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|
<!-- IBM_PROLOG_BEGIN_TAG -->
<!-- This is an automatically generated prolog. -->
<!-- -->
<!-- $Source: chips/p9/procedures/xml/attribute_info/pervasive_attributes.xml $ -->
<!-- -->
<!-- IBM CONFIDENTIAL -->
<!-- -->
<!-- EKB Project -->
<!-- -->
<!-- COPYRIGHT 2015,2016 -->
<!-- [+] International Business Machines Corp. -->
<!-- -->
<!-- -->
<!-- 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. -->
<!-- -->
<!-- IBM_PROLOG_END_TAG -->
<!-- This is an automatically generated file. -->
<!-- File: pervasive_attributes.xml. -->
<!-- XML file specifying attributes used by HW Procedures. Attributes are taken from model pervasive -->
<!--pervasive_attributes.xml-->
<attributes>
<attribute>
<id>ATTR_CLOCK_PLL_MUX</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>setup clock mux settings</description>
<valueType>uint32</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_CLOCK_PLL_MUX0</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Clock Mux#0 settings</description>
<valueType>uint8</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_I2C_BUS_DIV_REF</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Ref clock I2C bus divider consumed by code running out of OTPROM</description>
<valueType>uint16</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_FUNCTIONAL_EQ_EC_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates the validitiy of FW functional EQ/EQ register</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_EQ_GARD</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Capturing EQ Gard value</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_EC_GARD</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Capturing EC Gard Value</description>
<valueType>uint32</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_I2C_BUS_DIV_REF_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates the validity of ref clock I2C bus divider consumed by
code running out of OTPROM</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_FW_MODE_FLAGS_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates the validity of FW flags. Ex: ISTEP_MODE,
SBE_RUNTIME_MODE, MPIPL_MODE, SP_MODE, SBE_FFDC_ENABLE</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_ISTEP_MODE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates istep IPL</description>
<valueType>uint8</valueType>
<enum>NON_IPL = 0x0,IPL = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_SBE_RUNTIME_MODE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates that SBE should go directly to runtime functionality</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_IS_SP_MODE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates whether we are connected to FSP or not</description>
<valueType>uint8</valueType>
<enum>FSP_LESS = 0x0,FSP = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_SBE_FFDC_ENABLE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates whether SBE should collect FFDC</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_SBE_INTERNAL_FFDC_ENABLE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates that the SBE should send back internal FFDC on any
chipOp failure response</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_BOOT_FREQUENCY_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates if BOOT_FREQ_MULT and NEST_PLL_BUCKET
are valid</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_NEST_PLL_BUCKET</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Select Nest I2C and pll setting from one of the supported frequencies</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_BOOT_FREQ_MULT</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>EQ boot frequency multiplier</description>
<valueType>uint16</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_HWP_CONTROL_FLAGS_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates if HWP control flags
are valid</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_RISK_LEVEL</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>HWP/Init "risk level" enabled. Used by HB to pass to HB driven
HWPs</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_DISABLE_HBBL_VECTORS</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>BootLoader HWP flag to not place 12K exception vectors.
This flag is only applicable when security is disabled.</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_CHIP_SELECTION_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates that master/slave, node/chip selection attributes
are valid</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_CHIP_SELECTION</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>master/slave bit</description>
<valueType>uint8</valueType>
<enum>MASTER = 0x0,SLAVE = 0x1</enum>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_NODE_POS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicate the node position in FSP based systems (unused in Spless systems)</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_CHIP_POS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicate the chip position</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_SCRATCH6_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicate if scratch reg6 bits are valid</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_SCRATCH7_VALID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicate if scratch reg7 bits are valid</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_BACKUP_SEEPROM_SELECT</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Set with Primary SEEPROM</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_BOOT_FLAGS</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Switch to using a flag to indicate SEEPROM side SBE</description>
<valueType>uint32</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_BOOT_FREQ_MHZ</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>EQ boot frequency</description>
<valueType>uint32</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_BRANCH_PIBMEM_ADDR</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_CHIP_REGIONS_TO_ENABLE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint32</valueType>
</attribute>
<attribute>
<id>ATTR_DEVICE_ID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_ECID</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Bits 0 to 63 of the ECID in array entry 0 and bits 64 to 127 in ECID array entry 1
Created from running the mss_get_cen_ecid.C
Firmware shares some code with the processor,
so the attribute is named so they can point at a target and have common function.</description>
<valueType>uint64</valueType>
<writeable/>
<odmVisable/>
<odmChangeable/>
<array> 2</array>
</attribute>
<attribute>
<id>ATTR_I2C_BUS_DIV_NEST</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>I2C Bus speed based on nest freq, ref clock</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_LEN_OF_SEEPROM_DATA</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_MB_BIT_RATE_DIVISOR_PLL</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_MB_BIT_RATE_DIVISOR_REFCLK</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_MC_SYNC_MODE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>MC mesh to use Nest mesh or not</description>
<valueType>uint8</valueType>
<persistRuntime/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_PG</id>
<targetType>TARGET_TYPE_PERV</targetType>
<description>
Chiplet Partial good info attribute. Provided by Ring scans.
