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authorVan Lee <vanlee@us.ibm.com>2012-09-13 00:21:05 -0500
committerA. Patrick Williams III <iawillia@us.ibm.com>2012-10-10 10:00:24 -0500
commit161d42331b54abd6a101d7cfe934e35639447d72 (patch)
tree8e8c648ddbf080f1486ac5fd09bfb889a1002ab6 /src/usr
parentbd6bf39b89d642763ba23c8357fd5e37cfd0796c (diff)
downloadtalos-hostboot-161d42331b54abd6a101d7cfe934e35639447d72.tar.gz
talos-hostboot-161d42331b54abd6a101d7cfe934e35639447d72.zip
HWP: integrate official version of mss_setup_bars
- fixed MSS_CAL_STEP_ENABLE attribute is missing in mba target type - make dependency to new bbuild RTC: 43375 Change-Id: I626c4c41caa1bba54264c24c8e1d2f3de22e9ad8 Reviewed-on: http://gfw160.austin.ibm.com:8080/gerrit/1731 Tested-by: Jenkins Server Reviewed-by: Brian H. Horton <brianh@linux.ibm.com> Reviewed-by: Van H. Lee <vanlee@us.ibm.com> Reviewed-by: MIKE J. JONES <mjjones@us.ibm.com> Reviewed-by: A. Patrick Williams III <iawillia@us.ibm.com>
Diffstat (limited to 'src/usr')
-rw-r--r--src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C505
-rw-r--r--src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H47
-rwxr-xr-xsrc/usr/hwpf/hwp/include/common_scom_addresses.H99
-rwxr-xr-xsrc/usr/hwpf/hwp/include/p8_scom_addresses.H340
-rw-r--r--src/usr/targeting/common/xmltohb/target_types.xml1
5 files changed, 665 insertions, 327 deletions
diff --git a/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C b/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C
index ebc941ce8..f40659140 100644
--- a/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C
+++ b/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C
@@ -1,26 +1,26 @@
-/* IBM_PROLOG_BEGIN_TAG
- * This is an automatically generated prolog.
- *
- * $Source: src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C $
- *
- * IBM CONFIDENTIAL
- *
- * COPYRIGHT International Business Machines Corp. 2012
- *
- * p1
- *
- * Object Code Only (OCO) source materials
- * Licensed Internal Code Source Materials
- * IBM HostBoot Licensed Internal Code
- *
- * The source code for this program is not published or other-
- * wise divested of its trade secrets, irrespective of what has
- * been deposited with the U.S. Copyright Office.
- *
- * Origin: 30
- *
- * IBM_PROLOG_END_TAG
- */
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.C $ */
+/* */
+/* IBM CONFIDENTIAL */
+/* */
+/* COPYRIGHT International Business Machines Corp. 2012 */
+/* */
+/* p1 */
+/* */
+/* Object Code Only (OCO) source materials */
+/* Licensed Internal Code Source Materials */
+/* IBM HostBoot Licensed Internal Code */
+/* */
+/* The source code for this program is not published or otherwise */
+/* divested of its trade secrets, irrespective of what has been */
+/* deposited with the U.S. Copyright Office. */
+/* */
+/* Origin: 30 */
+/* */
+/* IBM_PROLOG_END_TAG */
+// $Id: mss_setup_bars.C,v 1.22 2012/10/03 13:39:03 gpaulraj Exp $
//------------------------------------------------------------------------------
// *! (C) Copyright International Business Machines Corp. 2012
// *! All Rights Reserved -- Property of IBM
@@ -38,10 +38,18 @@
//------------------------------------------------------------------------------
// Version:| Author: | Date: | Comment:
//---------|----------|---------|-----------------------------------------------
-// 1.1 | gpaulraj | 03-19-12| First drop for centaur
-// 1.2 | gpaulraj | 05-07-12| 256 group configuration in
-// 1.3 | gpaulraj | 05-22-12| 2MCS/group supported for 128GB CDIMM
+// 1.22 | gpaulraj | 10/03/12| review updates
+// 1.21 | gpaulraj | 10/02/12| review updates
+// 1.19 | bellows | 09/25/12| review updates
+// 1.18 | bellows | 09/06/12| updates suggested by Van
+// 1.17 | bellows | 08/31/12| use the final 32bit attribute
+// 1.16 | bellows | 08/29/12| remove compile error, use 32bit group info
+// | | | as a temporary fix
+// 1.10 | bellows | 07/16/12| added in Id tag
// 1.4 | bellows | 06-05-12| Updates to Match First Configuration, work for P8 and Murano
+// 1.3 | gpaulraj | 05-22-12| 2MCS/group supported for 128GB CDIMM
+// 1.2 | gpaulraj | 05-07-12| 256 group configuration in
+// 1.1 | gpaulraj | 03-19-12| First drop for centaur
//----------------------------------------------------------------------
// Includes
//----------------------------------------------------------------------
@@ -50,236 +58,303 @@
extern "C" {
-// PLAN:---
-// Parameter of the populated Dimm details for each MCS looper
-// Starts with Zero MCS base address. Identifies Dimm parameters belong to MCS
-// Configure the Group primary MCS0 Registers
-// Configure the Group seconary MCS0 Registers /// identifies it base address based on the Primary group size
-// Identify Mirror details setup accordingly
-// Set up each translation registry accordingly
-// SIM configuration
-// -------------------------|-----------------------------------|
-// ------- MCS0 ---------|-------------MCS1------------------|
-// -------------------------|-----------------------------------|
-// --- CH01 --- CH23 -----|-------- CH01 --- CH23 ----------|
-// D0- 32GB --- 32GB -----|---- D0- 32GB --- 32GB ----------|
-// D1- 32GB --- 32GB ----|-----D1- 32GB --- 32GB ---------|
-// -------------------------|-----------------------------------|
-// - Base address MCS0 - 0x0 Group Size - 128GB
-// - MCS0 - Grouping base address - 0GB Group size - 128GB
-// - MCS1 - Grouping base address - 128GB+ Group size - 128GB
-
-fapi::ReturnCode mss_setup_bars(
- const fapi::Target& i_chip_target)
-{
- fapi::ReturnCode rc;
- std::vector<fapi::Target> l_mcs_chiplets;
- ecmdDataBufferBase MCFGP_data(64);
-
- // platform attributes which define base addresses for this chip:
- uint64_t mem_base;
+ fapi::ReturnCode mss_setup_bars(
+ const fapi::Target& i_chip_target)
+ {
+ fapi::ReturnCode rc;
+ std::vector<fapi::Target> l_mcs_chiplets;
+ ecmdDataBufferBase MCFGP_data(64);
+ ecmdDataBufferBase MCFGPM_data(64);
+ ecmdDataBufferBase MCFGPA_data(64);
+ ecmdDataBufferBase MCFGPMA_data(64);
+// uint64_t mem_base;
uint64_t mirror_base;
-
- // storage for output attributes:
uint64_t mem_bases[8];
uint64_t l_memory_sizes[8];
uint64_t mirror_bases[4];
uint64_t l_mirror_sizes[4];
+ uint32_t groupID[16][16];
uint8_t groups[8];
-
do
{
+ rc = FAPI_ATTR_GET(ATTR_MSS_MCS_GROUP_32, &i_chip_target, groupID);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error reading ATTR_MSS_MCS_GROUP_32");
+ break;
+ }
+ rc = FAPI_ATTR_GET(ATTR_PROC_MEM_SIZES, &i_chip_target, l_memory_sizes);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error reading ATTR_PROC_MEM_SIZES");
+ break;
+ }
+ rc = FAPI_ATTR_GET(ATTR_PROC_MEM_BASES, &i_chip_target, mem_bases);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error reading ATTR_PROC_MEM_BASES");
+ break;
+ }
+ //base addresses for distinct non-mirrored ranges
+
//
// process non-mirrored ranges
//
// read chip base address attribute
- rc = FAPI_ATTR_GET(ATTR_PROC_MEM_BASE, &i_chip_target, mem_base);
- if (!rc.ok())
- {
- FAPI_ERR("Error reading ATTR_PROC_MEM_BASE");
- break;
- }
+ //
+ // process mirrored ranges
