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alistair23-linux/drivers/scsi/aic94xx/aic94xx_dump.c
Thomas Gleixner 65c85c8378 treewide: Replace GPLv2 boilerplate/reference with SPDX - rule 411 
Based on 1 normalized pattern(s):

  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

extracted by the scancode license scanner the SPDX license identifier

  GPL-2.0-only

has been chosen to replace the boilerplate/reference in 19 file(s).

Signed-off-by: Thomas Gleixner <tglx@linutronix.de>
Reviewed-by: Allison Randal <allison@lohutok.net>
Cc: linux-spdx@vger.kernel.org
Link: https://lkml.kernel.org/r/20190531190112.766909183@linutronix.de
Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
2019-06-05 17:37:14 +02:00

950 lines
35 KiB
C
Raw Blame History

// SPDX-License-Identifier: GPL-2.0-only
/*
* Aic94xx SAS/SATA driver dump interface.
*
* Copyright (C) 2004 Adaptec, Inc. All rights reserved.
* Copyright (C) 2004 David Chaw <david_chaw@adaptec.com>
* Copyright (C) 2005 Luben Tuikov <luben_tuikov@adaptec.com>
*
* 2005/07/14/LT Complete overhaul of this file. Update pages, register
* locations, names, etc. Make use of macros. Print more information.
* Print all cseq and lseq mip and mdp.
*/
#include <linux/pci.h>
#include "aic94xx.h"
#include "aic94xx_reg.h"
#include "aic94xx_reg_def.h"
#include "aic94xx_sas.h"
#include "aic94xx_dump.h"
#ifdef ASD_DEBUG
#define MD(x) (1 << (x))
#define MODE_COMMON (1 << 31)
#define MODE_0_7 (0xFF)
static const struct lseq_cio_regs {
char *name;
u32 offs;
u8 width;
u32 mode;
} LSEQmCIOREGS[] = {
{"LmMnSCBPTR", 0x20, 16, MD(0)|MD(1)|MD(2)|MD(3)|MD(4) },
{"LmMnDDBPTR", 0x22, 16, MD(0)|MD(1)|MD(2)|MD(3)|MD(4) },
{"LmREQMBX", 0x30, 32, MODE_COMMON },
{"LmRSPMBX", 0x34, 32, MODE_COMMON },
{"LmMnINT", 0x38, 32, MODE_0_7 },
{"LmMnINTEN", 0x3C, 32, MODE_0_7 },
{"LmXMTPRIMD", 0x40, 32, MODE_COMMON },
{"LmXMTPRIMCS", 0x44, 8, MODE_COMMON },
{"LmCONSTAT", 0x45, 8, MODE_COMMON },
{"LmMnDMAERRS", 0x46, 8, MD(0)|MD(1) },
{"LmMnSGDMAERRS", 0x47, 8, MD(0)|MD(1) },
{"LmMnEXPHDRP", 0x48, 8, MD(0) },
{"LmMnSASAALIGN", 0x48, 8, MD(1) },
{"LmMnMSKHDRP", 0x49, 8, MD(0) },
{"LmMnSTPALIGN", 0x49, 8, MD(1) },
{"LmMnRCVHDRP", 0x4A, 8, MD(0) },
{"LmMnXMTHDRP", 0x4A, 8, MD(1) },
{"LmALIGNMODE", 0x4B, 8, MD(1) },
{"LmMnEXPRCVCNT", 0x4C, 32, MD(0) },
{"LmMnXMTCNT", 0x4C, 32, MD(1) },
{"LmMnCURRTAG", 0x54, 16, MD(0) },
{"LmMnPREVTAG", 0x56, 16, MD(0) },
{"LmMnACKOFS", 0x58, 8, MD(1) },
{"LmMnXFRLVL", 0x59, 8, MD(0)|MD(1) },
{"LmMnSGDMACTL", 0x5A, 8, MD(0)|MD(1) },
{"LmMnSGDMASTAT", 0x5B, 8, MD(0)|MD(1) },
{"LmMnDDMACTL", 0x5C, 8, MD(0)|MD(1) },
{"LmMnDDMASTAT", 0x5D, 8, MD(0)|MD(1) },
{"LmMnDDMAMODE", 0x5E, 16, MD(0)|MD(1) },
{"LmMnPIPECTL", 0x61, 8, MD(0)|MD(1) },
{"LmMnACTSCB", 0x62, 16, MD(0)|MD(1) },
{"LmMnSGBHADR", 0x64, 8, MD(0)|MD(1) },
{"LmMnSGBADR", 0x65, 8, MD(0)|MD(1) },
{"LmMnSGDCNT", 0x66, 8, MD(0)|MD(1) },
{"LmMnSGDMADR", 0x68, 32, MD(0)|MD(1) },
{"LmMnSGDMADR", 0x6C, 32, MD(0)|MD(1) },
{"LmMnXFRCNT", 0x70, 32, MD(0)|MD(1) },
{"LmMnXMTCRC", 0x74, 32, MD(1) },
{"LmCURRTAG", 0x74, 16, MD(0) },
{"LmPREVTAG", 0x76, 16, MD(0) },
{"LmMnDPSEL", 0x7B, 8, MD(0)|MD(1) },
{"LmDPTHSTAT", 0x7C, 8, MODE_COMMON },
{"LmMnHOLDLVL", 0x7D, 8, MD(0) },
{"LmMnSATAFS", 0x7E, 8, MD(1) },
{"LmMnCMPLTSTAT", 0x7F, 8, MD(0)|MD(1) },
{"LmPRMSTAT0", 0x80, 32, MODE_COMMON },
{"LmPRMSTAT1", 0x84, 32, MODE_COMMON },
{"LmGPRMINT", 0x88, 8, MODE_COMMON },
{"LmMnCURRSCB", 0x8A, 16, MD(0) },
{"LmPRMICODE", 0x8C, 32, MODE_COMMON },
{"LmMnRCVCNT", 0x90, 16, MD(0) },
{"LmMnBUFSTAT", 0x92, 16, MD(0) },
{"LmMnXMTHDRSIZE",0x92, 8, MD(1) },
{"LmMnXMTSIZE", 0x93, 8, MD(1) },
{"LmMnTGTXFRCNT", 0x94, 32, MD(0) },
{"LmMnEXPROFS", 0x98, 32, MD(0) },
{"LmMnXMTROFS", 0x98, 32, MD(1) },
{"LmMnRCVROFS", 0x9C, 32, MD(0) },
{"LmCONCTL", 0xA0, 16, MODE_COMMON },
{"LmBITLTIMER", 0xA2, 16, MODE_COMMON },
{"LmWWNLOW", 0xA8, 32, MODE_COMMON },
{"LmWWNHIGH", 0xAC, 32, MODE_COMMON },
{"LmMnFRMERR", 0xB0, 32, MD(0) },
{"LmMnFRMERREN", 0xB4, 32, MD(0) },
{"LmAWTIMER", 0xB8, 16, MODE_COMMON },
{"LmAWTCTL", 0xBA, 8, MODE_COMMON },
{"LmMnHDRCMPS", 0xC0, 32, MD(0) },
{"LmMnXMTSTAT", 0xC4, 8, MD(1) },
{"LmHWTSTATEN", 0xC5, 8, MODE_COMMON },
{"LmMnRRDYRC", 0xC6, 8, MD(0) },
{"LmMnRRDYTC", 0xC6, 8, MD(1) },
{"LmHWTSTAT", 0xC7, 8, MODE_COMMON },
