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authorAkshay Adiga <akshay.adiga@linux.vnet.ibm.com>2017-09-15 17:50:55 +0530
committerStewart Smith <stewart@linux.vnet.ibm.com>2017-09-19 04:16:53 -0500
commitd7631e5685185554b43c2199165f5b3a4076e0c3 (patch)
treea38a62821d2e883e6b0cc899d6fc76b360cc8f6c /libpore
parenteeb4d3226d4eda49ca171d442e49ceccbcaf634e (diff)
downloadtalos-skiboot-d7631e5685185554b43c2199165f5b3a4076e0c3.tar.gz
talos-skiboot-d7631e5685185554b43c2199165f5b3a4076e0c3.zip
SLW: Add support for p9_stop_api
p9_stop_api's are used to set SPR state on a core wakeup form a deeper low power state. p9_stop_api uses low level platform formware and self-restore microcode to restore the sprs to requested values. Code is taken from : https://github.com/open-power/hostboot/tree/master/src/import/chips/p9/procedures/utils/stopreg Signed-off-by: Akshay Adiga <akshay.adiga@linux.vnet.ibm.com> Reviewed-by: Vaidyanathan Srinivasan <svaidy@linux.vnet.ibm.com> Signed-off-by: Stewart Smith <stewart@linux.vnet.ibm.com>
Diffstat (limited to 'libpore')
-rw-r--r--libpore/Makefile.inc2
-rw-r--r--libpore/p9_cpu_reg_restore_instruction.H76
-rw-r--r--libpore/p9_hcd_header_defs.H152
-rw-r--r--libpore/p9_hcd_memmap_base.H522
-rw-r--r--libpore/p9_stop_api.C1028
-rw-r--r--libpore/p9_stop_api.H163
-rw-r--r--libpore/p9_stop_data_struct.H149
-rw-r--r--libpore/p9_stop_util.C186
-rw-r--r--libpore/p9_stop_util.H145
9 files changed, 2422 insertions, 1 deletions
diff --git a/libpore/Makefile.inc b/libpore/Makefile.inc
index 2eac595c..cc891279 100644
--- a/libpore/Makefile.inc
+++ b/libpore/Makefile.inc
@@ -1,4 +1,4 @@
-LIBPORE_SRCS = p8_pore_table_gen_api_fixed.C
+LIBPORE_SRCS = p8_pore_table_gen_api_fixed.C p9_stop_api.C p9_stop_util.C
LIBPORE_SRCS += p8_pore_table_static_data.c sbe_xip_image.c pore_inline_assembler.c
LIBPORE_OBJS_1 = $(LIBPORE_SRCS:%.c=%.o)
LIBPORE_OBJS = $(LIBPORE_OBJS_1:%.C=%.o)
diff --git a/libpore/p9_cpu_reg_restore_instruction.H b/libpore/p9_cpu_reg_restore_instruction.H
new file mode 100644
index 00000000..e5689ae8
--- /dev/null
+++ b/libpore/p9_cpu_reg_restore_instruction.H
@@ -0,0 +1,76 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/utils/stopreg/p9_cpu_reg_restore_instruction.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+
+///
+/// @file p9_cpu_reg_restore_instruction.H
+/// @brief enumerates all the opcodes used for SPR restoration.
+///
+// *HWP HW Owner : Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner : Prem Shanker Jha <premjha2@in.ibm.com>
+// *HWP Team : PM
+// *HWP Level : 2
+// *HWP Consumed by : HB:HYP
+
+#ifndef __REG_RESTORE_INSTRUCTION_H
+#define __REG_RESTORE_INSTRUCTION_H
+
+#include <stdint.h>
+
+#ifdef __cplusplus
+extern "C" {
+
+namespace stopImageSection
+{
+#endif
+
+/**
+ * @brief enumerates opcodes for few instructions.
+ */
+enum
+{
+ ORI_OPCODE = 24,
+ RFI_OPCODE = 19,
+ RFI_CONST = 50,
+ ORIS_OPCODE = 25,
+ OPCODE_31 = 31,
+ XOR_CONST = 316,
+ RLDICR_OPCODE = 30,
+ RLDICR_CONST = 1,
+ MTSPR_CONST1 = 467,
+ MTMSRD_CONST1 = 178,
+ MR_R0_TO_R10 = 0x7c0a0378, //mr r10, r0
+ MR_R0_TO_R21 = 0x7c150378, //mr r21, r0
+ BLR_INST = 0x4e800020,
+ MTSPR_BASE_OPCODE = 0x7c0003a6,
+ ATTN_OPCODE = 0x00000200,
+};
+
+#ifdef __cplusplus
+} // namespace stopImageSection ends
+
+} // extern "C"
+#endif //__cplusplus
+
+#endif //__REG_RESTORE_INSTRUCTION_H
diff --git a/libpore/p9_hcd_header_defs.H b/libpore/p9_hcd_header_defs.H
new file mode 100644
index 00000000..49c814a4
--- /dev/null
+++ b/libpore/p9_hcd_header_defs.H
@@ -0,0 +1,152 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/lib/p9_hcd_header_defs.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2016,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+///
+/// @file p9_hcd_header_defs.H
+/// @brief defines header constants based on file types
+///
+/// This header contains those cpp manifest constants required for processing
+/// the linker scripts used to generate OCC code images. As these are used
+/// by linker scripts as well as by C++ code, these cannot be solely be put
+/// into a namespace. Prefixing these with the region name is the attempt
+/// to make these globally unique when this header is included in C++ code.
+///
+// *HWP HWP Owner: David Du <daviddu@us.ibm.com>
+// *HWP Backup HWP Owner: Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner: Prem Jha <premjha2@in.ibm.com>
+// *HWP Team: PM
+// *HWP Level: 2
+// *HWP Consumed by: PM
+//
+
+#ifndef __HCD_HEADER_DEFS_H__
+#define __HCD_HEADER_DEFS_H__
+
+/// Macros for generating an Hcode header section
+///
+/// The CPP macros HCD_HDR_UINTxx generate equivalent code depending on
+/// whether they are being called from assembler (where they actually
+/// create the header section data) or from C (where they specifiy a
+/// C-structure form of the contents of the header section.