+ //
- // base addresses for distinct non-mirrored ranges
- mem_bases[0]=mem_base;
- mem_bases[1]=0x0;
- mem_bases[2]=0x0;
- mem_bases[3]=0x0;
- mem_bases[4]=0x0;
- mem_bases[5]=0x0;
- mem_bases[6]=0x0;
- mem_bases[7]=0x0;
+ // read chip base address attribute
+ rc = FAPI_ATTR_GET(ATTR_PROC_MIRROR_BASE, &i_chip_target, mirror_base);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error reading ATTR_PROC_MIRROR_BASE");
+ break;
+ }
- FAPI_DBG(" ATTR_PROC_MEM_BASES[0]: %016llx", mem_bases[0]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[1]: %016llx", mem_bases[1]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[2]: %016llx", mem_bases[2]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[3]: %016llx", mem_bases[3]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[4]: %016llx", mem_bases[4]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[5]: %016llx", mem_bases[5]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[6]: %016llx", mem_bases[6]);
- FAPI_DBG(" ATTR_PROC_MEM_BASES[7]: %016llx", mem_bases[7]);
+ // base addresses for distinct mirrored ranges
+ mirror_bases[0] = mirror_base;
+ mirror_bases[1] = 0x0;
+ mirror_bases[2] = 0x0;
+ mirror_bases[3] = 0x0;
+
+ FAPI_DBG(" ATTR_PROC_MIRROR_BASES[0]: %016llx", mirror_bases[0]);
+ FAPI_DBG(" ATTR_PROC_MIRROR_BASES[1]: %016llx", mirror_bases[1]);
+ FAPI_DBG(" ATTR_PROC_MIRROR_BASES[2]: %016llx", mirror_bases[2]);
+ FAPI_DBG(" ATTR_PROC_MIRROR_BASES[3]: %016llx", mirror_bases[3]);
+
+ rc = FAPI_ATTR_SET(ATTR_PROC_MIRROR_BASES, &i_chip_target, mirror_bases);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error writing ATTR_PROC_MIRROR_BASES");
+ break;
+ }
- rc = FAPI_ATTR_SET(ATTR_PROC_MEM_BASES, &i_chip_target, mem_bases);
- if (!rc.ok())
- {
- FAPI_ERR("Error writing ATTR_PROC_MEM_BASES");
- break;
- }
+ // sizes for distinct mirrored ranges
+ l_mirror_sizes[0]=0;
+ l_mirror_sizes[1]=0;
+ l_mirror_sizes[2]=0;
+ l_mirror_sizes[3]=0;
+
+ FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[0]: %016llx", l_mirror_sizes[0]);
+ FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[1]: %016llx", l_mirror_sizes[1]);
+ FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[2]: %016llx", l_mirror_sizes[2]);
+ FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[3]: %016llx", l_mirror_sizes[3]);
+
+ rc = FAPI_ATTR_SET(ATTR_PROC_MIRROR_SIZES, &i_chip_target, l_mirror_sizes);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error writing ATTR_PROC_MIRROR_SIZES");
+ break;
+ }
+ groups[0]=0x0C;
+ groups[1]=0x00;
+ groups[2]=0x00;
+ groups[3]=0x00;
+ groups[4]=0x00;
+ groups[5]=0x00;
+ groups[6]=0x00;
+ groups[7]=0x00;
+ rc = FAPI_ATTR_SET(ATTR_MSS_MEM_MC_IN_GROUP, &i_chip_target, groups);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error writing ATTR_MSS_MEM_MC_IN_GROUP");
+ break;
+ }
- // sizes for distinct non-mirrored ranges
- l_memory_sizes[0]=128ULL*0x40000000ULL;
- l_memory_sizes[1]=0x0;
- l_memory_sizes[2]=0x0;
- l_memory_sizes[3]=0x0;
- l_memory_sizes[4]=0x0;
- l_memory_sizes[5]=0x0;
- l_memory_sizes[6]=0x0;
- l_memory_sizes[7]=0x0;
+ //
+ // write HW registers
+ //
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[0]: %016llx", l_memory_sizes[0]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[1]: %016llx", l_memory_sizes[1]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[2]: %016llx", l_memory_sizes[2]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[3]: %016llx", l_memory_sizes[3]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[4]: %016llx", l_memory_sizes[4]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[5]: %016llx", l_memory_sizes[5]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[6]: %016llx", l_memory_sizes[6]);
- FAPI_DBG(" ATTR_PROC_MEM_SIZES[7]: %016llx", l_memory_sizes[7]);
+ // get child MCS chiplets
+ rc = fapiGetChildChiplets(i_chip_target,
+ fapi::TARGET_TYPE_MCS_CHIPLET,
+ l_mcs_chiplets,
+ fapi::TARGET_STATE_FUNCTIONAL);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error from fapiGetChildChiplets");
+ break;
+ }
- rc = FAPI_ATTR_SET(ATTR_PROC_MEM_SIZES, &i_chip_target, l_memory_sizes);
+ // loop through & set configuration of each child
+ for (std::vector<fapi::Target>::iterator iter = l_mcs_chiplets.begin();
+ iter != l_mcs_chiplets.end() && rc.ok();
+ iter++)
+ {
+ uint8_t mcs_pos = 0x0;
+ rc = FAPI_ATTR_GET(ATTR_CHIP_UNIT_POS, &(*iter), mcs_pos);
if (!rc.ok())
{
- FAPI_ERR("Error writing ATTR_PROC_MEM_SIZES");
- break;
+ FAPI_ERR("Error reading ATTR_CHIP_UNIT_POS");
+ break;
}
-
- //
- // process mirrored ranges
- //
-
- // read chip base address attribute
- rc = FAPI_ATTR_GET(ATTR_PROC_MIRROR_BASE, &i_chip_target, mirror_base);
+ MCFGP_data.flushTo0();
+ MCFGPM_data.flushTo0();
+ MCFGPA_data.flushTo0();
+ MCFGPMA_data.flushTo0();
+ rc = fapiGetScom(*iter, MCS_MCFGP_0x02011800, MCFGP_data);
if (!rc.ok())
{
- FAPI_ERR("Error reading ATTR_PROC_MIRROR_BASE");
- break;
+ FAPI_ERR("Error Reading MCS_MCFGP_0x02011800");
+ break;
}
-
- // base addresses for distinct mirrored ranges
- mirror_bases[0] = mirror_base;
- mirror_bases[1] = 0x0;
- mirror_bases[2] = 0x0;
- mirror_bases[3] = 0x0;
-
- FAPI_DBG(" ATTR_PROC_MIRROR_BASES[0]: %016llx", mirror_bases[0]);
- FAPI_DBG(" ATTR_PROC_MIRROR_BASES[1]: %016llx", mirror_bases[1]);
- FAPI_DBG(" ATTR_PROC_MIRROR_BASES[2]: %016llx", mirror_bases[2]);
- FAPI_DBG(" ATTR_PROC_MIRROR_BASES[3]: %016llx", mirror_bases[3]);
-
- rc = FAPI_ATTR_SET(ATTR_PROC_MIRROR_BASES, &i_chip_target, mirror_bases);
+ MCFGP_data.setBit(9);
+ MCFGP_data.setBit(10);
+ MCFGP_data.setBit(24);
+ rc = fapiPutScom(*iter, MCS_MCFGP_0x02011800, MCFGP_data);
if (!rc.ok())
{
- FAPI_ERR("Error writing ATTR_PROC_MIRROR_BASES");
- break;
+ FAPI_ERR("Error writing MCS_MCFGP_0x02011800");
+ break;
}
-
- // sizes for distinct mirrored ranges
- l_mirror_sizes[0]=0;
- l_mirror_sizes[1]=0;
- l_mirror_sizes[2]=0;
- l_mirror_sizes[3]=0;
-
- FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[0]: %016llx", l_mirror_sizes[0]);
- FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[1]: %016llx", l_mirror_sizes[1]);
- FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[2]: %016llx", l_mirror_sizes[2]);
- FAPI_DBG(" ATTR_PROC_MIRROR_SIZES[3]: %016llx", l_mirror_sizes[3]);
-
- rc = FAPI_ATTR_SET(ATTR_PROC_MIRROR_SIZES, &i_chip_target, l_mirror_sizes);
+ rc = fapiGetScom(*iter, MCS_MCFGPM_0x02011801, MCFGPM_data);
if (!rc.ok())
{
- FAPI_ERR("Error writing ATTR_PROC_MIRROR_SIZES");
- break;
- }
-
-
- //
- // process group configuration
- //
-
- groups[0]=0x0C;
- groups[1]=0x00;
- groups[2]=0x00;
- groups[3]=0x00;
- groups[4]=0x00;
- groups[5]=0x00;
- groups[6]=0x00;
- groups[7]=0x00;
- rc = FAPI_ATTR_SET(ATTR_MSS_MEM_MC_IN_GROUP, &i_chip_target, groups);
+ FAPI_ERR("Error Reading MCS_MCFGPM_0x02011801");
+ break;
+ }
+ rc = fapiGetScom(*iter, MCS_MCFGPA_0x02011814, MCFGPA_data);
if (!rc.ok())
{
- FAPI_ERR("Error writing ATTR_MSS_MEM_MC_IN_GROUP");
- break;
- }
-
-
- //
- // write HW registers
- //
-
- // get child MCS chiplets
- rc = fapiGetChildChiplets(i_chip_target,
- fapi::TARGET_TYPE_MCS_CHIPLET,