{"LmMnDATABUFADR",0xC8, 16, MD(0)|MD(1) },
{"LmDWSSTATUS", 0xCB, 8, MODE_COMMON },
{"LmMnACTSTAT", 0xCE, 16, MD(0)|MD(1) },
{"LmMnREQSCB", 0xD2, 16, MD(0)|MD(1) },
{"LmXXXPRIM", 0xD4, 32, MODE_COMMON },
{"LmRCVASTAT", 0xD9, 8, MODE_COMMON },
{"LmINTDIS1", 0xDA, 8, MODE_COMMON },
{"LmPSTORESEL", 0xDB, 8, MODE_COMMON },
{"LmPSTORE", 0xDC, 32, MODE_COMMON },
{"LmPRIMSTAT0EN", 0xE0, 32, MODE_COMMON },
{"LmPRIMSTAT1EN", 0xE4, 32, MODE_COMMON },
{"LmDONETCTL", 0xF2, 16, MODE_COMMON },
{NULL, 0, 0, 0 }
};
/*
static struct lseq_cio_regs LSEQmOOBREGS[] = {
{"OOB_BFLTR" ,0x100, 8, MD(5)},
{"OOB_INIT_MIN" ,0x102,16, MD(5)},
{"OOB_INIT_MAX" ,0x104,16, MD(5)},
{"OOB_INIT_NEG" ,0x106,16, MD(5)},
{"OOB_SAS_MIN" ,0x108,16, MD(5)},
{"OOB_SAS_MAX" ,0x10A,16, MD(5)},
{"OOB_SAS_NEG" ,0x10C,16, MD(5)},
{"OOB_WAKE_MIN" ,0x10E,16, MD(5)},
{"OOB_WAKE_MAX" ,0x110,16, MD(5)},
{"OOB_WAKE_NEG" ,0x112,16, MD(5)},
{"OOB_IDLE_MAX" ,0x114,16, MD(5)},
{"OOB_BURST_MAX" ,0x116,16, MD(5)},
{"OOB_XMIT_BURST" ,0x118, 8, MD(5)},
{"OOB_SEND_PAIRS" ,0x119, 8, MD(5)},
{"OOB_INIT_IDLE" ,0x11A, 8, MD(5)},
{"OOB_INIT_NEGO" ,0x11C, 8, MD(5)},
{"OOB_SAS_IDLE" ,0x11E, 8, MD(5)},
{"OOB_SAS_NEGO" ,0x120, 8, MD(5)},
{"OOB_WAKE_IDLE" ,0x122, 8, MD(5)},
{"OOB_WAKE_NEGO" ,0x124, 8, MD(5)},
{"OOB_DATA_KBITS" ,0x126, 8, MD(5)},
{"OOB_BURST_DATA" ,0x128,32, MD(5)},
{"OOB_ALIGN_0_DATA" ,0x12C,32, MD(5)},
{"OOB_ALIGN_1_DATA" ,0x130,32, MD(5)},
{"OOB_SYNC_DATA" ,0x134,32, MD(5)},
{"OOB_D10_2_DATA" ,0x138,32, MD(5)},
{"OOB_PHY_RST_CNT" ,0x13C,32, MD(5)},
{"OOB_SIG_GEN" ,0x140, 8, MD(5)},
{"OOB_XMIT" ,0x141, 8, MD(5)},
{"FUNCTION_MAKS" ,0x142, 8, MD(5)},
{"OOB_MODE" ,0x143, 8, MD(5)},
{"CURRENT_STATUS" ,0x144, 8, MD(5)},
{"SPEED_MASK" ,0x145, 8, MD(5)},
{"PRIM_COUNT" ,0x146, 8, MD(5)},
{"OOB_SIGNALS" ,0x148, 8, MD(5)},
{"OOB_DATA_DET" ,0x149, 8, MD(5)},
{"OOB_TIME_OUT" ,0x14C, 8, MD(5)},
{"OOB_TIMER_ENABLE" ,0x14D, 8, MD(5)},
{"OOB_STATUS" ,0x14E, 8, MD(5)},
{"HOT_PLUG_DELAY" ,0x150, 8, MD(5)},
{"RCD_DELAY" ,0x151, 8, MD(5)},
{"COMSAS_TIMER" ,0x152, 8, MD(5)},
{"SNTT_DELAY" ,0x153, 8, MD(5)},
{"SPD_CHNG_DELAY" ,0x154, 8, MD(5)},
{"SNLT_DELAY" ,0x155, 8, MD(5)},
{"SNWT_DELAY" ,0x156, 8, MD(5)},
{"ALIGN_DELAY" ,0x157, 8, MD(5)},
{"INT_ENABLE_0" ,0x158, 8, MD(5)},
{"INT_ENABLE_1" ,0x159, 8, MD(5)},
{"INT_ENABLE_2" ,0x15A, 8, MD(5)},
{"INT_ENABLE_3" ,0x15B, 8, MD(5)},
{"OOB_TEST_REG" ,0x15C, 8, MD(5)},
{"PHY_CONTROL_0" ,0x160, 8, MD(5)},
{"PHY_CONTROL_1" ,0x161, 8, MD(5)},
{"PHY_CONTROL_2" ,0x162, 8, MD(5)},
{"PHY_CONTROL_3" ,0x163, 8, MD(5)},
{"PHY_OOB_CAL_TX" ,0x164, 8, MD(5)},
{"PHY_OOB_CAL_RX" ,0x165, 8, MD(5)},
{"OOB_PHY_CAL_TX" ,0x166, 8, MD(5)},
{"OOB_PHY_CAL_RX" ,0x167, 8, MD(5)},
{"PHY_CONTROL_4" ,0x168, 8, MD(5)},
{"PHY_TEST" ,0x169, 8, MD(5)},
{"PHY_PWR_CTL" ,0x16A, 8, MD(5)},
{"PHY_PWR_DELAY" ,0x16B, 8, MD(5)},
{"OOB_SM_CON" ,0x16C, 8, MD(5)},
{"ADDR_TRAP_1" ,0x16D, 8, MD(5)},
{"ADDR_NEXT_1" ,0x16E, 8, MD(5)},
{"NEXT_ST_1" ,0x16F, 8, MD(5)},
{"OOB_SM_STATE" ,0x170, 8, MD(5)},
{"ADDR_TRAP_2" ,0x171, 8, MD(5)},
{"ADDR_NEXT_2" ,0x172, 8, MD(5)},
{"NEXT_ST_2" ,0x173, 8, MD(5)},
{NULL, 0, 0, 0 }
};
*/
#define STR_8BIT " %30s[0x%04x]:0x%02x\n"
#define STR_16BIT " %30s[0x%04x]:0x%04x\n"
#define STR_32BIT " %30s[0x%04x]:0x%08x\n"
#define STR_64BIT " %30s[0x%04x]:0x%llx\n"
#define PRINT_REG_8bit(_ha, _n, _r) asd_printk(STR_8BIT, #_n, _n, \
asd_read_reg_byte(_ha, _r))
#define PRINT_REG_16bit(_ha, _n, _r) asd_printk(STR_16BIT, #_n, _n, \
asd_read_reg_word(_ha, _r))
#define PRINT_REG_32bit(_ha, _n, _r) asd_printk(STR_32BIT, #_n, _n, \
asd_read_reg_dword(_ha, _r))
#define PRINT_CREG_8bit(_ha, _n) asd_printk(STR_8BIT, #_n, _n, \
asd_read_reg_byte(_ha, C##_n))
#define PRINT_CREG_16bit(_ha, _n) asd_printk(STR_16BIT, #_n, _n, \
asd_read_reg_word(_ha, C##_n))
#define PRINT_CREG_32bit(_ha, _n) asd_printk(STR_32BIT, #_n, _n, \
asd_read_reg_dword(_ha, C##_n))
#define MSTR_8BIT " Mode:%02d %30s[0x%04x]:0x%02x\n"
#define MSTR_16BIT " Mode:%02d %30s[0x%04x]:0x%04x\n"
#define MSTR_32BIT " Mode:%02d %30s[0x%04x]:0x%08x\n"
#define PRINT_MREG_8bit(_ha, _m, _n, _r) asd_printk(MSTR_8BIT, _m, #_n, _n, \
asd_read_reg_byte(_ha, _r))
#define PRINT_MREG_16bit(_ha, _m, _n, _r) asd_printk(MSTR_16BIT, _m, #_n, _n, \
asd_read_reg_word(_ha, _r))
#define PRINT_MREG_32bit(_ha, _m, _n, _r) asd_printk(MSTR_32BIT, _m, #_n, _n, \