+///
+/// In assembler each invocation also creates space in the header section
+
+#ifdef __ASSEMBLER__
+
+// *INDENT-OFF*
+ .macro hcd_header_uint64, symbol:req, value = 0
+ .global \symbol
+\symbol\():
+ .quad (\value)
+ .endm
+
+ .macro hcd_header_uint32, symbol:req, value = 0
+ .global \symbol
+ \symbol\():
+ .long (\value)
+ .endm
+
+ .macro hcd_header_uint16, symbol:req, value = 0
+ .global \symbol
+\symbol\():
+ .short (\value)
+ .endm
+
+ .macro hcd_header_uint8, symbol:req, value = 0
+ .global \symbol
+\symbol\():
+ .byte (\value)
+ .endm
+
+ .macro hcd_header_uint8_vec, symbol:req, number:req, value = 0
+ .global \symbol
+\symbol\():
+ .rept (\number)
+ .byte (\value)
+ .endr
+ .endm
+
+ .macro hcd_header_attn, symbol:req, number = 1
+ .global \symbol
+\symbol\():
+ .rept (\number)
+ .long 0x00000200
+ .endr
+ .endm
+
+ .macro hcd_header_attn_pad, align:req
+ .balignl (\align), 0x00000200
+ .endm
+
+ .macro hcd_header_pad, align:req
+ .balignl (\align), 0
+ .endm
+// *INDENT-ON*
+
+#define ULL(x) x
+#define HCD_CONST(name, expr) .set name, expr;
+#define HCD_CONST64(name, expr) .set name, expr;
+
+#define HCD_HDR_UINT64(symbol, value) hcd_header_uint64 symbol value
+#define HCD_HDR_UINT32(symbol, value) hcd_header_uint32 symbol value
+#define HCD_HDR_UINT16(symbol, value) hcd_header_uint16 symbol value
+#define HCD_HDR_UINT8(symbol, value) hcd_header_uint8 symbol value
+#define HCD_HDR_UINT8_VEC(symbol, number, value) hcd_header_uint8_vec symbol number value
+#define HCD_HDR_ATTN(symbol, number) hcd_header_attn symbol number
+#define HCD_HDR_ATTN_PAD(align) hcd_header_attn_pad align
+#define HCD_HDR_PAD(align) hcd_header_pad align
+
+#else // NOT __ASSEMBLER__
+
+#ifdef __LINKERSCRIPT__
+
+ #define ULL(x) x
+ #define POUND_DEFINE #define
+ #define HCD_CONST(name, expr) POUND_DEFINE name expr
+ #define HCD_CONST64(name, expr) POUND_DEFINE name expr
+
+#else
+
+ #define ULL(x) x##ull
+ #define HCD_CONST(name, expr) enum { name = expr };
+ #define HCD_CONST64(name, expr) enum { name = expr };
+
+ #define HCD_HDR_UINT64(symbol, value) uint64_t symbol
+ #define HCD_HDR_UINT32(symbol, value) uint32_t symbol
+ #define HCD_HDR_UINT16(symbol, value) uint16_t symbol
+ #define HCD_HDR_UINT8(symbol, value) uint8_t symbol
+ #define HCD_HDR_UINT8_VEC(symbol, number, value) uint8_t symbol[number]
+ #define HCD_HDR_ATTN(symbol, number) uint32_t symbol[number]
+ #define HCD_HDR_ATTN_PAD(align)
+ #define HCD_HDR_PAD(align)
+
+#endif // __LINKERSCRIPT__
+#endif // __ASSEMBLER__
+
+// Stringification
+
+#define STR_HELPER(x) #x
+#define STR(x) STR_HELPER(x)
+
+#endif // __HCD_HEADER_DEFS_H__
diff --git a/libpore/p9_hcd_memmap_base.H b/libpore/p9_hcd_memmap_base.H
new file mode 100644
index 00000000..6e3b54d4
--- /dev/null
+++ b/libpore/p9_hcd_memmap_base.H
@@ -0,0 +1,522 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/lib/p9_hcd_memmap_base.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+///
+/// @file p9_hcd_memmap_base.H
+/// @brief defines region constants shared by different memory components.
+///
+
+// *HWP HWP Owner: David Du <daviddu@us.ibm.com>
+// *HWP Backup HWP Owner: Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner: Prem S Jha <premjha2@in.ibm.com>
+// *HWP Team: PM
+// *HWP Level: 2
+// *HWP Consumed by: PM:Hostboot:Phyp
+
+#ifndef __HCD_MEMMAP_BASE_H__
+#define __HCD_MEMMAP_BASE_H__
+
+#include <p9_hcd_header_defs.H>
+
+// -------------------------------------------------------------------
+// Note: There can be NO semicolons(";") at end of macros in this file
+// There can ONLY have HCD_CONST/HCD_CONST64 macros in this file
+// -------------------------------------------------------------------
+
+/// Image Magic Numbers
+
