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# IBM_PROLOG_BEGIN_TAG
# This is an automatically generated prolog.
#
# $Source: src/usr/diag/prdf/common/plat/pegasus/Proc.rule $
#
# OpenPOWER HostBoot Project
#
# COPYRIGHT International Business Machines Corp. 2012,2014
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied. See the License for the specific language governing
# permissions and limitations under the License.
#
# IBM_PROLOG_END_TAG
################################################################################
#
# Scope:
# Registers and actions for the following chiplets:
#
# Chiplet Register Adddresses Description
# ======= ======================= ============================================
# TP 0x01000000 - 0x01FFFFFF TP pervasive logic
# PB 0x02000000 - 0x02FFFFFF PB pervasive logic, note that this does
# include the SCOM addresses characterized by
# the MCS target. See Mcs.rule for those
# address ranges.
# XBUS 0x04000000 - 0x0400FFFF XBUS pervasive logic
# ABUS 0x08000000 - 0x0800FFFF ABUS pervasive logic
# PCIE 0x09000000 - 0x09FFFFFF PCIE pervasive logic
#
################################################################################
chip Proc
{
name "Power8 Chip";
targettype TYPE_PROC;
sigoff 0x8000;
dump DUMP_CONTENT_HW;
scomlen 64;
# Include Extra signatures
.include "prdfP8ProcMbCommonExtraSig.H";
#############################################################################
# #
# ###### #
# # # ###### #### ### #### ##### ###### ##### #### #
# # # # # # # # # # # # # #
# ###### ##### # # #### # ##### # # #### #
# # # # # ### # # # # ##### # #
# # # # # # # # # # # # # # # #
# # # ###### #### ### #### # ###### # # #### #
# #
#############################################################################
############################################################################
# Global Broadcast Registers
############################################################################
register GLOBAL_CS_FIR
{
name "Global Checkstop Attention FIR";
scomaddr 0x570F001C;
capture group default;
};
register GLOBAL_RE_FIR
{
name "Global Recoverable Attention FIR";
scomaddr 0x570F001B;
capture group default;
};
register GLOBAL_SPA
{
name "Global Special Attention FIR";
scomaddr 0x570F001A;
capture group default;
};
register GLOBALUNITXSTPFIR
{
name "Virtual Global Unit Checkstop FIR";
scomaddr 0x51040001;
capture group default;
capture req funccall("CoreConfiguredAndNotHostboot");
};
# Import all of the chiplet registers
.include "Proc_regs_TP.rule"
.include "Proc_regs_PB.rule"
.include "Proc_regs_XBUS.rule"
.include "Proc_regs_ABUS.rule"
.include "Proc_regs_PCIE.rule"
########################################################################
# Non-existent Registers for Capture
########################################################################
register VPD_FAILED_LANES_0TO63
{
name "Bit map 0-63 of failed lanes read from VPD";
scomaddr 0xFFFF0001;
access no_access;
capture group never;
};
register VPD_FAILED_LANES_64TO127
{
name "Bit map 64-127 of failed lanes read from VPD";
scomaddr 0xFFFF0002;
access no_access;
capture group never;
};
register ALL_FAILED_LANES_0TO63
{
name "Bit map 0-63 of failed lanes from io_read_erepair";
scomaddr 0xFFFF0003;
access no_access;
capture group never;
};
register ALL_FAILED_LANES_64TO127
{
name "Bit map 64-127 of failed lanes from io_read_erepair";
scomaddr 0xFFFF0004;
access no_access;
capture group never;
};