- l_mcs_chiplets,
- fapi::TARGET_STATE_FUNCTIONAL);
+ FAPI_ERR("Error Reading MCS_MCFGPA_0x02011814");
+ break;
+ }
+ rc = fapiGetScom(*iter, MCS_MCFGPMA_0x02011815, MCFGPMA_data);
if (!rc.ok())
{
- FAPI_ERR("Error from fapiGetChildChiplets");
- break;
+ FAPI_ERR("Error Reading MCS_MCFGPMA_0x02011815");
+ break;
}
-
- // loop through & set configuration of each child
- for (std::vector<fapi::Target>::iterator iter = l_mcs_chiplets.begin();
- iter != l_mcs_chiplets.end();
- iter++)
+ for(uint8_t i=0; (i<16)&&(rc.ok()); i++)
{
- uint8_t mcs_pos = 0x0;
- rc = FAPI_ATTR_GET(ATTR_CHIP_UNIT_POS, &(*iter), mcs_pos);
- if (!rc.ok())
+ uint32_t temp=0;
+ temp = groupID[i][1];
+ uint32_t b=0;
+ for(uint32_t j=4;(j<temp+4)&&(rc.ok());j++)
+ {
+ if(groupID[i][j]==mcs_pos)
{
- FAPI_ERR("Error reading ATTR_CHIP_UNIT_POS");
+ FAPI_INF(" Group ID of no MCS %d is %d MCS_POS ID found for %d as %d ",temp, i,mcs_pos,(j-4));
+ //temp =(temp/2;
+ MCFGP_data.insertFromRight(temp/2,1,3);
+ MCFGP_data.insertFromRight((j-4),4,5);
+
+ //b = groupID[i][2]>>3;
+ b = ((l_memory_sizes[i]>>30) / 4) - 1;
+ // switch ((l_memory_sizes[i]>>30))
+ // {
+ // case 4: b = 0;
+ // break;
+ // case 8: b = 1;
+ // break;
+ // case 16: b = 3;
+ // l break;
+ // case 32: b = 7;
+ // break;
+ // case 64: b = 15;
+ // break;
+ // case 128: b = 31;
+ // break;
+ // case 256: b = 63;
+ // break;
+ // case 512: b = 127;
+ // break;
+ // case 1024:b = 255;
+ // break;
+ // case 2048:b = 511;
+ // break;
+ // case 4096:b = 1023;
+ // break;
+ // case 8192:b = 2047;
+ // break;
+ // }
+ MCFGP_data.insertFromRight(b,11,13);
+ b = mem_bases[i]>>32;
+ MCFGP_data.insertFromRight(b,26,18);
+ MCFGP_data.setBit(25);
+ rc = fapiPutScom(*iter, MCS_MCFGP_0x02011800, MCFGP_data);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error writing MCS_MCFGP_0x02011800");
break;
- }
-
- // set configuration registers (static to match VBU model for now)
- if (mcs_pos == 4)
- {
- MCFGP_data.setDoubleWord(0, 0x90601FC000000000ULL);
- }
- else if (mcs_pos == 5)
- {
- MCFGP_data.setDoubleWord(0, 0x90E01FC000000000ULL);
- }
- else
- {
- MCFGP_data.setDoubleWord(0, 0x0060008000000000ULL);
- }
-
- // write MCFGP register
- FAPI_DBG("Writing MCS %d MCFGP = 0x%llx",
- mcs_pos, MCFGP_data.getDoubleWord(0));
-
- rc = fapiPutScom(*iter, MCS_MCFGP_0x02011800, MCFGP_data);
- if (!rc.ok())
- {
- FAPI_ERR("Error from fapiPutScom (MCS_MCFGP_0x02011800)");
+ }
+ rc = fapiGetScom(*iter, MCS_MCFGP_0x02011800, MCFGP_data);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error Reading MCS_MCFGP_0x02011800");
break;
+ }
+ MCFGP_data.setBit(0); // Read registers value and set Zero bit as per register specification
+ FAPI_DBG("Writing MCS %d MCFGP = 0x%llx",mcs_pos, MCFGP_data.getDoubleWord(0));
+ rc = fapiPutScom(*iter, MCS_MCFGP_0x02011800, MCFGP_data);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error from fapiPutScom MCS_MCFGP_0x02011800");
+ break;
+ }
+ if(groupID[i][12])
+ {
+ b = ((groupID[i][13]) / 4) - 1;
+// switch (groupID[i][13])
+// {
+// case 4: b = 0;
+// break;
+// case 8: b = 1;
+// break;
+// case 16: b = 3;
+// break;
+// case 32: b = 7;
+// break;
+// case 64: b = 15;
+// break;
+// case 128: b = 31;
+// break;
+// case 256: b = 63;
+// break;
+// case 512: b = 127;
+// break;
+// case 1024:b = 255;
+// break;
+// case 2048:b = 511;
+// break;
+// case 4096:b = 1023;
+// break;
+// case 8192:b = 2047;
+// break;
+// }
+ MCFGPA_data.insertFromRight(b,11,13);
+ b = groupID[i][14]>>2;
+ MCFGPA_data.insertFromRight(b,26,18);
+ rc = fapiPutScom(*iter, MCS_MCFGPA_0x02011814, MCFGPA_data);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error writing MCS_MCFGPA_0x02011814");
+ break;
+ }
+ rc = fapiGetScom(*iter, MCS_MCFGPA_0x02011814, MCFGPA_data);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error reading MCS_MCFGPA_0x02011814");
+ break;
+ }
+ MCFGPA_data.setBit(0); // Read registers value and set Zero bit as per register specification
+ rc = fapiPutScom(*iter, MCS_MCFGPA_0x02011814, MCFGPA_data);
+ if (!rc.ok())
+ {
+ FAPI_ERR("Error writing MCS_MCFGPA_0x02011814");
+ break;
+ }
+ }
}
+ }
}
- } while(0);
-
+ }
+ }
+ while(0);
return rc;
-}
-
-
+ }
} // extern "C"
diff --git a/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H b/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H
index 2affbd35f..f86879271 100644
--- a/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H
+++ b/src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H
@@ -1,26 +1,26 @@
-/* IBM_PROLOG_BEGIN_TAG
- * This is an automatically generated prolog.
- *
- * $Source: src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H $
- *
- * IBM CONFIDENTIAL
- *
- * COPYRIGHT International Business Machines Corp. 2012
- *
- * p1
- *
- * Object Code Only (OCO) source materials
- * Licensed Internal Code Source Materials
- * IBM HostBoot Licensed Internal Code
- *
- * The source code for this program is not published or other-
- * wise divested of its trade secrets, irrespective of what has
- * been deposited with the U.S. Copyright Office.
- *
- * Origin: 30
- *
- * IBM_PROLOG_END_TAG
- */
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/usr/hwpf/hwp/dram_initialization/proc_setup_bars/mss_setup_bars.H $ */
+/* */
+/* IBM CONFIDENTIAL */
+/* */
+/* COPYRIGHT International Business Machines Corp. 2012 */
+/* */
+/* p1 */
+/* */
+/* Object Code Only (OCO) source materials */
+/* Licensed Internal Code Source Materials */
+/* IBM HostBoot Licensed Internal Code */
+/* */
+/* The source code for this program is not published or otherwise */
+/* divested of its trade secrets, irrespective of what has been */
+/* deposited with the U.S. Copyright Office. */
+/* */
+/* Origin: 30 */
+/* */
+/* IBM_PROLOG_END_TAG */
+// $Id: mss_setup_bars.H,v 1.3 2012/07/17 13:23:32 bellows Exp $
//------------------------------------------------------------------------------
// *! (C) Copyright International Business Machines Corp. 2011
// *! All Rights Reserved -- Property of IBM
@@ -42,6 +42,7 @@
// Version:| Author: | Date: | Comment:
//---------|----------|---------|-----------------------------------------------
// 1.1 | gpaulraj | 03/19/12| Updated
+// 1.3 | bellows | 07/16/12| added in Id tag
#ifndef MSS_SETUP_BARS_H_
#define MSS_SETUP_BARS_H_
diff --git a/src/usr/hwpf/hwp/include/common_scom_addresses.H b/src/usr/hwpf/hwp/include/common_scom_addresses.H
index e264dc53c..e13c4ce5b 100755
--- a/src/usr/hwpf/hwp/include/common_scom_addresses.H
+++ b/src/usr/hwpf/hwp/include/common_scom_addresses.H
@@ -1,27 +1,26 @@
-/* IBM_PROLOG_BEGIN_TAG
- * This is an automatically generated prolog.
- *
- * $Source: src/usr/hwpf/hwp/include/common_scom_addresses.H $
- *
- * IBM CONFIDENTIAL
- *
- * COPYRIGHT International Business Machines Corp. 2012
- *
- * p1
- *
- * Object Code Only (OCO) source materials
- * Licensed Internal Code Source Materials
- * IBM HostBoot Licensed Internal Code
- *
- * The source code for this program is not published or other-
- * wise divested of its trade secrets, irrespective of what has
- * been deposited with the U.S. Copyright Office.