+HCD_CONST64(CPMR_MAGIC_NUMBER, ULL(0x43504d525f312e30)) // CPMR_1.0
+HCD_CONST64(CME_MAGIC_NUMBER , ULL(0x434d455f5f312e30)) // CME__1.0
+
+HCD_CONST64(QPMR_MAGIC_NUMBER, ULL(0x51504d525f312e30)) // QPMR_1.0
+HCD_CONST64(SGPE_MAGIC_NUMBER, ULL(0x534750455f312e30)) // SGPE_1.0
+
+HCD_CONST64(PPMR_MAGIC_NUMBER, ULL(0x50504d525f312e30)) // PPMR_1.0
+HCD_CONST64(PGPE_MAGIC_NUMBER, ULL(0x504750455F312E30)) // PGPE_1.0
+
+HCD_CONST(CME_BUILD_VERSION, 0x001) // CME__1.0
+HCD_CONST(SGPE_BUILD_VERSION, 0x001) // SGPE_1.0
+HCD_CONST(PGPE_BUILD_VERSION, 0x001) // PGPE_1.0
+
+HCD_CONST64(CPMR_MAGIC_NUMBER_BASE, ULL(0x43504d525f302e30)) // CPMR_0.0
+HCD_CONST(CPMR_REGION_CHECK_WORD, (0x43504d52)) // CPMR
+HCD_CONST64(CME_MAGIC_NUMBER_BASE , ULL(0x434d455f5f302e30)) // CME__0.0
+HCD_CONST64(QPMR_MAGIC_NUMBER_BASE, ULL(0x51504d525f302e30)) // QPMR_0.0
+HCD_CONST64(SGPE_MAGIC_NUMBER_BASE, ULL(0x534750455f302e30)) // SGPE_0.0
+HCD_CONST64(PPMR_MAGIC_NUMBER_BASE, ULL(0x50504d525f302e30)) // PPMR_0.0
+HCD_CONST64(PGPE_MAGIC_NUMBER_BASE, ULL(0x504750455F302E30)) // PGPE_0.0
+
+/// Size constants
+
+HCD_CONST(HALF_KB, 512)
+HCD_CONST(ONE_KB, 1024)
+HCD_CONST(HALF_MB, (1024 * 512))
+HCD_CONST(ONE_MB, (1024 * 1024))
+HCD_CONST(TWO_MB, (2 * 1024 * 1024))
+
+/// Memory constants
+
+HCD_CONST(CME_SRAM_SIZE, (32 * ONE_KB))
+HCD_CONST(OCC_SRAM_SIZE, (768 * ONE_KB))
+
+HCD_CONST(HOMER_MEMORY_SIZE, (4 * ONE_MB))
+HCD_CONST(HOMER_OPMR_REGION_NUM, 0)
+HCD_CONST(HOMER_QPMR_REGION_NUM, 1)
+HCD_CONST(HOMER_CPMR_REGION_NUM, 2)
+HCD_CONST(HOMER_PPMR_REGION_NUM, 3)
+
+/// Chip constants
+
+HCD_CONST(MAX_THREADS_PER_CORE, 4)
+HCD_CONST(MAX_CORES_PER_CHIP, 24)
+
+HCD_CONST(MAX_CMES_PER_CHIP, 12)
+HCD_CONST(MAX_EXES_PER_CHIP, 12)
+
+HCD_CONST(MAX_QUADS_PER_CHIP, 6)
+HCD_CONST(MAX_CACHES_PER_CHIP, 6)
+
+HCD_CONST(MAX_CORES_PER_CME, 2)
+HCD_CONST(MAX_CORES_PER_EX, 2)
+
+HCD_CONST(MAX_CMES_PER_QUAD, 2)
+HCD_CONST(MAX_EXES_PER_QUAD, 2)
+
+HCD_CONST(CACHE0_CHIPLET_ID, 0x10)
+HCD_CONST(CACHE_CHIPLET_ID_MIN, 0x10)
+HCD_CONST(CACHE_CHIPLET_ID_MAX, 0x15)
+
+HCD_CONST(CORE0_CHIPLET_ID, 0x20)
+HCD_CONST(CORE_CHIPLET_ID_MIN, 0x20)
+HCD_CONST(CORE_CHIPLET_ID_MAX, 0x37)
+
+HCD_CONST(MAX_QUAD_ID_SUPPORTED, 5)
+HCD_CONST(MAX_CORE_ID_SUPPORTED, 23)
+HCD_CONST(MAX_THREAD_ID_SUPPORTED, 3)
+
+/// Image build constants
+
+HCD_CONST(HARDWARE_IMG_SIZE, ONE_MB)
+
+HCD_CONST(FUSED_CORE_MODE, 0xBB)
+HCD_CONST(NONFUSED_CORE_MODE, 0xAA)
+
+HCD_CONST(SELF_RESTORE_BLR_INST, 0x4e800020)
+HCD_CONST(CORE_RESTORE_PAD_OPCODE, 0x00000200) //ATTN Opcode
+
+HCD_CONST(SCOM_RESTORE_PAD_OPCODE, 0x00000000) //zero pads
+HCD_CONST(SCOM_RESTORE_ENTRY_SIZE, 16) //4B pad,4B address,8B data
+
+HCD_CONST(CME_BLOCK_READ_LEN, 32)
+HCD_CONST(CME_BLK_SIZE_SHIFT, 0x05)
+
+HCD_CONST(RING_ALIGN_BOUNDARY, 0x08)
+HCD_CONST64(DARN_BAR_EN_POS, ULL(0x8000000000000000))
+
+//---------------------------------------------------------------------------------------
+
+/// OPMR
+
+HCD_CONST(OCC_HOST_AREA_SIZE, ONE_MB)
+HCD_CONST(OPMR_OCC_IMAGE_SIZE, HALF_MB)
+HCD_CONST(OPMR_HOST_AREA_SIZE, HALF_MB)
+
+//---------------------------------------------------------------------------------------
+
+/// QPMR Header
+
+HCD_CONST(QPMR_HOMER_OFFSET, (HOMER_QPMR_REGION_NUM* ONE_MB))
+HCD_CONST(QPMR_HEADER_SIZE, 512)
+
+HCD_CONST(QPMR_MAGIC_NUMBER_BYTE, 0x00)
+HCD_CONST(QPMR_BOOT_COPIER_OFFSET_BYTE, 0x08)
+HCD_CONST(QPMR_BOOT_LOADER_OFFSET_BYTE, 0x10)
+HCD_CONST(QPMR_BOOT_LOADER_LENGTH_BYTE, 0x14)
+HCD_CONST(QPMR_BUILD_DATE_BYTE, 0x18)
+HCD_CONST(QPMR_BUILD_VER_BYTE, 0x1C)
+HCD_CONST(QPMR_SGPE_HCODE_OFFSET_BYTE, 0x28)
+HCD_CONST(QPMR_SGPE_HCODE_LENGTH_BYTE, 0x2C)
+HCD_CONST(QPMR_QUAD_COMMON_RINGS_OFFSET_BYTE, 0x30)
+HCD_CONST(QPMR_QUAD_COMMON_RINGS_LENGTH_BYTE, 0x34)