asd_read_reg_dword(_ha, _r))
/* can also be used for MD when the register is mode aware already */
#define PRINT_MIS_byte(_ha, _n) asd_printk(STR_8BIT, #_n,CSEQ_##_n-CMAPPEDSCR,\
asd_read_reg_byte(_ha, CSEQ_##_n))
#define PRINT_MIS_word(_ha, _n) asd_printk(STR_16BIT,#_n,CSEQ_##_n-CMAPPEDSCR,\
asd_read_reg_word(_ha, CSEQ_##_n))
#define PRINT_MIS_dword(_ha, _n) \
asd_printk(STR_32BIT,#_n,CSEQ_##_n-CMAPPEDSCR,\
asd_read_reg_dword(_ha, CSEQ_##_n))
#define PRINT_MIS_qword(_ha, _n) \
asd_printk(STR_64BIT, #_n,CSEQ_##_n-CMAPPEDSCR, \
(unsigned long long)(((u64)asd_read_reg_dword(_ha, CSEQ_##_n)) \
| (((u64)asd_read_reg_dword(_ha, (CSEQ_##_n)+4))<<32)))
#define CMDP_REG(_n, _m) (_m*(CSEQ_PAGE_SIZE*2)+CSEQ_##_n)
#define PRINT_CMDP_word(_ha, _n) \
asd_printk("%20s 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x\n", \
#_n, \
asd_read_reg_word(_ha, CMDP_REG(_n, 0)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 1)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 2)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 3)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 4)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 5)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 6)), \
asd_read_reg_word(_ha, CMDP_REG(_n, 7)))
#define PRINT_CMDP_byte(_ha, _n) \
asd_printk("%20s 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x\n", \
#_n, \
asd_read_reg_byte(_ha, CMDP_REG(_n, 0)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 1)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 2)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 3)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 4)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 5)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 6)), \
asd_read_reg_byte(_ha, CMDP_REG(_n, 7)))
static void asd_dump_cseq_state(struct asd_ha_struct *asd_ha)
{
int mode;
asd_printk("CSEQ STATE\n");
asd_printk("ARP2 REGISTERS\n");
PRINT_CREG_32bit(asd_ha, ARP2CTL);
PRINT_CREG_32bit(asd_ha, ARP2INT);
PRINT_CREG_32bit(asd_ha, ARP2INTEN);
PRINT_CREG_8bit(asd_ha, MODEPTR);
PRINT_CREG_8bit(asd_ha, ALTMODE);
PRINT_CREG_8bit(asd_ha, FLAG);
PRINT_CREG_8bit(asd_ha, ARP2INTCTL);
PRINT_CREG_16bit(asd_ha, STACK);
PRINT_CREG_16bit(asd_ha, PRGMCNT);
PRINT_CREG_16bit(asd_ha, ACCUM);
PRINT_CREG_16bit(asd_ha, SINDEX);
PRINT_CREG_16bit(asd_ha, DINDEX);
PRINT_CREG_8bit(asd_ha, SINDIR);
PRINT_CREG_8bit(asd_ha, DINDIR);
PRINT_CREG_8bit(asd_ha, JUMLDIR);
PRINT_CREG_8bit(asd_ha, ARP2HALTCODE);
PRINT_CREG_16bit(asd_ha, CURRADDR);
PRINT_CREG_16bit(asd_ha, LASTADDR);
PRINT_CREG_16bit(asd_ha, NXTLADDR);
asd_printk("IOP REGISTERS\n");
PRINT_REG_32bit(asd_ha, BISTCTL1, CBISTCTL);
PRINT_CREG_32bit(asd_ha, MAPPEDSCR);
asd_printk("CIO REGISTERS\n");
for (mode = 0; mode < 9; mode++)
PRINT_MREG_16bit(asd_ha, mode, MnSCBPTR, CMnSCBPTR(mode));
PRINT_MREG_16bit(asd_ha, 15, MnSCBPTR, CMnSCBPTR(15));
for (mode = 0; mode < 9; mode++)
PRINT_MREG_16bit(asd_ha, mode, MnDDBPTR, CMnDDBPTR(mode));
PRINT_MREG_16bit(asd_ha, 15, MnDDBPTR, CMnDDBPTR(15));
for (mode = 0; mode < 8; mode++)
PRINT_MREG_32bit(asd_ha, mode, MnREQMBX, CMnREQMBX(mode));
for (mode = 0; mode < 8; mode++)
PRINT_MREG_32bit(asd_ha, mode, MnRSPMBX, CMnRSPMBX(mode));
for (mode = 0; mode < 8; mode++)
PRINT_MREG_32bit(asd_ha, mode, MnINT, CMnINT(mode));
for (mode = 0; mode < 8; mode++)
PRINT_MREG_32bit(asd_ha, mode, MnINTEN, CMnINTEN(mode));
PRINT_CREG_8bit(asd_ha, SCRATCHPAGE);
for (mode = 0; mode < 8; mode++)
PRINT_MREG_8bit(asd_ha, mode, MnSCRATCHPAGE,
CMnSCRATCHPAGE(mode));
PRINT_REG_32bit(asd_ha, CLINKCON, CLINKCON);
PRINT_REG_8bit(asd_ha, CCONMSK, CCONMSK);
PRINT_REG_8bit(asd_ha, CCONEXIST, CCONEXIST);
PRINT_REG_16bit(asd_ha, CCONMODE, CCONMODE);
PRINT_REG_32bit(asd_ha, CTIMERCALC, CTIMERCALC);
PRINT_REG_8bit(asd_ha, CINTDIS, CINTDIS);
asd_printk("SCRATCH MEMORY\n");
asd_printk("MIP 4 >>>>>\n");
PRINT_MIS_word(asd_ha, Q_EXE_HEAD);
PRINT_MIS_word(asd_ha, Q_EXE_TAIL);
PRINT_MIS_word(asd_ha, Q_DONE_HEAD);
PRINT_MIS_word(asd_ha, Q_DONE_TAIL);
PRINT_MIS_word(asd_ha, Q_SEND_HEAD);
PRINT_MIS_word(asd_ha, Q_SEND_TAIL);
PRINT_MIS_word(asd_ha, Q_DMA2CHIM_HEAD);
PRINT_MIS_word(asd_ha, Q_DMA2CHIM_TAIL);
PRINT_MIS_word(asd_ha, Q_COPY_HEAD);
PRINT_MIS_word(asd_ha, Q_COPY_TAIL);