- *
- * Origin: 30
- *
- * IBM_PROLOG_END_TAG
- */
-// $Id: common_scom_addresses.H,v 1.22 2012/07/24 15:52:06 koenig Exp $
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/usr/hwpf/hwp/include/common_scom_addresses.H $ */
+/* */
+/* IBM CONFIDENTIAL */
+/* */
+/* COPYRIGHT International Business Machines Corp. 2012 */
+/* */
+/* p1 */
+/* */
+/* Object Code Only (OCO) source materials */
+/* Licensed Internal Code Source Materials */
+/* IBM HostBoot Licensed Internal Code */
+/* */
+/* The source code for this program is not published or otherwise */
+/* divested of its trade secrets, irrespective of what has been */
+/* deposited with the U.S. Copyright Office. */
+/* */
+/* Origin: 30 */
+/* */
+/* IBM_PROLOG_END_TAG */
+// $Id: common_scom_addresses.H,v 1.30 2012/09/13 19:55:40 mfred Exp $
// $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/p8/working/procedures/common_scom_addresses.H,v $
//------------------------------------------------------------------------------
// *! (C) Copyright International Business Machines Corp. 2011
@@ -176,6 +175,11 @@ CONST_UINT64_T( GENERIC_GP3_OR_0x000F0014 , ULL(0x000F0014) );
CONST_UINT64_T( GENERIC_PMGP0_OR_0x000F0102 , ULL(0x000F0102) );
//------------------------------------------------------------------------------
+// GENERIC PLLLOCK REG
+//------------------------------------------------------------------------------
+CONST_UINT64_T( GENERIC_PLLLOCKREG_0x000F0019 , ULL(0x000F0019) );
+
+//------------------------------------------------------------------------------
// GENERIC HANG PULSE CONTROL
//------------------------------------------------------------------------------
CONST_UINT64_T( GENERIC_HANG_P0_0x000F0020 , ULL(0x000F0020) );
@@ -203,6 +207,14 @@ CONST_UINT32_T( CFAM_FSI_GP7_0x00001016 , ULL(0x00001016) );
CONST_UINT32_T( CFAM_FSI_GP8_0x00001017 , ULL(0x00001017) );
CONST_UINT32_T( CFAM_FSI_GP3_MIRROR_0x0000101B , ULL(0x0000101B) );
+CONST_UINT32_T( CFAM_FSI_GP3_0x00002812 , ULL(0x00002812) );
+CONST_UINT32_T( CFAM_FSI_GP4_0x00002813 , ULL(0x00002813) );
+CONST_UINT32_T( CFAM_FSI_GP5_0x00002814 , ULL(0x00002814) );
+CONST_UINT32_T( CFAM_FSI_GP6_0x00002815 , ULL(0x00002815) );
+CONST_UINT32_T( CFAM_FSI_GP7_0x00002816 , ULL(0x00002816) );
+CONST_UINT32_T( CFAM_FSI_GP8_0x00002817 , ULL(0x00002817) );
+CONST_UINT32_T( CFAM_FSI_GP3_MIRROR_0x0000281B , ULL(0x0000281B) );
+
//------------------------------------------------------------------------------
// OTPROM
//------------------------------------------------------------------------------
@@ -251,11 +263,14 @@ CONST_UINT64_T( MBOX_GP3MIR_0x0005001B , ULL(0x0005001B) );
CONST_UINT64_T( MBOX_SBEVITAL_0x0005001C , ULL(0x0005001C) );
CONST_UINT64_T( MBOX_SCRATCH_REG0_0x00050038 , ULL(0x00050038) );
CONST_UINT64_T( MBOX_SCRATCH_REG1_0x00050039 , ULL(0x00050039) );
+CONST_UINT64_T( MBOX_SCRATCH_REG2_0x0005003A , ULL(0x0005003A) );
+CONST_UINT64_T( MBOX_SCRATCH_REG3_0x0005003B , ULL(0x0005003B) );
//------------------------------------------------------------------------------
// TP ADDITIONAL REGISTER
//------------------------------------------------------------------------------
CONST_UINT64_T( TP_PLL_LOCK_0x010F0019 , ULL(0x010F0019) );
+CONST_UINT64_T( TP_CLK_ADJ_SET_0x010F0016 , ULL(0x010F0016) );
//------------------------------------------------------------------------------
@@ -447,16 +462,10 @@ CONST_UINT64_T( WRITE_ALL_GP0_OR_0x6B000005 , ULL(0x6B000005) );
CONST_UINT64_T( READ_ALL_GP1_AND_0x4B000001 , ULL(0x4B000001) ); // and all GP1 but not PRV
-CONST_UINT64_T( WRITE_EX_GP3_AND_0x690F0013 , ULL(0x690F0013) ); // and all EX GP3
-CONST_UINT64_T( WRITE_EX_GP3_OR_0x690F0014 , ULL(0x690F0014) ); // or all EX GP3
-
-
-CONST_UINT64_T( WRITE_EX_PMGP0_OR_0x690F0102 , ULL(0x690F0102) ); // or all EX PMGP0
-
CONST_UINT64_T( WRITE_ALL_CLK_REGION_0x6B030006 , ULL(0x6B030006) ); // all GP3 but not PRV
-CONST_UINT64_T( READ_ALL_OPCG_CNTL0_0x43030002 , ULL(0x43030002) ); // all EX OPCG0
-CONST_UINT64_T( WRITE_ALL_OPCG_CNTL0_0x6B030002 , ULL(0x6B030002) ); // all EX OPCG0
+CONST_UINT64_T( READ_ALL_OPCG_CNTL0_0x43030002 , ULL(0x43030002) ); // all OPCG0 but not PRV
+CONST_UINT64_T( WRITE_ALL_OPCG_CNTL0_0x6B030002 , ULL(0x6B030002) ); // all OPCG0 but not PRV
CONST_UINT64_T( READ_ALL_OPCG_CNTL2_0x43030004 , ULL(0x43030004) ); // all OPCG2 but not PRV
CONST_UINT64_T( WRITE_ALL_OPCG_CNTL2_0x6B030004 , ULL(0x6B030004) ); // all OPCG2 but not PRV
@@ -498,6 +507,8 @@ CONST_UINT64_T( READ_ALL_PCB_SLAVE_ATTN_INT_0x500F001A , ULL(0x500F001A) ); //
CONST_UINT64_T( READ_ALL_PCB_SLAVE_RECOV_INT_0x500F001B , ULL(0x500F001B) ); // group0: all chiplets
CONST_UINT64_T( READ_ALL_PCB_SLAVE_XSTOP_INT_0x500F001C , ULL(0x500F001C) ); // group0: all chiplets
+CONST_UINT64_T( WRITE_ALL_GP0_OR_0x68000005 , ULL(0x68000005) ); // group0: all chiplets
+
CONST_UINT64_T( WRITE_ALL_FUNC_GP0_0x6B000000 , ULL(0x6B000000) ); // group3: all except PRV: GP0
CONST_UINT64_T( WRITE_ALL_FUNC_GP1_0x6B000001 , ULL(0x6B000001) ); // group3: all except PRV: GP1
CONST_UINT64_T( WRITE_ALL_FUNC_GP2_0x6B000002 , ULL(0x6B000002) ); // group3: all except PRV: GP2
@@ -573,6 +584,30 @@ This section is automatically updated by CVS when you check in this file.
Be sure to create CVS comments when you commit so that they can be included here.
$Log: common_scom_addresses.H,v $
+Revision 1.30 2012/09/13 19:55:40 mfred
+Move group 1 multicast definitions (EX chiplet) to p8_scom_addresses.H.
+
+Revision 1.29 2012/09/13 19:42:43 mfred
+fix misleading comment.
+
+Revision 1.28 2012/09/12 17:10:18 jmcgill
+add remainder of mailbox scratch registers
+
+Revision 1.27 2012/08/17 16:46:50 mfred
+Committing common PLL lock address for EX cores.
+
+Revision 1.26 2012/08/16 13:06:19 gweber
+added remaining CFAM-addresses 28xx
+
+Revision 1.25 2012/08/11 22:20:37 jmcgill
+add multicast GP0 OR address (all chiplets)
+
+Revision 1.24 2012/08/08 13:28:18 gweber
+added CFAM-addresses 28xx
+
+Revision 1.23 2012/08/07 09:09:43 koenig
+Added TP skewadjust register - AK
+
Revision 1.22 2012/07/24 15:52:06 koenig
Added EX GP3 OR codepoint - AK
diff --git a/src/usr/hwpf/hwp/include/p8_scom_addresses.H b/src/usr/hwpf/hwp/include/p8_scom_addresses.H
index 96875564b..280aa860d 100755
--- a/src/usr/hwpf/hwp/include/p8_scom_addresses.H
+++ b/src/usr/hwpf/hwp/include/p8_scom_addresses.H
@@ -1,27 +1,26 @@
-/* IBM_PROLOG_BEGIN_TAG
- * This is an automatically generated prolog.
- *
- * $Source: src/usr/hwpf/hwp/include/p8_scom_addresses.H $
- *
- * IBM CONFIDENTIAL
- *
- * COPYRIGHT International Business Machines Corp. 2012
- *
- * p1
- *
- * Object Code Only (OCO) source materials
- * Licensed Internal Code Source Materials
- * IBM HostBoot Licensed Internal Code
- *
- * The source code for this program is not published or other-
- * wise divested of its trade secrets, irrespective of what has
- * been deposited with the U.S. Copyright Office.