############################################################################
# Non-FIR Registers
############################################################################
register TODWOF
{
name "Time of Day / WOF Counter";
scomaddr 0x00040020;
capture group default;
};
############################################################################
# PLL Registers
############################################################################
register CFAM_FSI_STATUS
{
name "TPC.FSI.FSI2PIB.STATUS";
scomaddr 0x00001007;
capture group never;
};
};
##############################################################################
# #
# #### # #
# # # # # # ##### ### # # # ## ##### ### ### # # ### #
# # # # # # # # # # # # # # # # # ## # # #
# #### # # # #### ### # ####### # # # # # # # # ### #
# # # # # # # # # # # # # # # # # # ## # #
# # # ### #### ##### ### # # # ## # ### ### # # ### #
# #
##############################################################################
################################################################################
# Global Broadcast Registers
################################################################################
rule GlobalFir
{
CHECK_STOP: GLOBAL_CS_FIR;
RECOVERABLE: GLOBAL_RE_FIR;
};
group gGlobalFir attntype CHECK_STOP, RECOVERABLE filter singlebit
{
/** GLOBAL_FIR[1]
* Attention from TP chiplet
*/
(GlobalFir, bit(1)) ? analyze(gTpChipletFir);
/** GLOBAL_FIR[2]
* Attention from PB chiplet
*/
(GlobalFir, bit(2)) ? analyze(gPbChipletFir);
/** GLOBAL_FIR[4]
* Attention from XBUS chiplet
*/
(GlobalFir, bit(4)) ? analyze(gXbusChipletFir);
/** GLOBAL_FIR[8]
* Attention from ABUS chiplet
*/
(GlobalFir, bit(8)) ? analyze(gAbusChipletFir);
/** GLOBAL_FIR[9]
* Attention from PCIE
*/
(GlobalFir, bit(9)) ? analyze(gPcieChipletFir);
/** GLOBAL_FIR[17]
* Attention from EX1 (Venice only)
*/
(GlobalFir, bit(17)) ? analyzeEx1;
/** GLOBAL_FIR[18]
* Attention from EX2 (Venice only)
*/
(GlobalFir, bit(18)) ? analyzeEx2;
/** GLOBAL_FIR[19]
* Attention from EX3 (Venice only)
*/
(GlobalFir, bit(19)) ? analyzeEx3;
/** GLOBAL_FIR[20]
* Attention from EX4
*/
(GlobalFir, bit(20)) ? analyzeEx4;
/** GLOBAL_FIR[21]
* Attention from EX5
*/
(GlobalFir, bit(21)) ? analyzeEx5;
/** GLOBAL_FIR[22]
* Attention from EX6
*/
(GlobalFir, bit(22)) ? analyzeEx6;
/** GLOBAL_FIR[25]
* Attention from EX9 (Venice only)
*/
(GlobalFir, bit(25)) ? analyzeEx9;
/** GLOBAL_FIR[26]
* Attention from EX10 (Venice only)
*/
(GlobalFir, bit(26)) ? analyzeEx10;
/** GLOBAL_FIR[27]
* Attention from EX11 (Venice only)
*/
(GlobalFir, bit(27)) ? analyzeEx11;
/** GLOBAL_FIR[28]
* Attention from EX12
*/
(GlobalFir, bit(28)) ? analyzeEx12;
/** GLOBAL_FIR[29]
* Attention from EX13
*/
(GlobalFir, bit(29)) ? analyzeEx13;
/** GLOBAL_FIR[30]
* Attention from EX14
*/
(GlobalFir, bit(30)) ? analyzeEx14;
};
rule GlobalSpa
{
SPECIAL: GLOBAL_SPA;
};
group gGlobalSpa attntype SPECIAL filter singlebit
{
/** GLOBAL_SPA[1]
* Attention from TP chiplet
*/
(GlobalSpa, bit(1)) ? analyze(gTpChipletSpa);
/** GLOBAL_SPA[2]
* Attention from PB chiplet
*/
(GlobalSpa, bit(2)) ? analyze(gPbChipletSpa);
/** GLOBAL_SPA[9]
* Attention from PCIE
*/
(GlobalSpa, bit(9)) ? analyze(gPcieChipletSpa);
/** GLOBAL_SPA[11]
* Attention from EX1 (Venice only)
*/
(GlobalSpa, bit(11)) ? analyzeEx1;
/** GLOBAL_SPA[12]
* Attention from EX2 (Venice only)
*/
(GlobalSpa, bit(12)) ? analyzeEx2;
/** GLOBAL_SPA[13]
* Attention from EX3 (Venice only)
*/