PRINT_MIS_word(asd_ha, REG0);
PRINT_MIS_word(asd_ha, REG1);
PRINT_MIS_dword(asd_ha, REG2);
PRINT_MIS_byte(asd_ha, LINK_CTL_Q_MAP);
PRINT_MIS_byte(asd_ha, MAX_CSEQ_MODE);
PRINT_MIS_byte(asd_ha, FREE_LIST_HACK_COUNT);
asd_printk("MIP 5 >>>>\n");
PRINT_MIS_qword(asd_ha, EST_NEXUS_REQ_QUEUE);
PRINT_MIS_qword(asd_ha, EST_NEXUS_REQ_COUNT);
PRINT_MIS_word(asd_ha, Q_EST_NEXUS_HEAD);
PRINT_MIS_word(asd_ha, Q_EST_NEXUS_TAIL);
PRINT_MIS_word(asd_ha, NEED_EST_NEXUS_SCB);
PRINT_MIS_byte(asd_ha, EST_NEXUS_REQ_HEAD);
PRINT_MIS_byte(asd_ha, EST_NEXUS_REQ_TAIL);
PRINT_MIS_byte(asd_ha, EST_NEXUS_SCB_OFFSET);
asd_printk("MIP 6 >>>>\n");
PRINT_MIS_word(asd_ha, INT_ROUT_RET_ADDR0);
PRINT_MIS_word(asd_ha, INT_ROUT_RET_ADDR1);
PRINT_MIS_word(asd_ha, INT_ROUT_SCBPTR);
PRINT_MIS_byte(asd_ha, INT_ROUT_MODE);
PRINT_MIS_byte(asd_ha, ISR_SCRATCH_FLAGS);
PRINT_MIS_word(asd_ha, ISR_SAVE_SINDEX);
PRINT_MIS_word(asd_ha, ISR_SAVE_DINDEX);
PRINT_MIS_word(asd_ha, Q_MONIRTT_HEAD);
PRINT_MIS_word(asd_ha, Q_MONIRTT_TAIL);
PRINT_MIS_byte(asd_ha, FREE_SCB_MASK);
PRINT_MIS_word(asd_ha, BUILTIN_FREE_SCB_HEAD);
PRINT_MIS_word(asd_ha, BUILTIN_FREE_SCB_TAIL);
PRINT_MIS_word(asd_ha, EXTENDED_FREE_SCB_HEAD);
PRINT_MIS_word(asd_ha, EXTENDED_FREE_SCB_TAIL);
asd_printk("MIP 7 >>>>\n");
PRINT_MIS_qword(asd_ha, EMPTY_REQ_QUEUE);
PRINT_MIS_qword(asd_ha, EMPTY_REQ_COUNT);
PRINT_MIS_word(asd_ha, Q_EMPTY_HEAD);
PRINT_MIS_word(asd_ha, Q_EMPTY_TAIL);
PRINT_MIS_word(asd_ha, NEED_EMPTY_SCB);
PRINT_MIS_byte(asd_ha, EMPTY_REQ_HEAD);
PRINT_MIS_byte(asd_ha, EMPTY_REQ_TAIL);
PRINT_MIS_byte(asd_ha, EMPTY_SCB_OFFSET);
PRINT_MIS_word(asd_ha, PRIMITIVE_DATA);
PRINT_MIS_dword(asd_ha, TIMEOUT_CONST);
asd_printk("MDP 0 >>>>\n");
asd_printk("%-20s %6s %6s %6s %6s %6s %6s %6s %6s\n",
"Mode: ", "0", "1", "2", "3", "4", "5", "6", "7");
PRINT_CMDP_word(asd_ha, LRM_SAVE_SINDEX);
PRINT_CMDP_word(asd_ha, LRM_SAVE_SCBPTR);
PRINT_CMDP_word(asd_ha, Q_LINK_HEAD);
PRINT_CMDP_word(asd_ha, Q_LINK_TAIL);
PRINT_CMDP_byte(asd_ha, LRM_SAVE_SCRPAGE);
asd_printk("MDP 0 Mode 8 >>>>\n");
PRINT_MIS_word(asd_ha, RET_ADDR);
PRINT_MIS_word(asd_ha, RET_SCBPTR);
PRINT_MIS_word(asd_ha, SAVE_SCBPTR);
PRINT_MIS_word(asd_ha, EMPTY_TRANS_CTX);
PRINT_MIS_word(asd_ha, RESP_LEN);
PRINT_MIS_word(asd_ha, TMF_SCBPTR);
PRINT_MIS_word(asd_ha, GLOBAL_PREV_SCB);
PRINT_MIS_word(asd_ha, GLOBAL_HEAD);
PRINT_MIS_word(asd_ha, CLEAR_LU_HEAD);
PRINT_MIS_byte(asd_ha, TMF_OPCODE);
PRINT_MIS_byte(asd_ha, SCRATCH_FLAGS);
PRINT_MIS_word(asd_ha, HSB_SITE);
PRINT_MIS_word(asd_ha, FIRST_INV_SCB_SITE);
PRINT_MIS_word(asd_ha, FIRST_INV_DDB_SITE);
asd_printk("MDP 1 Mode 8 >>>>\n");
PRINT_MIS_qword(asd_ha, LUN_TO_CLEAR);
PRINT_MIS_qword(asd_ha, LUN_TO_CHECK);
asd_printk("MDP 2 Mode 8 >>>>\n");
PRINT_MIS_qword(asd_ha, HQ_NEW_POINTER);
PRINT_MIS_qword(asd_ha, HQ_DONE_BASE);
PRINT_MIS_dword(asd_ha, HQ_DONE_POINTER);
PRINT_MIS_byte(asd_ha, HQ_DONE_PASS);
}
#define PRINT_LREG_8bit(_h, _lseq, _n) \
asd_printk(STR_8BIT, #_n, _n, asd_read_reg_byte(_h, Lm##_n(_lseq)))
#define PRINT_LREG_16bit(_h, _lseq, _n) \
asd_printk(STR_16BIT, #_n, _n, asd_read_reg_word(_h, Lm##_n(_lseq)))
#define PRINT_LREG_32bit(_h, _lseq, _n) \
asd_printk(STR_32BIT, #_n, _n, asd_read_reg_dword(_h, Lm##_n(_lseq)))
#define PRINT_LMIP_byte(_h, _lseq, _n) \
asd_printk(STR_8BIT, #_n, LmSEQ_##_n(_lseq)-LmSCRATCH(_lseq), \
asd_read_reg_byte(_h, LmSEQ_##_n(_lseq)))
#define PRINT_LMIP_word(_h, _lseq, _n) \
asd_printk(STR_16BIT, #_n, LmSEQ_##_n(_lseq)-LmSCRATCH(_lseq), \
asd_read_reg_word(_h, LmSEQ_##_n(_lseq)))
#define PRINT_LMIP_dword(_h, _lseq, _n) \
asd_printk(STR_32BIT, #_n, LmSEQ_##_n(_lseq)-LmSCRATCH(_lseq), \
asd_read_reg_dword(_h, LmSEQ_##_n(_lseq)))
#define PRINT_LMIP_qword(_h, _lseq, _n) \
asd_printk(STR_64BIT, #_n, LmSEQ_##_n(_lseq)-LmSCRATCH(_lseq), \
(unsigned long long)(((unsigned long long) \
asd_read_reg_dword(_h, LmSEQ_##_n(_lseq))) \
| (((unsigned long long) \
asd_read_reg_dword(_h, LmSEQ_##_n(_lseq)+4))<<32)))
static void asd_print_lseq_cio_reg(struct asd_ha_struct *asd_ha,
u32 lseq_cio_addr, int i)
{
switch (LSEQmCIOREGS[i].width) {
case 8:
asd_printk("%20s[0x%x]: 0x%02x\n", LSEQmCIOREGS[i].name,
LSEQmCIOREGS[i].offs,
asd_read_reg_byte(asd_ha, lseq_cio_addr +
LSEQmCIOREGS[i].offs));
break;
case 16:
asd_printk("%20s[0x%x]: 0x%04x\n", LSEQmCIOREGS[i].name,
LSEQmCIOREGS[i].offs,