- *
- * Origin: 30
- *
- * IBM_PROLOG_END_TAG
- */
-// $Id: p8_scom_addresses.H,v 1.82 2012/06/27 07:43:32 rkoester Exp $
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/usr/hwpf/hwp/include/p8_scom_addresses.H $ */
+/* */
+/* IBM CONFIDENTIAL */
+/* */
+/* COPYRIGHT International Business Machines Corp. 2012 */
+/* */
+/* p1 */
+/* */
+/* Object Code Only (OCO) source materials */
+/* Licensed Internal Code Source Materials */
+/* IBM HostBoot Licensed Internal Code */
+/* */
+/* The source code for this program is not published or otherwise */
+/* divested of its trade secrets, irrespective of what has been */
+/* deposited with the U.S. Copyright Office. */
+/* */
+/* Origin: 30 */
+/* */
+/* IBM_PROLOG_END_TAG */
+// $Id: p8_scom_addresses.H,v 1.105 2012/09/26 17:53:25 jklazyns Exp $
// $Source: /afs/awd/projects/eclipz/KnowledgeBase/.cvsroot/eclipz/chips/p8/working/procedures/p8_scom_addresses.H,v $
//------------------------------------------------------------------------------
// *! (C) Copyright International Business Machines Corp. 2011
@@ -114,11 +113,22 @@ CONST_UINT64_T( ALL_CHIPLETS_BITX_0x50000000 , ULL(0x50000000) );
CONST_UINT64_T( ALL_CHIPLETS_COMP_0x60000000 , ULL(0x60000000) );
CONST_UINT64_T( ALL_CHIPLETS_WRITE_0x68000000 , ULL(0x68000000) );
+// Group 1 : EX chiplets
CONST_UINT64_T( ALL_EXS_OR_0x41000000 , ULL(0x41000000) );
CONST_UINT64_T( ALL_EXS_AND_0x49000000 , ULL(0x49000000) );
CONST_UINT64_T( ALL_EXS_BITX_0x51000000 , ULL(0x51000000) );
CONST_UINT64_T( ALL_EXS_COMP_0x61000000 , ULL(0x61000000) );
CONST_UINT64_T( ALL_EXS_WRITE_0x69000000 , ULL(0x69000000) );
+CONST_UINT64_T( WRITE_ALL_EXS_GP0_AND_0x69000004 , ULL(0x69000004) );
+CONST_UINT64_T( WRITE_ALL_EXS_GP0_OR_0x69000005 , ULL(0x69000005) );
+CONST_UINT64_T( WRITE_ALL_EXS_CLK_REGION_0x69030006 , ULL(0x69030006) );
+CONST_UINT64_T( WRITE_ALL_EXS_CLK_SCANSEL_0x69030007 , ULL(0x69030007) );
+CONST_UINT64_T( READ_OR_ALL_EXS_CLK_STATUS_0x41030008 , ULL(0x41030008) );
+CONST_UINT64_T( WRITE_ALL_EXS_GP3_AND_0x690F0013 , ULL(0x690F0013) );
+CONST_UINT64_T( WRITE_ALL_EXS_GP3_OR_0x690F0014 , ULL(0x690F0014) );
+CONST_UINT64_T( WRITE_EX_GP3_AND_0x690F0013 , ULL(0x690F0013) ); // and all EX GP3
+CONST_UINT64_T( WRITE_EX_GP3_OR_0x690F0014 , ULL(0x690F0014) ); // or all EX GP3
+CONST_UINT64_T( WRITE_EX_PMGP0_OR_0x690F0102 , ULL(0x690F0102) ); // or all EX PMGP0
CONST_UINT64_T( ALL_CORES_OR_0x42000000 , ULL(0x42000000) );
CONST_UINT64_T( ALL_CORES_AND_0x4A000000 , ULL(0x4A000000) );
@@ -132,10 +142,32 @@ CONST_UINT64_T( ALL_CORES_WRITE_0x6A000000 , ULL(0x6A000000) );
/******************************************************************************/
//------------------------------------------------------------------------------
+// FSI MBOX (CFAM)
+//------------------------------------------------------------------------------
+CONST_UINT64_T( MBOX_SCRATCH_REG0_0x00002838 , ULL(0x00002838) );
+CONST_UINT64_T( MBOX_SCRATCH_REG1_0x00002839 , ULL(0x00002839) );
+CONST_UINT64_T( MBOX_SCRATCH_REG2_0x0000283A , ULL(0x0000283A) );
+CONST_UINT64_T( MBOX_SCRATCH_REG3_0x0000283B , ULL(0x0000283B) );
+
+//------------------------------------------------------------------------------
// OTPROM
//------------------------------------------------------------------------------
-CONST_UINT64_T( ECID_PART_0_0x00018000 , ULL(0x00018000) );
-CONST_UINT64_T( ECID_PART_1_0x00018001 , ULL(0x00018001) );
+CONST_UINT64_T( SECURITY_SWITCH_0x00010005 , ULL(0x00010005) );
+CONST_UINT64_T( ECID_PART_0_0x00018000 , ULL(0x00018000) );
+CONST_UINT64_T( ECID_PART_1_0x00018001 , ULL(0x00018001) );
+
+//------------------------------------------------------------------------------
+// Time of Day (TOD)
+//------------------------------------------------------------------------------
+CONST_UINT64_T( TOD_FSM_REG_00040024 , ULL(0x00040024) );
+
+
+//------------------------------------------------------------------------------
+// SBE VITAL REG
+//------------------------------------------------------------------------------
+CONST_UINT64_T( PORE_SBE_VITAL_0x0005001C , ULL(0x0005001C) );
+
+
//------------------------------------------------------------------------------
// PORE-GPE0
@@ -299,6 +331,15 @@ CONST_UINT64_T( OCB3_UNTRUSTED_CONTROL_0x0006A237 , ULL(0x0006A237) );
CONST_UINT64_T( OCB3_LIN_WINDOW_CONTROL_0x0006A238 , ULL(0x0006A238) );
CONST_UINT64_T( OCB3_LIN_WINDOW_BASE_0x0006A23C , ULL(0x0006A23C) );
+CONST_UINT64_T( OCC_LFIR_0x01010800 , ULL(0x01010800) );
+CONST_UINT64_T( OCC_LFIR_AND_0x01010801 , ULL(0x01010801) );
+CONST_UINT64_T( OCC_LFIR_OR_0x01010802 , ULL(0x01010802) );
+CONST_UINT64_T( OCC_LFIR_MASK_0x01010803 , ULL(0x01010803) );
+CONST_UINT64_T( OCC_LFIR_MASK_AND_0x01010804 , ULL(0x01010804) );
+CONST_UINT64_T( OCC_LFIR_MASK_OR_0x01010805 , ULL(0x01010805) );
+CONST_UINT64_T( OCC_LFIR_ACT0_0x01010806 , ULL(0x01010806) );
+CONST_UINT64_T( OCC_LFIR_ACT1_0x01010807 , ULL(0x01010807) );
+
// sram registers
CONST_UINT64_T( OCC_SRAM_BOOT_VEC0_0x00066004 , ULL(0x00066004) );
CONST_UINT64_T( OCC_SRAM_BOOT_VEC1_0x00066005 , ULL(0x00066005) );
@@ -308,11 +349,17 @@ CONST_UINT64_T( OCC_SRAM_BOOT_VEC3_0x00066007 , ULL(0x00066007) );
//------------------------------------------------------------------------------
// PMC
//------------------------------------------------------------------------------
-// todo: the full set needs to be added. The ones below are for SLW at this time
// PIB Space Addresses
-
+CONST_UINT64_T( PMC_MODE_REG_0x00062000 , ULL(0x00062000) );
+CONST_UINT64_T( PMC_PSTATE_MONITOR_AND_CTRL_REG_0x00062002, ULL(0x00062002)) ;
+CONST_UINT64_T( PMC_PARAMETER_REG1_0x00062006 , ULL(0x00062006))
+CONST_UINT64_T( PMC_STATUS_REG_0x00062009 , ULL(0x00062009)) ;
+CONST_UINT64_T( PMC_OCC_HEARTBEAT_REG_0x00062066 , ULL(0x00062066)) ;
+CONST_UINT64_T( PMC_CORE_DECONFIG_REG_0x0006200D , ULL(0x0006200D) );
+CONST_UINT64_T( PMC_FSMSTATE_STATUS_REG_0x00062000 , ULL(0x00062020) );
+// SPIVID Controller
CONST_UINT64_T( PMC_SPIV_CTRL_REG0A_0x00062040 , ULL(0x00062040) );
CONST_UINT64_T( PMC_SPIV_CTRL_REG0B_0x00062041 , ULL(0x00062041) );
CONST_UINT64_T( PMC_SPIV_CTRL_REG1_0x00062042 , ULL(0x00062042) );
@@ -321,8 +368,7 @@ CONST_UINT64_T( PMC_SPIV_CTRL_REG3_0x00062044 , ULL(0x00062044) );
CONST_UINT64_T( PMC_SPIV_CTRL_REG4_0x00062045 , ULL(0x00062045) );
CONST_UINT64_T( PMC_SPIV_STATUS_REG_0x00062046 , ULL(0x00062046) );
CONST_UINT64_T( PMC_SPIV_COMMAND_REG_0x00062047 , ULL(0x00062047) );
-
-
+// OCI to SPI (O2S)
CONST_UINT64_T( PMC_O2S_CTRL_REG0A_0x00062050 , ULL(0x00062050) );
CONST_UINT64_T( PMC_O2S_CTRL_REG0B_0x00062051 , ULL(0x00062051) );
CONST_UINT64_T( PMC_O2S_CTRL_REG1_0x00062052 , ULL(0x00062052) );
@@ -332,13 +378,17 @@ CONST_UINT64_T( PMC_O2S_STATUS_REG_0x00062056 , ULL(0x00062056) );
CONST_UINT64_T( PMC_O2S_COMMAND_REG_0x00062057 , ULL(0x00062057) );
CONST_UINT64_T( PMC_O2S_WDATA_REG_0x00062058 , ULL(0x00062058) );
CONST_UINT64_T( PMC_O2S_RDATA_REG_0x00062059 , ULL(0x00062059) );
-