+HCD_CONST(QPMR_QUAD_OVERRIDE_RINGS_OFFSET_BYTE, 0x38)
+HCD_CONST(QPMR_QUAD_OVERRIDE_RINGS_LENGTH_BYTE, 0x3C)
+HCD_CONST(QPMR_QUAD_SPECIFIC_RINGS_OFFSET_BYTE, 0x40)
+HCD_CONST(QPMR_QUAD_SPECIFIC_RINGS_LENGTH_BYTE, 0x44)
+HCD_CONST(QPMR_QUAD_SCOM_RESTORE_OFFSET_BYTE, 0x48)
+HCD_CONST(QPMR_QUAD_SCOM_RESTORE_LENGTH_BYTE, 0x4C)
+HCD_CONST(QPMR_AUX_DATA_OFFSET_BYTE, 0x50)
+HCD_CONST(QPMR_AUX_DATA_LENGTH_BYTE, 0x54)
+HCD_CONST(QPMR_STOP_FFDC_OFFSET_BYTE, 0x58)
+HCD_CONST(QPMR_STOP_FFDC_LENGTH_BYTE, 0x5C)
+HCD_CONST(QPMR_SGPE_BOOT_PROG_CODE, 0x60)
+HCD_CONST(QPMR_SGPE_IMAGE_SIZE, 0x64)
+
+/// SGPE Boot
+
+HCD_CONST(SGPE_BOOT_COPIER_QPMR_OFFSET, QPMR_HEADER_SIZE)
+HCD_CONST(SGPE_BOOT_COPIER_SIZE, ONE_KB)
+
+HCD_CONST(SGPE_BOOT_LOADER_QPMR_OFFSET,
+ (SGPE_BOOT_COPIER_QPMR_OFFSET + SGPE_BOOT_COPIER_SIZE))
+HCD_CONST(SGPE_BOOT_LOADER_SIZE, ONE_KB)
+HCD_CONST(SGPE_BOOT_LOADER_RESET_ADDR_VAL, 0x40)
+
+HCD_CONST(SGPE_INSTRUMENTATION_SIZE, (2 * ONE_KB))
+
+/// SGPE Image
+
+HCD_CONST(SGPE_IMAGE_QPMR_OFFSET,
+ (SGPE_BOOT_LOADER_QPMR_OFFSET + SGPE_BOOT_LOADER_SIZE))
+HCD_CONST(SGPE_IMAGE_SIZE, (80 * ONE_KB)) //RTC158543
+HCD_CONST(SGPE_INT_VECTOR_SIZE, 384)
+HCD_CONST(SGPE_HCODE_RESET_ADDR_VAL, 0x40)
+
+/// SGPE Header
+
+HCD_CONST(SGPE_HEADER_QPMR_OFFSET,
+ (SGPE_IMAGE_QPMR_OFFSET + SGPE_INT_VECTOR_SIZE))
+HCD_CONST(SGPE_HEADER_IMAGE_OFFSET, SGPE_INT_VECTOR_SIZE)
+HCD_CONST(SGPE_HEADER_SIZE, 128)
+
+HCD_CONST(SGPE_MAGIC_NUMBER_BYTE, 0x00)
+HCD_CONST(SGPE_SYSTEM_RESET_ADDR_BYTE, 0x08)
+HCD_CONST(SGPE_IVPR_ADDR_BYTE, 0x10)
+HCD_CONST(SGPE_BUILD_DATE_BYTE, 0x18)
+HCD_CONST(SGPE_BUILD_VER_BYTE, 0x1C)
+HCD_CONST(SGPE_STOP_FLAGS_BYTE, 0x20)
+HCD_CONST(SGPE_LOCATION_ID_BYTE, 0x24)
+HCD_CONST(SGPE_QUAD_COMMON_RING_SRAM_OFF_BYTE, 0x28)
+HCD_CONST(SGPE_QUAD_OVERRIDE_RING_SRAM_OFF_BYTE, 0x2C)
+HCD_CONST(SGPE_QUAD_SPECIFIC_RING_SRAM_OFF_BYTE, 0x30)
+HCD_CONST(SGPE_QUAD_SCOM_RESTORE_SRAM_OFF_BYTE, 0x34)
+HCD_CONST(SGPE_QUAD_SCOM_RESTORE_MEM_OFF_BYTE, 0x38)
+HCD_CONST(SGPE_QUAD_SCOM_RESTORE_LENGTH_BYTE, 0x3C)
+HCD_CONST(SGPE_AUX_DATA_OFFSET_BYTE, 0x40)
+HCD_CONST(SGPE_AUX_DATA_LENGTH_BYTE, 0x44)
+HCD_CONST(SGPE_AUX_CTRL_BYTE, 0x48)
+HCD_CONST(SGPE_CHTM_MEM_CFG_BYTE, 0x50)
+
+HCD_CONST(SGPE_RESET_ADDR_IMAGE_OFFSET, (SGPE_HEADER_IMAGE_OFFSET + SGPE_SYSTEM_RESET_ADDR_BYTE))
+HCD_CONST(SGPE_BUILD_DATE_IMAGE_OFFSET, (SGPE_HEADER_IMAGE_OFFSET + SGPE_BUILD_DATE_BYTE))
+HCD_CONST(SGPE_BUILD_VER_IMAGE_OFFSET, (SGPE_HEADER_IMAGE_OFFSET + SGPE_BUILD_VER_BYTE))
+
+HCD_CONST(SGPE_STOP_4_TO_2_BIT_POS, 0x80000000)
+HCD_CONST(SGPE_STOP_5_TO_4_BIT_POS, 0x40000000)
+HCD_CONST(SGPE_STOP_8_TO_5_BIT_POS, 0x20000000)
+HCD_CONST(SGPE_STOP_11_TO_8_BIT_POS, 0x10000000)
+HCD_CONST(SGPE_ENABLE_CME_TRACE_ARRAY_BIT_POS, 0x08000000)
+HCD_CONST(SGPE_VDM_ENABLE_BIT_POS, 0x04000000)
+HCD_CONST(SGPE_ENABLE_CHTM_TRACE_CME_BIT_POS, 0x02000000)
+HCD_CONST(SGPE_PROC_FAB_PUMP_MODE_BIT_POS, 0x00004000)
+HCD_CONST(SGPE_CACHE_SKEWADJ_DISABLE_BIT_POS, 0x00002000)
+HCD_CONST(SGPE_CACHE_DCADJ_DISABLE_BIT_POS, 0x00001000)
+
+///24x7
+HCD_CONST(QPMR_AUX_OFFSET, (512 * ONE_KB))
+HCD_CONST(QPMR_AUX_LENGTH, (64 * ONE_KB))
+/// SGPE Hcode
+
+HCD_CONST(SGPE_HCODE_IMAGE_OFFSET, (SGPE_INT_VECTOR_SIZE + SGPE_HEADER_SIZE))
+HCD_CONST(SGPE_HCODE_SIZE, ((45 * ONE_KB) + HALF_KB)) //RTC158543
+HCD_CONST(SGPE_DEBUG_PTRS_OFFSET, 0x200)
+HCD_CONST(SGPE_DEBUG_PTRS_SIZE, 0x24)
+HCD_CONST(SGPE_DBG_PTR_AREA_SIZE, 64)
+
+/// Quad Scan
+
+// 400B * 9 rings * 3 types (base, RL, CC)
+HCD_CONST(QUAD_COMMON_RING_SIZE, (13 * ONE_KB))
+// 300B * 9 rings
+HCD_CONST(QUAD_OVERRIDE_RING_SIZE, (3 * ONE_KB))
+// 1KB/ring * 5 rings/cache
+HCD_CONST(QUAD_SPECIFIC_RING_SIZE_PER_QUAD, ((3 * ONE_KB) + HALF_KB))
+HCD_CONST(QUAD_SPECIFIC_RING_SIZE_TOTAL, (19 * ONE_KB)) //checkme?