asd_read_reg_word(asd_ha, lseq_cio_addr +
LSEQmCIOREGS[i].offs));
break;
case 32:
asd_printk("%20s[0x%x]: 0x%08x\n", LSEQmCIOREGS[i].name,
LSEQmCIOREGS[i].offs,
asd_read_reg_dword(asd_ha, lseq_cio_addr +
LSEQmCIOREGS[i].offs));
break;
}
}
static void asd_dump_lseq_state(struct asd_ha_struct *asd_ha, int lseq)
{
u32 moffs;
int mode;
asd_printk("LSEQ %d STATE\n", lseq);
asd_printk("LSEQ%d: ARP2 REGISTERS\n", lseq);
PRINT_LREG_32bit(asd_ha, lseq, ARP2CTL);
PRINT_LREG_32bit(asd_ha, lseq, ARP2INT);
PRINT_LREG_32bit(asd_ha, lseq, ARP2INTEN);
PRINT_LREG_8bit(asd_ha, lseq, MODEPTR);
PRINT_LREG_8bit(asd_ha, lseq, ALTMODE);
PRINT_LREG_8bit(asd_ha, lseq, FLAG);
PRINT_LREG_8bit(asd_ha, lseq, ARP2INTCTL);
PRINT_LREG_16bit(asd_ha, lseq, STACK);
PRINT_LREG_16bit(asd_ha, lseq, PRGMCNT);
PRINT_LREG_16bit(asd_ha, lseq, ACCUM);
PRINT_LREG_16bit(asd_ha, lseq, SINDEX);
PRINT_LREG_16bit(asd_ha, lseq, DINDEX);
PRINT_LREG_8bit(asd_ha, lseq, SINDIR);
PRINT_LREG_8bit(asd_ha, lseq, DINDIR);
PRINT_LREG_8bit(asd_ha, lseq, JUMLDIR);
PRINT_LREG_8bit(asd_ha, lseq, ARP2HALTCODE);
PRINT_LREG_16bit(asd_ha, lseq, CURRADDR);
PRINT_LREG_16bit(asd_ha, lseq, LASTADDR);
PRINT_LREG_16bit(asd_ha, lseq, NXTLADDR);
asd_printk("LSEQ%d: IOP REGISTERS\n", lseq);
PRINT_LREG_32bit(asd_ha, lseq, MODECTL);
PRINT_LREG_32bit(asd_ha, lseq, DBGMODE);
PRINT_LREG_32bit(asd_ha, lseq, CONTROL);
PRINT_REG_32bit(asd_ha, BISTCTL0, LmBISTCTL0(lseq));
PRINT_REG_32bit(asd_ha, BISTCTL1, LmBISTCTL1(lseq));
asd_printk("LSEQ%d: CIO REGISTERS\n", lseq);
asd_printk("Mode common:\n");
for (mode = 0; mode < 8; mode++) {
u32 lseq_cio_addr = LmSEQ_PHY_BASE(mode, lseq);
int i;
for (i = 0; LSEQmCIOREGS[i].name; i++)
if (LSEQmCIOREGS[i].mode == MODE_COMMON)
asd_print_lseq_cio_reg(asd_ha,lseq_cio_addr,i);
}
asd_printk("Mode unique:\n");
for (mode = 0; mode < 8; mode++) {
u32 lseq_cio_addr = LmSEQ_PHY_BASE(mode, lseq);
int i;
asd_printk("Mode %d\n", mode);
for (i = 0; LSEQmCIOREGS[i].name; i++) {
if (!(LSEQmCIOREGS[i].mode & (1 << mode)))
continue;
asd_print_lseq_cio_reg(asd_ha, lseq_cio_addr, i);
}
}
asd_printk("SCRATCH MEMORY\n");
asd_printk("LSEQ%d MIP 0 >>>>\n", lseq);
PRINT_LMIP_word(asd_ha, lseq, Q_TGTXFR_HEAD);
PRINT_LMIP_word(asd_ha, lseq, Q_TGTXFR_TAIL);
PRINT_LMIP_byte(asd_ha, lseq, LINK_NUMBER);
PRINT_LMIP_byte(asd_ha, lseq, SCRATCH_FLAGS);
PRINT_LMIP_dword(asd_ha, lseq, CONNECTION_STATE);
PRINT_LMIP_word(asd_ha, lseq, CONCTL);
PRINT_LMIP_byte(asd_ha, lseq, CONSTAT);
PRINT_LMIP_byte(asd_ha, lseq, CONNECTION_MODES);
PRINT_LMIP_word(asd_ha, lseq, REG1_ISR);
PRINT_LMIP_word(asd_ha, lseq, REG2_ISR);
PRINT_LMIP_word(asd_ha, lseq, REG3_ISR);
PRINT_LMIP_qword(asd_ha, lseq,REG0_ISR);
asd_printk("LSEQ%d MIP 1 >>>>\n", lseq);
PRINT_LMIP_word(asd_ha, lseq, EST_NEXUS_SCBPTR0);
PRINT_LMIP_word(asd_ha, lseq, EST_NEXUS_SCBPTR1);
PRINT_LMIP_word(asd_ha, lseq, EST_NEXUS_SCBPTR2);
PRINT_LMIP_word(asd_ha, lseq, EST_NEXUS_SCBPTR3);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_SCB_OPCODE0);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_SCB_OPCODE1);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_SCB_OPCODE2);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_SCB_OPCODE3);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_SCB_HEAD);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_SCB_TAIL);
PRINT_LMIP_byte(asd_ha, lseq, EST_NEXUS_BUF_AVAIL);
PRINT_LMIP_dword(asd_ha, lseq, TIMEOUT_CONST);
PRINT_LMIP_word(asd_ha, lseq, ISR_SAVE_SINDEX);
PRINT_LMIP_word(asd_ha, lseq, ISR_SAVE_DINDEX);
asd_printk("LSEQ%d MIP 2 >>>>\n", lseq);
PRINT_LMIP_word(asd_ha, lseq, EMPTY_SCB_PTR0);
PRINT_LMIP_word(asd_ha, lseq, EMPTY_SCB_PTR1);
PRINT_LMIP_word(asd_ha, lseq, EMPTY_SCB_PTR2);
PRINT_LMIP_word(asd_ha, lseq, EMPTY_SCB_PTR3);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_SCB_OPCD0);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_SCB_OPCD1);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_SCB_OPCD2);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_SCB_OPCD3);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_SCB_HEAD);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_SCB_TAIL);
PRINT_LMIP_byte(asd_ha, lseq, EMPTY_BUFS_AVAIL);
asd_printk("LSEQ%d MIP 3 >>>>\n", lseq);
PRINT_LMIP_dword(asd_ha, lseq, DEV_PRES_TMR_TOUT_CONST);