+// PORE interface
CONST_UINT64_T( PMC_PORE_REQ_STAT_REG_0x00062090 , ULL(0x00062090) );
-CONST_UINT64_T( PMC_MODE_REG_0x00062000 , ULL(0x00062000) );
+// OCI Space Addresses
+CONST_UINT32_T( OCI_PMC_PORE_REQ_STAT_REG_0x40010480 , ULL(0x40010480) );
+//------------------------------------------------------------------------------
+// SPIADC
+//------------------------------------------------------------------------------
CONST_UINT64_T( SPIPSS_ADC_CTRL_REG0_0x00070000 , ULL(0x00070000) );
CONST_UINT64_T( SPIPSS_ADC_CTRL_REG1_0x00070001 , ULL(0x00070001) );
CONST_UINT64_T( SPIPSS_ADC_CTRL_REG2_0x00070002 , ULL(0x00070002) );
@@ -360,21 +410,10 @@ CONST_UINT64_T( SPIPSS_P2S_RDATA_REG_0x00070060 , ULL(0x00070060) );
CONST_UINT64_T( SPIPSS_ADC_RESET_REGISTER_0x00070005 , ULL(0x00070005) );
CONST_UINT64_T( SPIPSS_P2S_RESET_REGISTER_0x00070045 , ULL(0x00070045) );
-
-// OCI Space Addresses
-CONST_UINT32_T( OCI_PMC_PORE_REQ_STAT_REG_0x40010480 , ULL(0x40010480) );
-
-
-//------------------------------------------------------------------------------
-// SPIADC
-//------------------------------------------------------------------------------
-CONST_UINT64_T( SPIADC_0x00070000 , ULL(0x00070000) );
-
//------------------------------------------------------------------------------
// PIB-ATTACHED MEMORY
//------------------------------------------------------------------------------
CONST_UINT64_T( PIBMEM0_0x00080000 , ULL(0x00080000) );
-
CONST_UINT64_T( PIBMEM_CONTROL_0x00088000 , ULL(0x00088000) );
CONST_UINT64_T( PIBMEM_ADDRESS_0x00088001 , ULL(0x00088001) );
CONST_UINT64_T( PIBMEM_DATA_0x00088002 , ULL(0x00088002) );
@@ -385,6 +424,12 @@ CONST_UINT64_T( PIBMEM_RESET_0x00088006 , ULL(0x00088006) );
CONST_UINT64_T( PIBMEM_REPAIR_LOAD_0x00088007 , ULL(0x00088007) );
//------------------------------------------------------------------------------
+// I2C MASTER (MODE)
+//------------------------------------------------------------------------------
+CONST_UINT64_T( I2CM_MODE_REGISTER_0_0x000A0006 , ULL(0x000A0006) );
+
+
+//------------------------------------------------------------------------------
// I2C MASTER (MEMS1)
//------------------------------------------------------------------------------
CONST_UINT64_T( I2CMS_MEMS1_CONTROL_0x000A0020 , ULL(0x000A0020) );
@@ -404,6 +449,29 @@ CONST_UINT64_T( I2CMS_PCI_DATA_0x000A0043 , ULL(0x000A0043) );
CONST_UINT64_T( I2CMS_PCI_COMMAND_0x000A0045 , ULL(0x000A0045) );
//------------------------------------------------------------------------------
+// LPC
+//------------------------------------------------------------------------------
+CONST_UINT64_T( LPC_CONTROL_0x000B0000 , ULL(0x000B0000) );
+CONST_UINT64_T( LPC_RESET_0x000B0001 , ULL(0x000B0001) );
+CONST_UINT64_T( LPC_STATUS_0x000B0002 , ULL(0x000B0002) );
+CONST_UINT64_T( LPC_DATA_0x000B0003 , ULL(0x000B0003) );
+CONST_UINT64_T( LPC_ECC_ADDRESS_0x000B0004 , ULL(0x000B0004) );
+CONST_UINT64_T( LPC_I2C_ADDRESS_0x000B0005 , ULL(0x000B0005) );
+CONST_UINT64_T( LPC_FW_CONTROL_0x000B0020 , ULL(0x000B0020) );
+CONST_UINT64_T( LPC_FW_RESET_0x000B0021 , ULL(0x000B0021) );
+CONST_UINT64_T( LPC_FW_STATUS_0x000B0022 , ULL(0x000B0022) );
+CONST_UINT64_T( LPC_FW_DATA_0x000B0023 , ULL(0x000B0023) );
+
+//------------------------------------------------------------------------------
+// PORE_ECCB
+//------------------------------------------------------------------------------
+
+CONST_UINT64_T( PORE_ECCB_CONTROL_REGISTER_0x000C0000 , ULL(0x000C0000) );
+CONST_UINT64_T( PORE_ECCB_STATUS_REGISTER_READ_0x000C0002, ULL(0x000C0002) );
+CONST_UINT64_T( PORE_ECCB_DATA_REGISTER_0x000C0003 , ULL(0x000C0003) );
+
+
+//------------------------------------------------------------------------------
// PORE-SBE
//------------------------------------------------------------------------------
CONST_UINT64_T( PORE_SBE_0x000E0000 , ULL(0x000E0000) );
@@ -559,24 +627,51 @@ CONST_UINT64_T( PBA_BARMSK3_0x02013F07 , ULL(0x02013F07) );
CONST_UINT64_T( PBA_TRUSTMODE_0x02013F08 , ULL(0x02013F08) );
//------------------------------------------------------------------------------
+// PBAX
+//------------------------------------------------------------------------------
+CONST_UINT64_T( PBAXSNDTX_00064020 , ULL(0x00064020) );
+CONST_UINT64_T( PBAXCFG_00064021 , ULL(0x00064021) );
+CONST_UINT64_T( PBAXSHBR0_00064026 , ULL(0x00064026) );
+CONST_UINT64_T( PBAXSHBR1_0006402A , ULL(0x0006402A) );
+
+//------------------------------------------------------------------------------
// PSI
//------------------------------------------------------------------------------
+CONST_UINT64_T( PSI_TXCSR_0x02010800 , ULL(0x02010800) );
+CONST_UINT64_T( PSI_RXCSR_0x02010808 , ULL(0x02010808) );
+CONST_UINT64_T( PSI_TXCIAR_0x02010810 , ULL(0x02010810) );
+CONST_UINT64_T( PSI_TXCMISC_0x02010813 , ULL(0x02010813) );
+CONST_UINT64_T( PSI_RXCIAR_0x02010818 , ULL(0x02010818) );
+CONST_UINT64_T( PSI_RXCMISC_0x0201081B , ULL(0x0201081B) );
CONST_UINT64_T( PSI_BRIDGE_BAR_0x0201090A , ULL(0x0201090A) );
CONST_UINT64_T( PSI_FSP_BAR_0x0201090B , ULL(0x0201090B) );
CONST_UINT64_T( PSI_FSP_MMR_0x0201090C , ULL(0x0201090C) );
CONST_UINT64_T( PSI_BRIDGE_STATUS_CTL_0x0201090E , ULL(0x0201090E) );
+CONST_UINT64_T( PSI_BRIDGE_STATUS_CTL_OR_0x02010912 , ULL(0x02010912) );
+
+CONST_UINT64_T( PSI_NOTRUST_BAR0_0x02013F40 , ULL(0x02013F40) );
+CONST_UINT64_T( PSI_NOTRUST_BAR1_0x02013F41 , ULL(0x02013F41) );
+CONST_UINT64_T( PSI_NOTRUST_BAR0_MASK_0x02013F42 , ULL(0x02013F42) );
+CONST_UINT64_T( PSI_NOTRUST_BAR1_MASK_0x02013F43 , ULL(0x02013F43) );
+
+
+//------------------------------------------------------------------------------
+// HCA
+//------------------------------------------------------------------------------
+CONST_UINT64_T( HCA_MODE_0x0201094F , ULL(0x0201094F) );
//------------------------------------------------------------------------------
// INTERRUPT CONTROL PRESENTER (ICP)
//------------------------------------------------------------------------------
CONST_UINT64_T( ICP_BAR_0x020109CA , ULL(0x020109CA) );
+CONST_UINT64_T( ICP_SYNC_MODE_REG0_0x020109CB , ULL(0x020109CB) );
CONST_UINT64_T( ICP_INTR_INJECT_0x020109CC , ULL(0x020109CC) );
//------------------------------------------------------------------------------
// NEST PB EH
//------------------------------------------------------------------------------
-// registers with multiple physical/shadow copies (all must be configured consistently)
+// registers with multiple physical/shadow copies
// west
CONST_UINT64_T( PB_MODE_WEST_0x02010C0A , ULL(0x02010C0A) );
CONST_UINT64_T( PB_HP_MODE_NEXT_WEST_0x02010C0B , ULL(0x02010C0B) );
@@ -587,6 +682,7 @@ CONST_UINT64_T( PB_FLMCFG0_WEST_0x02010C12 , ULL(0x02010C12) );
CONST_UINT64_T( PB_FLMCFG1_WEST_0x02010C13 , ULL(0x02010C13) );
CONST_UINT64_T( PB_FRMCFG0_WEST_0x02010C14 , ULL(0x02010C14) );
CONST_UINT64_T( PB_FRMCFG1_WEST_0x02010C15 , ULL(0x02010C15) );
+CONST_UINT64_T( PB_SCONFIG_LOAD_WEST_0x02010C16 , ULL(0x02010C16) );