+
+/// Quad Scom
+
+HCD_CONST(QUAD_SCOM_RESTORE_QPMR_OFFSET, (128 * ONE_KB))
+HCD_CONST(QUAD_SCOM_RESTORE_HOMER_OFFSET,
+ (QUAD_SCOM_RESTORE_QPMR_OFFSET + QPMR_HOMER_OFFSET))
+
+HCD_CONST(MAX_L2_SCOM_ENTRIES, 16)
+HCD_CONST(MAX_L3_SCOM_ENTRIES, 16)
+HCD_CONST(MAX_EQ_SCOM_ENTRIES, 15)
+HCD_CONST(QUAD_SCOM_RESTORE_REGS_PER_QUAD,
+ (MAX_EQ_SCOM_ENTRIES + MAX_L2_SCOM_ENTRIES + MAX_L3_SCOM_ENTRIES + 1))
+
+HCD_CONST(QUAD_SCOM_RESTORE_SIZE_PER_QUAD,
+ (SCOM_RESTORE_ENTRY_SIZE* QUAD_SCOM_RESTORE_REGS_PER_QUAD))
+
+HCD_CONST(QUAD_SCOM_RESTORE_SIZE_TOTAL, (6 * ONE_KB)) //rounded to 6KB
+
+//---------------------------------------------------------------------------------------
+
+/// CPMR Header
+
+HCD_CONST(CPMR_HOMER_OFFSET, (HOMER_CPMR_REGION_NUM* ONE_MB))
+HCD_CONST(CPMR_HEADER_SIZE, 256)
+
+HCD_CONST(CPMR_ATTN_WORD0_BYTE, 0x00)
+HCD_CONST(CPMR_ATTN_WORD1_BYTE, 0x04)
+HCD_CONST(CPMR_MAGIC_NUMBER_BYTE, 0x08)
+HCD_CONST(CPMR_BUILD_DATE_BYTE, 0x10)
+HCD_CONST(CPMR_BUILD_VER_BYTE, 0x14)
+HCD_CONST(CPMR_CME_HCODE_OFFSET_BYTE, 0x20)
+HCD_CONST(CPMR_CME_HCODE_LENGTH_BYTE, 0x24)
+HCD_CONST(CPMR_CORE_COMMON_RING_OFFSET_BYTE, 0x28)
+HCD_CONST(CPMR_CORE_COMMON_RING_LENGTH_BYTE, 0x2C)
+HCD_CONST(CPMR_CME_LOCAL_PSTATE_OFFSET_BYTE, 0x30)
+HCD_CONST(CPMR_CME_LOCAL_PSTATE_LENGTH_BYTE, 0x34)
+HCD_CONST(CPMR_CORE_SPECIFIC_RING_OFFSET_BYTE, 0x38)
+HCD_CONST(CPMR_CORE_SPECIFIC_RING_LENGTH_BYTE, 0x3C)
+HCD_CONST(CPMR_CORE_SCOM_RESTORE_OFFSET_BYTE, 0x40)
+HCD_CONST(CPMR_CORE_SCOM_RESTORE_LENGTH_BYTE, 0x44)
+HCD_CONST(CPMR_SELF_RESTORE_OFFSET_BYTE, 0x48)
+HCD_CONST(CPMR_SELF_RESTORE_LENGTH_BYTE, 0x4C)
+
+/// Self Restore
+
+HCD_CONST(SELF_RESTORE_CPMR_OFFSET, CPMR_HEADER_SIZE)
+HCD_CONST(SELF_RESTORE_INT_SIZE, (8 * ONE_KB))
+HCD_CONST(THREAD_LAUNCHER_SIZE, 256)
+HCD_CONST(SELF_RESTORE_CODE_SIZE,
+ (SELF_RESTORE_INT_SIZE + THREAD_LAUNCHER_SIZE))
+
+HCD_CONST(CORE_RESTORE_THREAD_AREA_SIZE, (ONE_KB))
+HCD_CONST(CORE_RESTORE_CORE_AREA_SIZE, (ONE_KB))
+HCD_CONST(CORE_RESTORE_SIZE_PER_THREAD,
+ (CORE_RESTORE_THREAD_AREA_SIZE + CORE_RESTORE_CORE_AREA_SIZE))
+HCD_CONST(SELF_RESTORE_CORE_REGS_SIZE,
+ (CORE_RESTORE_SIZE_PER_THREAD*
+ MAX_THREADS_PER_CORE* MAX_CORES_PER_CHIP))
+
+HCD_CONST(SELF_RESTORE_SIZE_TOTAL,
+ (SELF_RESTORE_CODE_SIZE + SELF_RESTORE_CORE_REGS_SIZE))
+
+
+/// Core Scom
+
+HCD_CONST(CORE_SCOM_RESTORE_CPMR_OFFSET, (256 * ONE_KB))
+HCD_CONST(CORE_SCOM_RESTORE_HOMER_OFFSET,
+ (CORE_SCOM_RESTORE_CPMR_OFFSET + CPMR_HOMER_OFFSET))
+
+HCD_CONST(MAX_CORE_SCOM_ENTRIES, 15)
+HCD_CONST(CORE_SCOM_RESTORE_REGS_PER_CORE, (MAX_CORE_SCOM_ENTRIES + 1))
+
+HCD_CONST(CORE_SCOM_RESTORE_SIZE_PER_CORE,
+ (SCOM_RESTORE_ENTRY_SIZE* CORE_SCOM_RESTORE_REGS_PER_CORE)) // 16*16=256
+HCD_CONST(CORE_SCOM_RESTORE_SIZE_PER_CME,
+ (CORE_SCOM_RESTORE_SIZE_PER_CORE* MAX_CORES_PER_CME)) // 256*2=512
+
+HCD_CONST(CORE_SCOM_RESTORE_SIZE_TOTAL,
+ (CORE_SCOM_RESTORE_SIZE_PER_CME* MAX_CMES_PER_CHIP)) // 512*12=6K
+
+/// CME Image
+
+HCD_CONST(CME_IMAGE_CPMR_OFFSET,
+ (CORE_SCOM_RESTORE_CPMR_OFFSET + CORE_SCOM_RESTORE_SIZE_TOTAL))
+//HCD_CONST(CME_IMAGE_SIZE, 0)
+HCD_CONST(CME_INT_VECTOR_SIZE, 384)
+
+/// CME Header
+
+HCD_CONST(CME_HEADER_CPMR_OFFSET,
+ (CME_IMAGE_CPMR_OFFSET + CME_INT_VECTOR_SIZE))
+HCD_CONST(CME_HEADER_IMAGE_OFFSET, CME_INT_VECTOR_SIZE)
+HCD_CONST(CME_HEADER_SIZE, 128)
+
+HCD_CONST(CME_MAGIC_NUMBER_BYTE, 0x00)
+HCD_CONST(CME_HCODE_OFFSET_BYTE, 0x08)
+HCD_CONST(CME_HCODE_LENGTH_BYTE, 0x0C)
+HCD_CONST(CME_CORE_COMMON_RING_OFFSET_BYTE, 0x10)
+HCD_CONST(CME_CORE_OVERRIDE_RING_OFFSET_BYTE, 0x14)
+HCD_CONST(CME_CORE_COMMON_RING_LENGTH_BYTE, 0x18)
+HCD_CONST(CME_LOCAL_PSTATE_OFFSET_BYTE, 0x1C)
+HCD_CONST(CME_LOCAL_PSTATE_LENGTH_BYTE, 0x20)
+HCD_CONST(CME_CORE_SPECIFIC_RING_OFFSET_BYTE, 0x24)
+HCD_CONST(CME_CORE_SPECIFIC_RING_LENGTH_BYTE, 0x28)
+HCD_CONST(CME_CORE_SCOM_RESTORE_OFFSET_BYTE, 0x2C)
+HCD_CONST(CME_CORE_SCOM_RESTORE_LENGTH_BYTE, 0x30)
+HCD_CONST(CME_STOP_FLAGS_BYTE, 0x34)