PRINT_LMIP_dword(asd_ha, lseq, SATA_INTERLOCK_TIMEOUT);
PRINT_LMIP_dword(asd_ha, lseq, SRST_ASSERT_TIMEOUT);
PRINT_LMIP_dword(asd_ha, lseq, RCV_FIS_TIMEOUT);
PRINT_LMIP_dword(asd_ha, lseq, ONE_MILLISEC_TIMEOUT);
PRINT_LMIP_dword(asd_ha, lseq, TEN_MS_COMINIT_TIMEOUT);
PRINT_LMIP_dword(asd_ha, lseq, SMP_RCV_TIMEOUT);
for (mode = 0; mode < 3; mode++) {
asd_printk("LSEQ%d MDP 0 MODE %d >>>>\n", lseq, mode);
moffs = mode * LSEQ_MODE_SCRATCH_SIZE;
asd_printk(STR_16BIT, "RET_ADDR", 0,
asd_read_reg_word(asd_ha, LmSEQ_RET_ADDR(lseq)
+ moffs));
asd_printk(STR_16BIT, "REG0_MODE", 2,
asd_read_reg_word(asd_ha, LmSEQ_REG0_MODE(lseq)
+ moffs));
asd_printk(STR_16BIT, "MODE_FLAGS", 4,
asd_read_reg_word(asd_ha, LmSEQ_MODE_FLAGS(lseq)
+ moffs));
asd_printk(STR_16BIT, "RET_ADDR2", 0x6,
asd_read_reg_word(asd_ha, LmSEQ_RET_ADDR2(lseq)
+ moffs));
asd_printk(STR_16BIT, "RET_ADDR1", 0x8,
asd_read_reg_word(asd_ha, LmSEQ_RET_ADDR1(lseq)
+ moffs));
asd_printk(STR_8BIT, "OPCODE_TO_CSEQ", 0xB,
asd_read_reg_byte(asd_ha, LmSEQ_OPCODE_TO_CSEQ(lseq)
+ moffs));
asd_printk(STR_16BIT, "DATA_TO_CSEQ", 0xC,
asd_read_reg_word(asd_ha, LmSEQ_DATA_TO_CSEQ(lseq)
+ moffs));
}
asd_printk("LSEQ%d MDP 0 MODE 5 >>>>\n", lseq);
moffs = LSEQ_MODE5_PAGE0_OFFSET;
asd_printk(STR_16BIT, "RET_ADDR", 0,
asd_read_reg_word(asd_ha, LmSEQ_RET_ADDR(lseq) + moffs));
asd_printk(STR_16BIT, "REG0_MODE", 2,
asd_read_reg_word(asd_ha, LmSEQ_REG0_MODE(lseq) + moffs));
asd_printk(STR_16BIT, "MODE_FLAGS", 4,
asd_read_reg_word(asd_ha, LmSEQ_MODE_FLAGS(lseq) + moffs));
asd_printk(STR_16BIT, "RET_ADDR2", 0x6,
asd_read_reg_word(asd_ha, LmSEQ_RET_ADDR2(lseq) + moffs));
asd_printk(STR_16BIT, "RET_ADDR1", 0x8,
asd_read_reg_word(asd_ha, LmSEQ_RET_ADDR1(lseq) + moffs));
asd_printk(STR_8BIT, "OPCODE_TO_CSEQ", 0xB,
asd_read_reg_byte(asd_ha, LmSEQ_OPCODE_TO_CSEQ(lseq) + moffs));
asd_printk(STR_16BIT, "DATA_TO_CSEQ", 0xC,
asd_read_reg_word(asd_ha, LmSEQ_DATA_TO_CSEQ(lseq) + moffs));
asd_printk("LSEQ%d MDP 0 MODE 0 >>>>\n", lseq);
PRINT_LMIP_word(asd_ha, lseq, FIRST_INV_DDB_SITE);
PRINT_LMIP_word(asd_ha, lseq, EMPTY_TRANS_CTX);
PRINT_LMIP_word(asd_ha, lseq, RESP_LEN);
PRINT_LMIP_word(asd_ha, lseq, FIRST_INV_SCB_SITE);
PRINT_LMIP_dword(asd_ha, lseq, INTEN_SAVE);
PRINT_LMIP_byte(asd_ha, lseq, LINK_RST_FRM_LEN);
PRINT_LMIP_byte(asd_ha, lseq, LINK_RST_PROTOCOL);
PRINT_LMIP_byte(asd_ha, lseq, RESP_STATUS);
PRINT_LMIP_byte(asd_ha, lseq, LAST_LOADED_SGE);
PRINT_LMIP_byte(asd_ha, lseq, SAVE_SCBPTR);
asd_printk("LSEQ%d MDP 0 MODE 1 >>>>\n", lseq);
PRINT_LMIP_word(asd_ha, lseq, Q_XMIT_HEAD);
PRINT_LMIP_word(asd_ha, lseq, M1_EMPTY_TRANS_CTX);
PRINT_LMIP_word(asd_ha, lseq, INI_CONN_TAG);
PRINT_LMIP_byte(asd_ha, lseq, FAILED_OPEN_STATUS);
PRINT_LMIP_byte(asd_ha, lseq, XMIT_REQUEST_TYPE);
PRINT_LMIP_byte(asd_ha, lseq, M1_RESP_STATUS);
PRINT_LMIP_byte(asd_ha, lseq, M1_LAST_LOADED_SGE);
PRINT_LMIP_word(asd_ha, lseq, M1_SAVE_SCBPTR);
asd_printk("LSEQ%d MDP 0 MODE 2 >>>>\n", lseq);
PRINT_LMIP_word(asd_ha, lseq, PORT_COUNTER);
PRINT_LMIP_word(asd_ha, lseq, PM_TABLE_PTR);
PRINT_LMIP_word(asd_ha, lseq, SATA_INTERLOCK_TMR_SAVE);
PRINT_LMIP_word(asd_ha, lseq, IP_BITL);
PRINT_LMIP_word(asd_ha, lseq, COPY_SMP_CONN_TAG);
PRINT_LMIP_byte(asd_ha, lseq, P0M2_OFFS1AH);
asd_printk("LSEQ%d MDP 0 MODE 4/5 >>>>\n", lseq);
PRINT_LMIP_byte(asd_ha, lseq, SAVED_OOB_STATUS);
PRINT_LMIP_byte(asd_ha, lseq, SAVED_OOB_MODE);
PRINT_LMIP_word(asd_ha, lseq, Q_LINK_HEAD);
PRINT_LMIP_byte(asd_ha, lseq, LINK_RST_ERR);
PRINT_LMIP_byte(asd_ha, lseq, SAVED_OOB_SIGNALS);
PRINT_LMIP_byte(asd_ha, lseq, SAS_RESET_MODE);
PRINT_LMIP_byte(asd_ha, lseq, LINK_RESET_RETRY_COUNT);
PRINT_LMIP_byte(asd_ha, lseq, NUM_LINK_RESET_RETRIES);
PRINT_LMIP_word(asd_ha, lseq, OOB_INT_ENABLES);
PRINT_LMIP_word(asd_ha, lseq, NOTIFY_TIMER_TIMEOUT);
PRINT_LMIP_word(asd_ha, lseq, NOTIFY_TIMER_DOWN_COUNT);
asd_printk("LSEQ%d MDP 1 MODE 0 >>>>\n", lseq);
PRINT_LMIP_qword(asd_ha, lseq, SG_LIST_PTR_ADDR0);
PRINT_LMIP_qword(asd_ha, lseq, SG_LIST_PTR_ADDR1);
asd_printk("LSEQ%d MDP 1 MODE 1 >>>>\n", lseq);
PRINT_LMIP_qword(asd_ha, lseq, M1_SG_LIST_PTR_ADDR0);
PRINT_LMIP_qword(asd_ha, lseq, M1_SG_LIST_PTR_ADDR1);
asd_printk("LSEQ%d MDP 1 MODE 2 >>>>\n", lseq);
PRINT_LMIP_dword(asd_ha, lseq, INVALID_DWORD_COUNT);
PRINT_LMIP_dword(asd_ha, lseq, DISPARITY_ERROR_COUNT);
