha, u32 reg,
dma_addr_t dma_handle)
{
asd_write_reg_dword(asd_ha, reg, ASD_BUSADDR_LO(dma_handle));
asd_write_reg_dword(asd_ha, reg+4, ASD_BUSADDR_HI(dma_handle));
}
static inline u32 asd_get_cmdctx_size(struct asd_ha_struct *asd_ha)
{
/* DCHREVISION returns 0, possibly broken */
u32 ctxmemsize = asd_read_reg_dword(asd_ha, LmMnINT(0,0)) & CTXMEMSIZE;
return ctxmemsize ? 65536 : 32768;
}
static inline u32 asd_get_devctx_size(struct asd_ha_struct *asd_ha)
{
u32 ctxmemsize = asd_read_reg_dword(asd_ha, LmMnINT(0,0)) & CTXMEMSIZE;
return ctxmemsize ? 8192 : 4096;
}
static inline void asd_disable_ints(struct asd_ha_struct *asd_ha)
{
asd_write_reg_dword(asd_ha, CHIMINTEN, RST_CHIMINTEN);
}
static inline void asd_enable_ints(struct asd_ha_struct *asd_ha)
{
/* Enable COM SAS interrupt on errors, COMSTAT */
asd_write_reg_dword(asd_ha, COMSTATEN,
EN_CSBUFPERR | EN_CSERR | EN_OVLYERR);
/* Enable DCH SAS CFIFTOERR */
asd_write_reg_dword(asd_ha, DCHSTATUS, EN_CFIFTOERR);
/* Enable Host Device interrupts */
asd_write_reg_dword(asd_ha, CHIMINTEN, SET_CHIMINTEN);
}
#endif