// center
CONST_UINT64_T( PB_MODE_CENT_0x02010C4A , ULL(0x02010C4A) );
CONST_UINT64_T( PB_HP_MODE_NEXT_CENT_0x02010C4B , ULL(0x02010C4B) );
@@ -597,6 +693,7 @@ CONST_UINT64_T( PB_FLMCFG0_CENT_0x02010C5E , ULL(0x02010C5E) );
CONST_UINT64_T( PB_FLMCFG1_CENT_0x02010C5F , ULL(0x02010C5F) );
CONST_UINT64_T( PB_FRMCFG0_CENT_0x02010C60 , ULL(0x02010C60) );
CONST_UINT64_T( PB_FRMCFG1_CENT_0x02010C61 , ULL(0x02010C61) );
+CONST_UINT64_T( PB_SCONFIG_LOAD_CENT_0x02010C6D , ULL(0x02010C6D) );
// east
CONST_UINT64_T( PB_MODE_EAST_0x02010C8A , ULL(0x02010C8A) );
CONST_UINT64_T( PB_HP_MODE_NEXT_EAST_0x02010C8B , ULL(0x02010C8B) );
@@ -607,6 +704,7 @@ CONST_UINT64_T( PB_FLMCFG0_EAST_0x02010C92 , ULL(0x02010C92) );
CONST_UINT64_T( PB_FLMCFG1_EAST_0x02010C93 , ULL(0x02010C93) );
CONST_UINT64_T( PB_FRMCFG0_EAST_0x02010C94 , ULL(0x02010C94) );
CONST_UINT64_T( PB_FRMCFG1_EAST_0x02010C95 , ULL(0x02010C95) );
+CONST_UINT64_T( PB_SCONFIG_LOAD_EAST_0x02010C96 , ULL(0x02010C96) );
// registers without shadow copies
// center
@@ -625,12 +723,12 @@ CONST_UINT64_T( PB_RGMCFG10_0x02010C5A , ULL(0x02010C5A) );
CONST_UINT64_T( PB_RGMCFGM00_0x02010C5B , ULL(0x02010C5B) );
CONST_UINT64_T( PB_RGMCFGM01_0x02010C5C , ULL(0x02010C5C) );
CONST_UINT64_T( PB_RGMCFGM10_0x02010C5D , ULL(0x02010C5D) );
-CONST_UINT64_T( PB_GP_CMD_RATE_DP0_0x02010C62 , ULL(0x02010C62) );
-CONST_UINT64_T( PB_GP_CMD_RATE_DP1_0x02010C63 , ULL(0x02010C63) );
-CONST_UINT64_T( PB_RGP_CMD_RATE_DP0_0x02010C64 , ULL(0x02010C64) );
-CONST_UINT64_T( PB_RGP_CMD_RATE_DP1_0x02010C65 , ULL(0x02010C65) );
-CONST_UINT64_T( PB_SP_CMD_RATE_DP0_0x02010C66 , ULL(0x02010C66) );
-CONST_UINT64_T( PB_SP_CMD_RATE_DP1_0x02010C67 , ULL(0x02010C67) );
+CONST_UINT64_T( PB_GP_CMD_RATE_DP_LO_0x02010C62 , ULL(0x02010C62) );
+CONST_UINT64_T( PB_GP_CMD_RATE_DP_HI_0x02010C63 , ULL(0x02010C63) );
+CONST_UINT64_T( PB_RGP_CMD_RATE_DP_LO_0x02010C64 , ULL(0x02010C64) );
+CONST_UINT64_T( PB_RGP_CMD_RATE_DP_HI_0x02010C65 , ULL(0x02010C65) );
+CONST_UINT64_T( PB_SP_CMD_RATE_DP_LO_0x02010C66 , ULL(0x02010C66) );
+CONST_UINT64_T( PB_SP_CMD_RATE_DP_HI_0x02010C67 , ULL(0x02010C67) );
CONST_UINT64_T( PB_EVENT_TRACE_0x02010C68 , ULL(0x02010C68) );
CONST_UINT64_T( PB_EVENT_COMPA_0x02010C69 , ULL(0x02010C69) );
CONST_UINT64_T( PB_EVENT_COMPB_0x02010C6A , ULL(0x02010C6A) );
@@ -682,9 +780,20 @@ CONST_UINT64_T( PB_RAS_FIR_ACTION1_0x02010C73 , ULL(0x02010C73) );
CONST_UINT64_T( PB_PLLLOCKREG_0x020F0019 , ULL(0x020F0019) );
//------------------------------------------------------------------------------
+// CAPP
+//------------------------------------------------------------------------------
+CONST_UINT64_T( CAPP_APC_MASTER_PB_CTL_0x02013018 , ULL(0x02013018) );
+CONST_UINT64_T( CAPP_CXA_SNOOP_CTL_0x0201301B , ULL(0x0201301B) );
+
+//------------------------------------------------------------------------------
// MCS
//------------------------------------------------------------------------------
CONST_UINT64_T( MCS_MCFGP_0x02011800 , ULL(0x02011800) );
+CONST_UINT64_T( MCS_MCFGPM_0x02011801 , ULL(0x02011801) );
+CONST_UINT64_T( MCS_MCFGPR_0x02011802 , ULL(0x02011802) );
+CONST_UINT64_T( MCS_MCFGPA_0x02011814 , ULL(0x02011814) );
+CONST_UINT64_T( MCS_MCFGPMA_0x02011815 , ULL(0x02011815) );
+CONST_UINT64_T( MCS_MCEPS_0x02011816 , ULL(0x02011816) );
CONST_UINT64_T( MCS_MCIFIR_0x02011840 , ULL(0x02011840) );
CONST_UINT64_T( MCS_MCIFIR_AND_0x02011841 , ULL(0x02011841) );
@@ -708,6 +817,7 @@ CONST_UINT64_T( ADU_FORCE_ECC_0x02020010 , ULL(0x02020010) );
CONST_UINT64_T( ADU_PMISC_MODE_0x0202000B , ULL(0x0202000B) );
CONST_UINT64_T( ADU_UNTRUSTED_BAR_0x02020015 , ULL(0x02020015) );
CONST_UINT64_T( ADU_UNTRUSTED_BAR_MASK_0x02020016 , ULL(0x02020016) );
+CONST_UINT64_T( ADU_TBROM_BAR_0x02020017 , ULL(0x02020017) );
//------------------------------------------------------------------------------
// PCIe
@@ -777,10 +887,12 @@ CONST_UINT64_T( NX_NEAR_BAR_F0_0x02013099 , ULL(0x02013099) );
CONST_UINT64_T( NX_FAR_BAR_F0_0x0201309A , ULL(0x0201309A) );
CONST_UINT64_T( NX_NEAR_BAR_F1_0x0201309B , ULL(0x0201309B) );
CONST_UINT64_T( NX_FAR_BAR_F1_0x0201309C , ULL(0x0201309C) );
+CONST_UINT64_T( NX_CQ_EPS_0x0201309D , ULL(0x0201309D) );
//------------------------------------------------------------------------------
// MCD
//------------------------------------------------------------------------------
+CONST_UINT64_T( MCD_PRE_EPS_0x0201340B , ULL(0x0201340B) );
CONST_UINT64_T( MCD_CN00_0x0201340C , ULL(0x0201340C) );
CONST_UINT64_T( MCD_CN01_0x0201340D , ULL(0x0201340D) );
CONST_UINT64_T( MCD_CN10_0x0201340E , ULL(0x0201340E) );
@@ -820,6 +932,18 @@ CONST_UINT64_T( X_TRACE_DATA_HI_T1_0x04010800 , ULL(0x04010800) );
CONST_UINT64_T( X_TRACE_DATA_LO_T1_0x04010801 , ULL(0x04010801) );
//------------------------------------------------------------------------------
+// X-BUS PBEN
+//------------------------------------------------------------------------------
+CONST_UINT64_T( PB_X_MODE_0x04010C0A , ULL(0x04010C0A) );
+
+//------------------------------------------------------------------------------
+// X-BUS IOPSI
+//------------------------------------------------------------------------------
+CONST_UINT64_T( X_PSI_RXCNTL_0x04012420 , ULL(0x04012420) );
+CONST_UINT64_T( X_PSI_RXSTATUS_0x04012422 , ULL(0x04012422) );
+CONST_UINT64_T( X_PSI_TXCNTL_0x04012430 , ULL(0x04012430) );
+
+//------------------------------------------------------------------------------
// X-BUS CLOCK CONTROL
//------------------------------------------------------------------------------
CONST_UINT64_T( X_OPCG_CNTL0_0x04030002 , ULL(0x04030002) );
@@ -879,11 +1003,6 @@ CONST_UINT64_T( X_PLLLOCKREG_0x040F0019 , ULL(0x040F0019) );
CONST_UINT64_T( X_HANG_P0_XBUS_0x040F0020 , ULL(0x040F0020) ); // XBUS : setup hang pulse register0
CONST_UINT64_T( X_HANG_PRE_XBUS_0x040F0028 , ULL(0x040F0028) ); // XBUS : setup hang precounter (HEX:01)
-//------------------------------------------------------------------------------
-// X-BUS PBEN
-//------------------------------------------------------------------------------
-CONST_UINT64_T( X_PB_MODE_0x04010C0A , ULL(0x04010C0A) );
-
/******************************************************************************/
/****************************** A-BUS CHIPLET *******************************/
@@ -976,8 +1095,9 @@ CONST_UINT64_T( A_HANG_PRE_0x080F0028 , ULL(0x080F0028) ); // AB
//------------------------------------------------------------------------------
// A-BUS PBES
//------------------------------------------------------------------------------
-CONST_UINT64_T( A_PB_MODE_0x0801080A , ULL(0x0801080A) );
-
+CONST_UINT64_T( PB_A_MODE_0x0801080A , ULL(0x0801080A) );
+CONST_UINT64_T( PB_A_TRACE_0x08010812 , ULL(0x08010812) );
+CONST_UINT64_T( PB_A_FMR_CFG_0x08010813 , ULL(0x08010813) );
/******************************************************************************/
/***************************** PCIE-BUS CHIPLET *****************************/