PRINT_LMIP_dword(asd_ha, lseq, LOSS_OF_SYNC_COUNT);
asd_printk("LSEQ%d MDP 1 MODE 4/5 >>>>\n", lseq);
PRINT_LMIP_dword(asd_ha, lseq, FRAME_TYPE_MASK);
PRINT_LMIP_dword(asd_ha, lseq, HASHED_SRC_ADDR_MASK_PRINT);
PRINT_LMIP_byte(asd_ha, lseq, NUM_FILL_BYTES_MASK);
PRINT_LMIP_word(asd_ha, lseq, TAG_MASK);
PRINT_LMIP_word(asd_ha, lseq, TARGET_PORT_XFER_TAG);
PRINT_LMIP_dword(asd_ha, lseq, DATA_OFFSET);
asd_printk("LSEQ%d MDP 2 MODE 0 >>>>\n", lseq);
PRINT_LMIP_dword(asd_ha, lseq, SMP_RCV_TIMER_TERM_TS);
PRINT_LMIP_byte(asd_ha, lseq, DEVICE_BITS);
PRINT_LMIP_word(asd_ha, lseq, SDB_DDB);
PRINT_LMIP_word(asd_ha, lseq, SDB_NUM_TAGS);
PRINT_LMIP_word(asd_ha, lseq, SDB_CURR_TAG);
asd_printk("LSEQ%d MDP 2 MODE 1 >>>>\n", lseq);
PRINT_LMIP_qword(asd_ha, lseq, TX_ID_ADDR_FRAME);
PRINT_LMIP_dword(asd_ha, lseq, OPEN_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, SRST_AS_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, LAST_LOADED_SG_EL);
asd_printk("LSEQ%d MDP 2 MODE 2 >>>>\n", lseq);
PRINT_LMIP_dword(asd_ha, lseq, CLOSE_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, BREAK_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, DWS_RESET_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, SATA_INTERLOCK_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, MCTL_TIMER_TERM_TS);
asd_printk("LSEQ%d MDP 2 MODE 4/5 >>>>\n", lseq);
PRINT_LMIP_dword(asd_ha, lseq, COMINIT_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, RCV_ID_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, RCV_FIS_TIMER_TERM_TS);
PRINT_LMIP_dword(asd_ha, lseq, DEV_PRES_TIMER_TERM_TS);
}
#if 0
/**
* asd_dump_ddb_site -- dump a CSEQ DDB site
* @asd_ha: pointer to host adapter structure
* @site_no: site number of interest
*/
void asd_dump_target_ddb(struct asd_ha_struct *asd_ha, u16 site_no)
{
if (site_no >= asd_ha->hw_prof.max_ddbs)
return;
#define DDB_FIELDB(__name) \
asd_ddbsite_read_byte(asd_ha, site_no, \
offsetof(struct asd_ddb_ssp_smp_target_port, __name))
#define DDB2_FIELDB(__name) \
asd_ddbsite_read_byte(asd_ha, site_no, \
offsetof(struct asd_ddb_stp_sata_target_port, __name))
#define DDB_FIELDW(__name) \
asd_ddbsite_read_word(asd_ha, site_no, \
offsetof(struct asd_ddb_ssp_smp_target_port, __name))
#define DDB_FIELDD(__name) \
asd_ddbsite_read_dword(asd_ha, site_no, \
offsetof(struct asd_ddb_ssp_smp_target_port, __name))
asd_printk("DDB: 0x%02x\n", site_no);
asd_printk("conn_type: 0x%02x\n", DDB_FIELDB(conn_type));
asd_printk("conn_rate: 0x%02x\n", DDB_FIELDB(conn_rate));
asd_printk("init_conn_tag: 0x%04x\n", be16_to_cpu(DDB_FIELDW(init_conn_tag)));
asd_printk("send_queue_head: 0x%04x\n", be16_to_cpu(DDB_FIELDW(send_queue_head)));
asd_printk("sq_suspended: 0x%02x\n", DDB_FIELDB(sq_suspended));
asd_printk("DDB Type: 0x%02x\n", DDB_FIELDB(ddb_type));
asd_printk("AWT Default: 0x%04x\n", DDB_FIELDW(awt_def));
asd_printk("compat_features: 0x%02x\n", DDB_FIELDB(compat_features));
asd_printk("Pathway Blocked Count: 0x%02x\n",
DDB_FIELDB(pathway_blocked_count));
asd_printk("arb_wait_time: 0x%04x\n", DDB_FIELDW(arb_wait_time));
asd_printk("more_compat_features: 0x%08x\n",
DDB_FIELDD(more_compat_features));
asd_printk("Conn Mask: 0x%02x\n", DDB_FIELDB(conn_mask));
asd_printk("flags: 0x%02x\n", DDB_FIELDB(flags));
asd_printk("flags2: 0x%02x\n", DDB2_FIELDB(flags2));
asd_printk("ExecQ Tail: 0x%04x\n",DDB_FIELDW(exec_queue_tail));
asd_printk("SendQ Tail: 0x%04x\n",DDB_FIELDW(send_queue_tail));
asd_printk("Active Task Count: 0x%04x\n",
DDB_FIELDW(active_task_count));
asd_printk("ITNL Reason: 0x%02x\n", DDB_FIELDB(itnl_reason));
asd_printk("ITNL Timeout Const: 0x%04x\n", DDB_FIELDW(itnl_timeout));
asd_printk("ITNL timestamp: 0x%08x\n", DDB_FIELDD(itnl_timestamp));
}
void asd_dump_ddb_0(struct asd_ha_struct *asd_ha)
{
#define DDB0_FIELDB(__name) \
asd_ddbsite_read_byte(asd_ha, 0, \
offsetof(struct asd_ddb_seq_shared, __name))
#define DDB0_FIELDW(__name) \
asd_ddbsite_read_word(asd_ha, 0, \
offsetof(struct asd_ddb_seq_shared, __name))
#define DDB0_FIELDD(__name) \
asd_ddbsite_read_dword(asd_ha,0 , \
offsetof(struct asd_ddb_seq_shared, __name))
#define DDB0_FIELDA(__name, _o) \
asd_ddbsite_read_byte(asd_ha, 0, \
offsetof(struct asd_ddb_seq_shared, __name)+_o)
asd_printk("DDB: 0\n");
asd_printk("q_free_ddb_head:%04x\n", DDB0_FIELDW(q_free_ddb_head));