(GlobalSpa, bit(13)) ? analyzeEx3;
/** GLOBAL_SPA[14]
* Attention from EX4
*/
(GlobalSpa, bit(14)) ? analyzeEx4;
/** GLOBAL_SPA[15]
* Attention from EX5
*/
(GlobalSpa, bit(15)) ? analyzeEx5;
/** GLOBAL_SPA[16]
* Attention from EX6
*/
(GlobalSpa, bit(16)) ? analyzeEx6;
/** GLOBAL_SPA[19]
* Attention from EX9 (Venice only)
*/
(GlobalSpa, bit(19)) ? analyzeEx9;
/** GLOBAL_SPA[20]
* Attention from EX10 (Venice only)
*/
(GlobalSpa, bit(20)) ? analyzeEx10;
/** GLOBAL_SPA[21]
* Attention from EX11 (Venice only)
*/
(GlobalSpa, bit(21)) ? analyzeEx11;
/** GLOBAL_SPA[22]
* Attention from EX12
*/
(GlobalSpa, bit(22)) ? analyzeEx12;
/** GLOBAL_SPA[23]
* Attention from EX13
*/
(GlobalSpa, bit(23)) ? analyzeEx13;
/** GLOBAL_SPA[24]
* Attention from EX14
*/
(GlobalSpa, bit(24)) ? analyzeEx14;
};
# Import all of the chiplet rules and actions
# NOTE: Some of PB local FIRs are handled through the TP chiplet FIRs
.include "Proc_acts_TP.rule"
.include "Proc_acts_PB.rule"
.include "Proc_acts_XBUS.rule"
.include "Proc_acts_ABUS.rule"
.include "Proc_acts_PCIE.rule"
##############################################################################
# #
# # ### #
# # # ## ##### ### ### # # # # # # ### ### ### ### #
# # # # # # # # # ## # # # # # # # # # #
# ####### # # # # # # # # # # ##### ### ### ## ### #
# # # # # # # # # # ## # # # # # # # # # #
# # # ## # ### ### # # ### ### # # ### ### ### ### #
# #
##############################################################################
# Include the common action set.
.include "CommonActions.rule"
################################################################################
# Analyze Connected Parts #
################################################################################
/** Analyze connected EX1 */
actionclass analyzeEx1 { analyze(connected(TYPE_EX, 1)); };
/** Analyze connected EX2 */
actionclass analyzeEx2 { analyze(connected(TYPE_EX, 2)); };
/** Analyze connected EX3 */
actionclass analyzeEx3 { analyze(connected(TYPE_EX, 3)); };
/** Analyze connected EX4 */
actionclass analyzeEx4 { analyze(connected(TYPE_EX, 4)); };
/** Analyze connected EX5 */
actionclass analyzeEx5 { analyze(connected(TYPE_EX, 5)); };
/** Analyze connected EX6 */
actionclass analyzeEx6 { analyze(connected(TYPE_EX, 6)); };
/** Analyze connected EX9 */
actionclass analyzeEx9 { analyze(connected(TYPE_EX, 9)); };
/** Analyze connected EX10 */
actionclass analyzeEx10 { analyze(connected(TYPE_EX, 10)); };
/** Analyze connected EX11 */
actionclass analyzeEx11 { analyze(connected(TYPE_EX, 11)); };
/** Analyze connected EX12 */
actionclass analyzeEx12 { analyze(connected(TYPE_EX, 12)); };
/** Analyze connected EX13 */
actionclass analyzeEx13 { analyze(connected(TYPE_EX, 13)); };
/** Analyze connected EX14 */
actionclass analyzeEx14 { analyze(connected(TYPE_EX, 14)); };
actionclass calloutProcLevel2MedThr1
{
calloutSelfLow;
callout2ndLvlMed;
threshold1;
};
/** callout Proc with low priority ,Sec level Med priority, Thr1
* and dump type SH, garding not done */
actionclass calloutProcLevel2MedThr1dumpShNoGard
{
calloutProcLevel2MedThr1;
dumpSH;
gard(NoGard);
};
/** callout Proc with low priority ,Sec level Med priority, Thr 32per day
* and dump type SH , garding not done */
actionclass calloutProcLevel2MedThr32dumpShNoGard
{
calloutSelfLow;
callout2ndLvlMed;
threshold32pday;
dumpSH;
gard(NoGard);
};
actionclass calloutProcHighThr1SUE
{
calloutSelfHigh;
SUEGenerationPoint;
threshold1;
};
|