@@ -1007,6 +1127,12 @@ CONST_UINT64_T( PCIE_GP0_OR_0x09000005 , ULL(0x09000005) );
CONST_UINT64_T( PCIE_SCOM_0x09010000 , ULL(0x09010000) );
//------------------------------------------------------------------------------
+// PCIE-BUS PB
+//------------------------------------------------------------------------------
+CONST_UINT64_T( PB_F_TRACE_0x09010812 , ULL(0x09010812) );
+CONST_UINT64_T( PB_F_FMR_CFG_0x09010813 , ULL(0x09010813) );
+
+//------------------------------------------------------------------------------
// PCIE-BUS TRACE
//------------------------------------------------------------------------------
CONST_UINT64_T( PCIE_TRACE_DATA_HI_0x09010400 , ULL(0x09010400) );
@@ -1020,6 +1146,11 @@ CONST_UINT64_T( PCIE1_ASB_BAR_0x0901240B , ULL(0x0901240B) );
CONST_UINT64_T( PCIE2_ASB_BAR_0x0901280B , ULL(0x0901280B) );
//------------------------------------------------------------------------------
+// PCIE-BUS PB
+//------------------------------------------------------------------------------
+CONST_UINT64_T( PB_IOF_MODE_0x09011C0A , ULL(0x09011C0A) );
+
+//------------------------------------------------------------------------------
// PCIE-BUS CLOCK CONTROL
//------------------------------------------------------------------------------
CONST_UINT64_T( PCIE_OPCG_CNTL0_0x09030002 , ULL(0x09030002) );
@@ -1134,6 +1265,7 @@ CONST_UINT64_T( EX_GP2_0x10000002 , ULL(0x10000002) );
//L3
CONST_UINT64_T( EX_L3_MODE_REG1_0x1001080A , ULL(0x1001080A) );
CONST_UINT64_T( EX_L3_MODE_REG0_0x1001082B , ULL(0x1001082B) );
+CONST_UINT64_T( EX_L3_PRD_PURGE_REG_0x1001080E , ULL(0x1001080E) );
//L2
CONST_UINT64_T( EX_L2_FIR_REG_0x10012800 , ULL(0x10012800) );
CONST_UINT64_T( EX_L2_CERRS_REG0_0x10012815 , ULL(0x10012815) );
@@ -1238,6 +1370,7 @@ CONST_UINT64_T( EX_OHA_AISS_IO_REG_0x10020014 , UL
//------------------------------------------------------------------------------
// EX CLOCK CONTROL
//------------------------------------------------------------------------------
+CONST_UINT64_T( EX_SYNC_CONFIG_0x10030000 , ULL(0x10030000) );
CONST_UINT64_T( EX_OPCG_CNTL0_0x10030002 , ULL(0x10030002) );
CONST_UINT64_T( EX_OPCG_CNTL1_0x10030003 , ULL(0x10030003) );
CONST_UINT64_T( EX_OPCG_CNTL2_0x10030004 , ULL(0x10030004) );
@@ -1249,6 +1382,15 @@ CONST_UINT64_T( EX_CLK_STATUS_0x10030008 , ULL(0x10030008) );
//------------------------------------------------------------------------------
// EX FIR
//------------------------------------------------------------------------------
+CONST_UINT64_T( EX_CORE_FIR_0x10013100 , ULL(0x10013100) );
+CONST_UINT64_T( EX_CORE_FIR_AND_0x10013101 , ULL(0x10013101) );
+CONST_UINT64_T( EX_CORE_FIR_OR_0x10013102 , ULL(0x10013102) );
+CONST_UINT64_T( EX_CORE_FIR_MASK_0x10013103 , ULL(0x10013103) );
+CONST_UINT64_T( EX_CORE_FIR_MASK_AND_0x10013104 , ULL(0x10013104) );
+CONST_UINT64_T( EX_CORE_FIR_MASK_OR_0x10013105 , ULL(0x10013105) );
+CONST_UINT64_T( EX_CORE_FIR_ACTION0_0x10013106 , ULL(0x10013106) );
+CONST_UINT64_T( EX_CORE_FIR_ACTION1_0x10013107 , ULL(0x10013107) );
+CONST_UINT64_T( EX_CORE_FIR_WOF_0x10013108 , ULL(0x10013108) );
CONST_UINT64_T( EX_XSTOP_0x10040000 , ULL(0x10040000) );
CONST_UINT64_T( EX_RECOV_0x10040001 , ULL(0x10040001) );
CONST_UINT64_T( EX_FIR_MASK_0x10040002 , ULL(0x10040002) );
@@ -1360,6 +1502,15 @@ CONST_UINT64_T( EX15_GP3_OR_0x1F0F0014 , ULL(0x1F0F0014) );
// EX PCB SLAVE PM
//------------------------------------------------------------------------------
//Generic names (need to add in (cuTarget.chipUnitNum * 0x01000000)) when being used
+//Hang counter registers
+CONST_UINT64_T( EX_HANG_P0_0x100F0020 , ULL(0x100F0020) );
+CONST_UINT64_T( EX_HANG_P1_0x100F0021 , ULL(0x100F0021) );
+CONST_UINT64_T( EX_HANG_P2_0x100F0022 , ULL(0x100F0022) );
+CONST_UINT64_T( EX_HANG_P3_0x100F0023 , ULL(0x100F0023) );
+CONST_UINT64_T( EX_HANG_P4_0x100F0024 , ULL(0x100F0024) );
+CONST_UINT64_T( EX_HANG_P5_0x100F0025 , ULL(0x100F0025) );
+CONST_UINT64_T( EX_HANG_P6_0x100F0026 , ULL(0x100F0026) );
+CONST_UINT64_T( EX_HANG_PRE_0x100F0028 , ULL(0x100F0028) );
//PMGP0 Register
CONST_UINT64_T( EX_PMGP0_0x100F0100 , ULL(0x100F0100) );
CONST_UINT64_T( EX_PMGP0_AND_0x100F0101 , ULL(0x100F0101) );
@@ -1453,6 +1604,81 @@ This section is automatically updated by CVS when you check in this file.
Be sure to create CVS comments when you commit so that they can be included here.
$Log: p8_scom_addresses.H,v $
+Revision 1.105 2012/09/26 17:53:25 jklazyns
+
+Added EX_L3_PRD_PURGE_REG to support L3 purge procedure
+
+Revision 1.104 2012/09/26 15:11:07 jklazyns
+
+Added addresses for Core FIR, Mask, Action, and WOF
+
+Revision 1.103 2012/09/24 03:06:59 jmcgill
+add security switch register, PSI notrust BARs
+
+Revision 1.102 2012/09/21 10:54:18 stillgs
+Clean up old PMC entries
+
+Revision 1.101 2012/09/20 10:43:03 rmaier
+Added TOD_FSM_REG_00040024
+
+Revision 1.100 2012/09/15 21:26:14 jmcgill
+add cfam addresses for mailbox scratch registers
+
+Revision 1.99 2012/09/13 20:27:35 mfred
+Added some multicast group 1 addresses to the file.
+
+Revision 1.98 2012/09/13 19:54:41 mfred
+Move group 1 (ex chiplet) multicast group definitions to this file.
+
+Revision 1.97 2012/09/12 17:19:36 jmcgill
+add LPC SCOM registers
+
+Revision 1.96 2012/09/11 14:20:23 szhong
+added: SBE VITAL REG
+ I2C MASTER (MODE)
+ PORE_ECCB CONTROL REG
+ PORE_ECCB STATUS REG
+ PORE_ECCB DATA REG
+
+Revision 1.95 2012/09/04 15:40:09 jimyac
+added OCC LFIR registers
+
+Revision 1.94 2012/08/28 07:56:27 pchatnah
+updating
+
+Revision 1.93 2012/08/26 01:54:37 jmcgill
+add EX hang pulse register definitions
+
+Revision 1.92 2012/08/21 03:30:37 jmcgill
+add A/F link framer config registers
+
+Revision 1.91 2012/08/20 19:25:19 jmcgill
+add entry from ADU TBROM BAR
+
+Revision 1.90 2012/08/15 15:03:12 jmcgill
+add PB A/F link trace register addresses
+
+Revision 1.89 2012/08/11 22:21:04 jmcgill
+add addresses for proc_build_smp procedure
+
+Revision 1.88 2012/08/08 14:25:13 kgungl
+pbax updates
+
+Revision 1.87 2012/08/08 13:18:30 stillgs
+Added PMC monitoring registers
+
+Revision 1.86 2012/08/08 11:32:16 pchatnah
+updating register address for vsafe mode
+
+Revision 1.85 2012/08/06 18:35:34 karm
+added EX_SYNC_CONFIG
+
+Revision 1.84 2012/07/30 15:34:53 bellows
+Updates for set up bars
+
+Revision 1.83 2012/07/23 14:42:39 jmcgill
+add addresses needed proc_psi_init
+
Revision 1.82 2012/06/27 07:43:32 rkoester
add remaining PLLLOCK register
diff --git a/src/usr/targeting/common/xmltohb/target_types.xml b/src/usr/targeting/common/xmltohb/target_types.xml
index 29c4ab3b6..8e1d253d3 100644
--- a/src/usr/targeting/common/xmltohb/target_types.xml
+++ b/src/usr/targeting/common/xmltohb/target_types.xml
@@ -608,6 +608,7 @@
<attribute><id>EFF_NUM_DIES_PER_PACKAGE</id></attribute>
<attribute><id>MSS_SPARE_BYTE</id></attribute>
<attribute><id>MSS_EFF_DIMM_FUNCTIONAL_VECTOR</id></attribute>
+ <attribute><id>MSS_CAL_STEP_ENABLE</id></attribute>
</targetType>
<targetType>
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