asd_printk("q_free_ddb_tail:%04x\n", DDB0_FIELDW(q_free_ddb_tail));
asd_printk("q_free_ddb_cnt:%04x\n", DDB0_FIELDW(q_free_ddb_cnt));
asd_printk("q_used_ddb_head:%04x\n", DDB0_FIELDW(q_used_ddb_head));
asd_printk("q_used_ddb_tail:%04x\n", DDB0_FIELDW(q_used_ddb_tail));
asd_printk("shared_mem_lock:%04x\n", DDB0_FIELDW(shared_mem_lock));
asd_printk("smp_conn_tag:%04x\n", DDB0_FIELDW(smp_conn_tag));
asd_printk("est_nexus_buf_cnt:%04x\n", DDB0_FIELDW(est_nexus_buf_cnt));
asd_printk("est_nexus_buf_thresh:%04x\n",
DDB0_FIELDW(est_nexus_buf_thresh));
asd_printk("conn_not_active:%02x\n", DDB0_FIELDB(conn_not_active));
asd_printk("phy_is_up:%02x\n", DDB0_FIELDB(phy_is_up));
asd_printk("port_map_by_links:%02x %02x %02x %02x "
"%02x %02x %02x %02x\n",
DDB0_FIELDA(port_map_by_links, 0),
DDB0_FIELDA(port_map_by_links, 1),
DDB0_FIELDA(port_map_by_links, 2),
DDB0_FIELDA(port_map_by_links, 3),
DDB0_FIELDA(port_map_by_links, 4),
DDB0_FIELDA(port_map_by_links, 5),
DDB0_FIELDA(port_map_by_links, 6),
DDB0_FIELDA(port_map_by_links, 7));
}
static void asd_dump_scb_site(struct asd_ha_struct *asd_ha, u16 site_no)
{
#define SCB_FIELDB(__name) \
asd_scbsite_read_byte(asd_ha, site_no, sizeof(struct scb_header) \
+ offsetof(struct initiate_ssp_task, __name))
#define SCB_FIELDW(__name) \
asd_scbsite_read_word(asd_ha, site_no, sizeof(struct scb_header) \
+ offsetof(struct initiate_ssp_task, __name))
#define SCB_FIELDD(__name) \
asd_scbsite_read_dword(asd_ha, site_no, sizeof(struct scb_header) \
+ offsetof(struct initiate_ssp_task, __name))
asd_printk("Total Xfer Len: 0x%08x.\n", SCB_FIELDD(total_xfer_len));
asd_printk("Frame Type: 0x%02x.\n", SCB_FIELDB(ssp_frame.frame_type));
asd_printk("Tag: 0x%04x.\n", SCB_FIELDW(ssp_frame.tag));
asd_printk("Target Port Xfer Tag: 0x%04x.\n",
SCB_FIELDW(ssp_frame.tptt));
asd_printk("Data Offset: 0x%08x.\n", SCB_FIELDW(ssp_frame.data_offs));
asd_printk("Retry Count: 0x%02x.\n", SCB_FIELDB(retry_count));
}
/**
* asd_dump_scb_sites -- dump currently used CSEQ SCB sites
* @asd_ha: pointer to host adapter struct
*/
void asd_dump_scb_sites(struct asd_ha_struct *asd_ha)
{
u16 site_no;
for (site_no = 0; site_no < asd_ha->hw_prof.max_scbs; site_no++) {
u8 opcode;
if (!SCB_SITE_VALID(site_no))
continue;
/* We are only interested in SCB sites currently used.
*/
opcode = asd_scbsite_read_byte(asd_ha, site_no,
offsetof(struct scb_header,
opcode));
if (opcode == 0xFF)
continue;
asd_printk("\nSCB: 0x%x\n", site_no);
asd_dump_scb_site(asd_ha, site_no);
}
}
#endif /* 0 */
/**
* ads_dump_seq_state -- dump CSEQ and LSEQ states
* @asd_ha: pointer to host adapter structure
* @lseq_mask: mask of LSEQs of interest
*/
void asd_dump_seq_state(struct asd_ha_struct *asd_ha, u8 lseq_mask)
{
int lseq;
asd_dump_cseq_state(asd_ha);
if (lseq_mask != 0)
for_each_sequencer(lseq_mask, lseq_mask, lseq)
asd_dump_lseq_state(asd_ha, lseq);
}
void asd_dump_frame_rcvd(struct asd_phy *phy,
struct done_list_struct *dl)
{
unsigned long flags;
int i;
switch ((dl->status_block[1] & 0x70) >> 3) {
case SAS_PROTOCOL_STP:
ASD_DPRINTK("STP proto device-to-host FIS:\n");
break;
default:
case SAS_PROTOCOL_SSP:
ASD_DPRINTK("SAS proto IDENTIFY:\n");
break;
}
spin_lock_irqsave(&phy->sas_phy.frame_rcvd_lock, flags);
for (i = 0; i < phy->sas_phy.frame_rcvd_size; i+=4)
ASD_DPRINTK("%02x: %02x %02x %02x %02x\n",
i,
phy->frame_rcvd[i],
phy->frame_rcvd[i+1],
phy->frame_rcvd[i+2],
phy->frame_rcvd[i+3]);
spin_unlock_irqrestore(&phy->sas_phy.frame_rcvd_lock, flags);
}
#if 0
static void asd_dump_scb(struct asd_ascb *ascb, int ind)
{
asd_printk("scb%d: vaddr: 0x%p, dma_handle: 0x%llx, next: 0x%llx, "
"index:%d, opcode:0x%02x\n",
ind, ascb->dma_scb.vaddr,
(unsigned long long)ascb->dma_scb.dma_handle,
(unsigned long long)
le64_to_cpu(ascb->scb->header.next_scb),
le16_to_cpu(ascb->scb->header.index),
ascb->scb->header.opcode);
}
void asd_dump_scb_list(struct asd_ascb *ascb, int num)
{
int i = 0;
asd_printk("dumping %d scbs:\n", num);
asd_dump_scb(ascb, i++);
--num;
if (num > 0 && !list_empty(&ascb->list)) {
struct list_head *el;
list_for_each(el, &ascb->list) {
struct asd_ascb *s = list_entry(el, struct asd_ascb,
list);
asd_dump_scb(s, i++);
if (--num <= 0)
break;
}
}
}
#endif /* 0 */
#endif /* ASD_DEBUG */
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