This should be a direct copy of the data from the PG keyword of VPD.
(Note : the 16-bit vpd data is right-justified into attribute)
</description>
<valueType>uint32</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_PROC_PB_BNDY_DMIPLL_DATA</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Ring image for pb_bndy_dmipll ring creator: platform firmware notes:</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_PROC_PB_BNDY_DMIPLL_FOR_DCCAL_DATA</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Ring image for pb_bndy_dmipll ring for DC cal creator: platform firmware notes:</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_PROC_PERV_BNDY_PLL_DATA</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Ring image for perv_bndy_pll ring containing filter plls and xb_pll,nest_pll creator: platform firmware notes:</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_PROC_SBE_MASTER_CHIP</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates if SBE on this chip is serving as hosboot drawer master</description>
<valueType>uint8</valueType>
<enum>FALSE = 0x0,TRUE = 0x1</enum>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_SBE_SEEPROM_I2C_DEVICE_ADDRESS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint64</valueType>
</attribute>
<attribute>
<id>ATTR_SBE_SEEPROM_I2C_PORT</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint64</valueType>
</attribute>
<attribute>
<id>ATTR_START_PIBMEM_ADDR</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_START_SEEPROM_ADDR</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_WAIT_N0</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_WAIT_N1</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_WAIT_N2</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_WAIT_N3</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description></description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
</attribute>
<attribute>
<id>ATTR_SYS_FORCE_ALL_CORES</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Indicate that p9_sbe_select_ex should force selection to ALL good
EX chiplets having good cores even if only a single EX chiplet mode is executed.
</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_MASTER_CORE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates the master boot core chiplet selected by p9_sbe_select_ex.
</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_MASTER_EX</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Indicates the EX targert associated with the master boot core selected
by p9_sbe_select_ex.
</description>
<valueType>uint8</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_SECURITY_ENABLE</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Holds the state of Security Access Bit (SAB)</description>
<valueType>uint8</valueType>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_SECURITY_MODE</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>If SBE image has ATTR_SECURITY_MODE == 0b1, then leave SAB bit as is
Else ATTR_SECURITY_MODE == 0b0, then clear the SAB bit</description>
<valueType>uint8</valueType>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_PFET_OFF_CONTROLS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>To disable force pfet off control from fuse status</description>
<valueType>uint32</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_OBUS_RATIO_VALUE</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>Holds Obus ratio value</description>
<valueType>uint8</valueType>
<writeable/>
</attribute>
<attribute>
<id>ATTR_PIBMEM_REPAIR0</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Pibmem repair attribute 0</description>
<valueType>uint64</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_PIBMEM_REPAIR1</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Pibmem repair attribute 1</description>
<valueType>uint64</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_PIBMEM_REPAIR2</id>
<targetType>TARGET_TYPE_SYSTEM</targetType>
<description>Pibmem repair attribute 2</description>
<valueType>uint64</valueType>
<persistRuntime/>
<platInit/>
<writeable/>
</attribute>
<attribute>
<id>ATTR_SENSEADJ_STEP</id>
<targetType>TARGET_TYPE_EQ</targetType>
<description>IPL for skew adjust and duty cycle adjust</description>
<valueType>uint8</valueType>
<writeable/>
</attribute>
<attribute>
<id>ATTR_CP_FILTER_BYPASS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>To skip the locking sequence and check for lock of CP PLL</description>
<valueType>uint8</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_SS_FILTER_BYPASS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>To skip the locking sequence and check for lock of SS PLL</description>
<valueType>uint8</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_IO_FILTER_BYPASS</id>
<targetType>TARGET_TYPE_PROC_CHIP</targetType>
<description>To skip the locking sequence and check for lock of IO PLL</description>
<valueType>uint8</valueType>
<platInit/>
</attribute>
<attribute>
<id>ATTR_TARGET_HAS_POWER</id>
<targetType>TARGET_TYPE_PERV</targetType>
<description>Functional Target has power</description>
<initToZero></initToZero>
<valueType>uint8</valueType>
<writeable/>
<persistRuntime/>
</attribute>
<attribute>
<id>ATTR_TARGET_HAS_CLOCK</id>
<targetType>TARGET_TYPE_PERV</targetType>
<description>Functional Target has clock</description>
<initToZero></initToZero>
<valueType>uint8</valueType>
<writeable/>
<persistRuntime/>
</attribute>
<attribute>
<id>ATTR_TARGET_IS_SCOMMABLE</id>
<targetType>TARGET_TYPE_PERV</targetType>
<initToZero></initToZero>
<description>Functional Target is scommable</description>
<valueType>uint8</valueType>
<writeable/>
<persistRuntime/>
</attribute>
</attributes>
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