+HCD_CONST(CME_LOCATION_ID_BYTE, 0x38)
+HCD_CONST(CME_QM_FLAGS_BYTE, 0x3A)
+HCD_CONST(CME_HOMER_ADDRESS_BYTE, 0x40)
+
+HCD_CONST(CME_HCODE_OFF_IMAGE_OFFSET, (CME_HEADER_IMAGE_OFFSET + CME_HCODE_OFFSET_BYTE))
+HCD_CONST(CME_HCODE_LEN_IMAGE_OFFSET, (CME_HEADER_IMAGE_OFFSET + CME_HCODE_LENGTH_BYTE))
+
+HCD_CONST(CME_STOP_3_TO_2_BIT_POS, 0x80000000)
+HCD_CONST(CME_STOP_4_TO_2_BIT_POS, 0x40000000)
+HCD_CONST(CME_STOP_5_TO_4_BIT_POS, 0x20000000)
+HCD_CONST(CME_STOP_8_TO_5_BIT_POS, 0x10000000)
+HCD_CONST(CME_STOP_11_TO_8_BIT_POS, 0x08000000)
+HCD_CONST(CME_VDM_ENABLE_BIT_POS, 0x04000000)
+HCD_CONST(CME_STOP_MAPPING_DISABLE_BIT_POS, 0x00000004)
+HCD_CONST(CME_QUEUED_SCAN_DISABLE_BIT_POS, 0x00000002)
+HCD_CONST(CME_SKIP_CORE_POWEROFF_BIT_POS, 0x00000001)
+HCD_CONST(CME_QM_FLAG_RESCLK_ENABLE, 0x8000)
+HCD_CONST(CME_QM_FLAG_SYS_IVRM_ENABLE, 0x4000)
+HCD_CONST(CME_QM_FLAG_SYS_VDM_ENABLE, 0x2000)
+HCD_CONST(CME_QM_FLAG_SYS_WOF_ENABLE, 0x1000)
+HCD_CONST(CME_QM_FLAG_SYS_DYN_FMIN_ENABLE, 0x0800)
+HCD_CONST(CME_QM_FLAG_SYS_DYN_FMAX_ENABLE, 0x0400)
+HCD_CONST(CME_QM_FLAG_SYS_JUMP_PROTECT, 0x0200)
+
+/// CME Hcode
+
+HCD_CONST(CME_HCODE_IMAGE_OFFSET, (CME_INT_VECTOR_SIZE + CME_HEADER_SIZE))
+//HCD_CONST(CME_HCODE_SIZE, 0)
+HCD_CONST(CME_DEBUG_PTRS_OFFSET, 0x200)
+HCD_CONST(CME_DEBUG_PTRS_SIZE, 0x24)
+HCD_CONST(CME_INSTRUMENTATION_SIZE, HALF_KB)
+HCD_CONST(CME_SRAM_HCODE_OFFSET, 0)
+
+/// Core Scan
+
+HCD_CONST(CORE_COMMON_RING_SIZE, (2 * ONE_KB))
+HCD_CONST(CORE_OVERRIDE_RING_SIZE, (1 * ONE_KB))
+HCD_CONST(CORE_SPECIFIC_RING_SIZE_PER_CORE, (1 * ONE_KB))
+HCD_CONST(CORE_SPECIFIC_RING_SIZE_TOTAL, (32 * ONE_KB)) // rounded to 32K
+
+/// Quad P-State
+
+HCD_CONST(CME_QUAD_PSTATE_SIZE, HALF_KB)
+
+// CME Hcode + Core Scan + Pstate
+
+HCD_CONST(CME_REGION_SIZE, (64 * ONE_KB))
+
+// Debug
+
+HCD_CONST(CPMR_TRACE_REGION_OFFSET, (512 * ONE_KB))
+HCD_CONST(CME_TRACE_REGION_SIZE, (16 * ONE_KB))
+HCD_CONST(CPMR_TRACE_REGION_SIZE, (CME_TRACE_REGION_SIZE* MAX_CMES_PER_CHIP)) // 192K
+HCD_CONST(CPMR_DEBUG_REGION_OFFSET, CPMR_TRACE_REGION_OFFSET + CPMR_TRACE_REGION_SIZE)
+HCD_CONST(CPMR_DEBUG_REGION_SIZE, (64 * ONE_KB)) // 192K + 64K = 256K
+
+
+
+//---------------------------------------------------------------------------------------
+
+/// PPMR Header
+
+HCD_CONST(PPMR_HOMER_OFFSET, (HOMER_PPMR_REGION_NUM* ONE_MB))
+HCD_CONST(PPMR_HEADER_SIZE, 512)
+
+HCD_CONST(PPMR_MAGIC_NUMBER_BYTE, 0x00)
+HCD_CONST(PPMR_BOOT_COPIER_OFFSET_BYTE, 0x08)
+HCD_CONST(PPMR_BOOT_LOADER_OFFSET_BYTE, 0x10)
+HCD_CONST(PPMR_BOOT_LOADER_LENGTH_BYTE, 0x14)
+HCD_CONST(PPMR_BUILD_DATE_BYTE, 0x18)
+HCD_CONST(PPMR_BUILD_VER_BYTE, 0x1C)
+HCD_CONST(PPMR_PGPE_HCODE_OFFSET_BYTE, 0x28)
+HCD_CONST(PPMR_PGPE_HCODE_LENGTH_BYTE, 0x2C)
+HCD_CONST(PPMR_GLOBAL_PSTATE_OFFSET_BYTE, 0x30)
+HCD_CONST(PPMR_GLOBAL_PSTATE_LENGTH_BYTE, 0x34)
+HCD_CONST(PPMR_LOCAL_PSTATE_OFFSET_BYTE, 0x38)
+HCD_CONST(PPMR_LOCAL_PSTATE_LENGTH_BYTE, 0x3C)
+HCD_CONST(PPMR_OCC_PSTATE_OFFSET_BYTE, 0x40)
+HCD_CONST(PPMR_OCC_PSTATE_LENGTH_BYTE, 0x44)
+HCD_CONST(PPMR_PSTATE_TABLE_OFFSET_BYTE, 0x48)
+HCD_CONST(PPMR_PSTATE_TABLE_LENGTH_BYTE, 0x4C)
+HCD_CONST(PPMR_PGPE_SRAM_IMAGE_SIZE_BYTE, 0x50)
+HCD_CONST(PPMR_PGPE_BOOT_PROG_CODE_BYTE, 0x54)
+
+/// PGPE Boot
+
+HCD_CONST(PGPE_BOOT_COPIER_PPMR_OFFSET, PPMR_HEADER_SIZE)
+HCD_CONST(PGPE_BOOT_COPIER_SIZE, ONE_KB)
+
+HCD_CONST(PGPE_BOOT_LOADER_PPMR_OFFSET,
+ (PGPE_BOOT_COPIER_PPMR_OFFSET + PGPE_BOOT_COPIER_SIZE))
+HCD_CONST(PGPE_BOOT_LOADER_SIZE, ONE_KB)
+HCD_CONST(PGPE_BOOT_LOADER_RESET_ADDR_VAL, 0x40)
+
+HCD_CONST(PGPE_INSTRUMENTATION_SIZE, (2 * ONE_KB))
+
+/// PGPE Image
+
+HCD_CONST(PGPE_AUX_TASK_SIZE, (2 * ONE_KB))
+HCD_CONST(PGPE_IMAGE_PPMR_OFFSET,
+ (PGPE_BOOT_LOADER_PPMR_OFFSET + PGPE_BOOT_LOADER_SIZE))
+HCD_CONST(PGPE_IMAGE_SIZE, (48 * ONE_KB)) //RTC158543
+HCD_CONST(PGPE_INT_VECTOR_SIZE, 384)
+HCD_CONST(PGPE_HCODE_RESET_ADDR_VAL, 0x40)
+
+/// PGPE Header
+
+HCD_CONST(PGPE_HEADER_IMAGE_OFFSET, PGPE_INT_VECTOR_SIZE)
+HCD_CONST(PGPE_HEADER_PPMR_OFFSET,
+ (PGPE_IMAGE_PPMR_OFFSET + PGPE_INT_VECTOR_SIZE))
+HCD_CONST(PGPE_HEADER_SIZE, 128)
+
+HCD_CONST(PGPE_MAGIC_NUMBER_BYTE, 0x00)
+HCD_CONST(PGPE_SYSTEM_RESET_ADDR_BYTE, 0x08)
+HCD_CONST(PGPE_SHARED_SRAM_ADDR_BYTE, 0x0C)
+HCD_CONST(PGPE_IVPR_ADDR_BYTE, 0x10)
+HCD_CONST(PGPE_SHARED_SRAM_LENGTH_BYTE, 0x14)
+HCD_CONST(PGPE_BUILD_DATE_BYTE, 0x18)
+HCD_CONST(PGPE_BUILD_VER_BYTE, 0x1C)
+HCD_CONST(PGPE_PGPE_FLAGS_BYTE, 0x20)
+HCD_CONST(PGPE_GLOBAL_PSTATE_SRAM_ADDR_BYTE, 0x28)
+HCD_CONST(PGPE_GLOBAL_PSTATE_MEM_OFFSET_BYTE, 0x30)
+HCD_CONST(PGPE_GLOBAL_PSTATE_PPB_SIZE_BYTE, 0x34)
+HCD_CONST(PGPE_GEN_PSTATE_TABLE_MEM_OFFSET_BYTE, 0x38)
+HCD_CONST(PGPE_GEN_PSTATE_TABLE_SIZE_BYTE, 0x3C)
+HCD_CONST(PGPE_OCC_PSTATE_TABLE_MEM_OFFSET_BYTE, 0x40)
+HCD_CONST(PGPE_OCC_PSTATE_TABLE_SIZE_BYTE, 0x44)
+HCD_CONST(PGPE_BEACON_ADDR_BYTE, 0x48)
+HCD_CONST(PGPE_ACTUAL_QUAD_STATUS_ADDR_BYTE, 0x4C)
+HCD_CONST(PGPE_WOF_TABLE_ADDR_BYTE, 0x50)
+HCD_CONST(PGPE_WOF_TABLE_LENGTH_BYTE, 0x54)
+
+HCD_CONST(PGPE_RESET_ADDR_IMAGE_OFFSET, (PGPE_HEADER_IMAGE_OFFSET + PGPE_SYSTEM_RESET_ADDR_BYTE))
+HCD_CONST(PGPE_BUILD_DATE_IMAGE_OFFSET, (PGPE_HEADER_IMAGE_OFFSET + PGPE_BUILD_DATE_BYTE))
+HCD_CONST(PGPE_BUILD_VER_IMAGE_OFFSET, (PGPE_HEADER_IMAGE_OFFSET + PGPE_BUILD_VER_BYTE))
+
+/// PGPE Hcode
+
+//HCD_CONST(PGPE_HCODE_SIZE, (32 * ONE_KB)) //RTC158543
+HCD_CONST(PGPE_DBG_PTR_AREA_SIZE, 64)
+HCD_CONST(PGPE_GLOBAL_PSTATE_PARAM_BLOCK_SIZE, (4 * ONE_KB))
+
+/// Pstate Parameter Block + Pstate Table
+
+HCD_CONST(OCC_PSTATE_PARAM_BLOCK_PPMR_OFFSET, (128 * ONE_KB))
+HCD_CONST(OCC_PSTATE_PARAM_BLOCK_SIZE, (8 * ONE_KB))
+HCD_CONST(OCC_PSTATE_PARAM_BLOCK_REGION_SIZE, (16 * ONE_KB))
+
+HCD_CONST(PGPE_PSTATE_OUTPUT_TABLES_PPMR_OFFSET, (144 * ONE_KB))
+HCD_CONST(PGPE_PSTATE_OUTPUT_TABLES_SIZE, (8 * ONE_KB))
+HCD_CONST(PGPE_PSTATE_OUTPUT_TABLES_REGION_SIZE, (16 * ONE_KB))
+
+HCD_CONST(OCC_WOF_TABLES_PPMR_OFFSET, (768 * ONE_KB))
+HCD_CONST(OCC_WOF_TABLES_SIZE, (256 * ONE_KB))
+
+HCD_CONST(WOF_TABLE_RESERVE,
+ OCC_WOF_TABLES_PPMR_OFFSET - (PGPE_PSTATE_OUTPUT_TABLES_PPMR_OFFSET + PGPE_PSTATE_OUTPUT_TABLES_REGION_SIZE))
+HCD_CONST(PGPE_IMAGE_RESERVE_SIZE,
+ (OCC_PSTATE_PARAM_BLOCK_PPMR_OFFSET - PGPE_IMAGE_PPMR_OFFSET - PGPE_IMAGE_SIZE - PGPE_AUX_TASK_SIZE))
+
+#endif /* __HCD_MEMMAP_BASE_H__ */
diff --git a/libpore/p9_stop_api.C b/libpore/p9_stop_api.C
new file mode 100644
index 00000000..26a14bbf
--- /dev/null
+++ b/libpore/p9_stop_api.C
@@ -0,0 +1,1028 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/utils/stopreg/p9_stop_api.C $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+
+///
+/// @file p9_stop_api.C
+/// @brief implements STOP API which create/manipulate STOP image.
+///
+// *HWP HW Owner : Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner : Prem Shanker Jha <premjha2@in.ibm.com>
+// *HWP Team : PM
+// *HWP Level : 2
+// *HWP Consumed by : HB:HYP
+
+#include "p9_stop_api.H"
+#include "p9_cpu_reg_restore_instruction.H"
+#include "p9_stop_data_struct.H"
+#include <string.h>
+#include "p9_stop_util.H"
+#include <stdio.h>
+
+#ifdef __FAPI_2_
+ #include <fapi2.H>
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+
+namespace stopImageSection
+{
+#endif
+// a true in the table below means register is of scope thread
+// whereas a false meanse register is of scope core.
+
+const StopSprReg_t g_sprRegister[] =
+{
+ { P9_STOP_SPR_HSPRG0, true },
+ { P9_STOP_SPR_HRMOR, false },
+ { P9_STOP_SPR_LPCR, true },
+ { P9_STOP_SPR_HMEER, false },
+ { P9_STOP_SPR_LDBAR, true },
+ { P9_STOP_SPR_PSSCR, true },
+ { P9_STOP_SPR_PMCR, false },
+ { P9_STOP_SPR_HID, false },
+ { P9_STOP_SPR_MSR, true },
+ { P9_STOP_SPR_DAWR, true },
+};
+
+const uint32_t MAX_SPR_SUPPORTED =
+ sizeof ( g_sprRegister ) / sizeof( StopSprReg_t );
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief validates input arguments provided by STOP API caller.
+ * @param[in] i_pImage pointer to beginning of chip's HOMER image.
+ * @param[in] i_regId SPR register id
+ * @param[in] i_coreId core id
+ * @param[in|out] i_pThreadId points to thread id
+ * @param[in|out] i_pThreadLevelReg points to scope information of SPR
+ * @return STOP_SAVE_SUCCESS if arguments found valid, error code otherwise.
+ * @note for register of scope core, function shall force io_threadId to
+ * zero.
+ */
+static StopReturnCode_t validateSprImageInputs( void* const i_pImage,
+ const CpuReg_t i_regId,
+ const uint32_t i_coreId,
+ uint32_t* i_pThreadId,
+ bool* i_pThreadLevelReg )
+{
+ uint32_t index = 0;
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+ bool sprSupported = false;
+ *i_pThreadLevelReg = false;
+
+ do
+ {
+ if( NULL == i_pImage )
+ {
+ // Error: HOMER image start location is not valid
+ // Cannot proceed further. So, let us exit.
+ l_rc = STOP_SAVE_ARG_INVALID_IMG;
+ MY_ERR( "invalid image location " );
+
+ break;
+ }
+
+ // STOP API manages STOP image based on physical core Id. PIR value
+ // is interpreted to calculate the physical core number and virtual
+ // thread number.
+ if( MAX_CORE_ID_SUPPORTED < i_coreId )
+ {
+ // Error: invalid core number. given core number exceeds maximum
+ // cores supported by chip.
+
+ // Physical core number is calculated based on following formula:
+ // core id = 4 * quad id (0..5) + core no within quad ( 0..3)
+ l_rc = STOP_SAVE_ARG_INVALID_CORE;
+ MY_ERR( "invalid core id " );
+ break;
+ }
+
+ if( MAX_THREAD_ID_SUPPORTED < *i_pThreadId )
+ {
+ //Error: invalid core thread. Given core thread exceeds maximum
+ //threads supported in a core.
+
+ // 64 bit PIR value is interpreted to calculate virtual thread
+ // Id. In fuse mode, b61 and b62 gives virtual thread id whereas in
+ // non fuse mode, b62 and b63 is read to determine the same.
+
+ l_rc = STOP_SAVE_ARG_INVALID_THREAD;
+ MY_ERR( "invalid thread " );
+ break;
+ }
+
+ for( index = 0; index < MAX_SPR_SUPPORTED; ++index )
+ {
+ if( i_regId == (CpuReg_t )g_sprRegister[index].sprId )
+ {
+ // given register is in the list of register supported
+ sprSupported = true;
+ *i_pThreadLevelReg = g_sprRegister[index].isThreadScope;
+ *i_pThreadId = *i_pThreadLevelReg ? *i_pThreadId : 0;
+ break;
+ }
+ }
+
+ if( !sprSupported )
+ {
+ // Following SPRs are supported
+ // trace out all registers supported
+ MY_ERR("Register not supported" );
+ // error code to caller.
+ l_rc = STOP_SAVE_ARG_INVALID_REG;
+ break;
+ }
+
+ }
+ while(0);
+
+ if( l_rc )
+ {
+ MY_ERR( "image 0x%08x, regId %08d, coreId %d, "
+ "threadId %d return code 0x%08x", i_pImage, i_regId,
+ i_coreId, *i_pThreadId, l_rc );
+ }
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief generates ori instruction code.
+ * @param[in] i_Rs Source register number
+ * @param[in] i_Ra destination register number
+ * @param[in] i_data 16 bit immediate data
+ * @return returns 32 bit number representing ori instruction.
+ */
+static uint32_t getOriInstruction( const uint16_t i_Rs, const uint16_t i_Ra,
+ const uint16_t i_data )
+{
+ uint32_t oriInstOpcode = 0;
+ oriInstOpcode = 0;
+ oriInstOpcode = ORI_OPCODE << 26;
+ oriInstOpcode |= i_Rs << 21;
+ oriInstOpcode |= i_Ra << 16;
+ oriInstOpcode |= i_data;
+
+ return SWIZZLE_4_BYTE(oriInstOpcode);
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief generates 32 bit key used for SPR lookup in core section.
+ */
+static uint32_t genKeyForSprLookup( const CpuReg_t i_regId )
+{
+ return getOriInstruction( 0, 0, (uint16_t) i_regId );
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief generates xor instruction code.
+ * @param[in] i_Rs source register number for xor operation
+ * @param[in] i_Ra destination register number for xor operation result
+ * @param[in] i_Rb source register number for xor operation
+ * @return returns 32 bit number representing xor immediate instruction.
+ */
+static uint32_t getXorInstruction( const uint16_t i_Ra, const uint16_t i_Rs,
+ const uint16_t i_Rb )
+{
+ uint32_t xorRegInstOpcode;
+ xorRegInstOpcode = XOR_CONST << 1;
+ xorRegInstOpcode |= OPCODE_31 << 26;
+ xorRegInstOpcode |= i_Rs << 21;
+ xorRegInstOpcode |= i_Ra << 16;
+ xorRegInstOpcode |= i_Rb << 11;
+
+ return SWIZZLE_4_BYTE(xorRegInstOpcode);
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief generates oris instruction code.
+ * @param[in] i_Rs source register number
+ * @param[in] i_Ra destination register number
+ * @param[in] i_data 16 bit immediate data
+ * @return returns 32 bit number representing oris immediate instruction.
+ */
+static uint32_t getOrisInstruction( const uint16_t i_Rs, const uint16_t i_Ra,
+ const uint16_t i_data )
+{
+ uint32_t orisInstOpcode;
+ orisInstOpcode = 0;
+ orisInstOpcode = ORIS_OPCODE << 26;
+ orisInstOpcode |= ( i_Rs & 0x001F ) << 21 | ( i_Ra & 0x001F ) << 16;
+ orisInstOpcode |= i_data;
+
+ return SWIZZLE_4_BYTE(orisInstOpcode);
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief generates instruction for mtspr
+ * @param[in] i_Rs source register number
+ * @param[in] i_Spr represents spr where data is to be moved.
+ * @return returns 32 bit number representing mtspr instruction.
+ */
+static uint32_t getMtsprInstruction( const uint16_t i_Rs, const uint16_t i_Spr )
+{
+ uint32_t mtsprInstOpcode = 0;
+ uint32_t temp = (( i_Spr & 0x03FF ) << 11);
+ mtsprInstOpcode = (uint8_t)i_Rs << 21;
+ mtsprInstOpcode = ( temp & 0x0000F800 ) << 5;
+ mtsprInstOpcode |= ( temp & 0x001F0000 ) >> 5;
+ mtsprInstOpcode |= MTSPR_BASE_OPCODE;
+
+ return SWIZZLE_4_BYTE(mtsprInstOpcode);
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief generates rldicr instruction.
+ * @param[in] i_Rs source register number
+ * @param[in] i_Ra destination register number
+ * @param[in] i_sh bit position by which contents of i_Rs are to be shifted
+ * @param[in] i_me bit position up to which mask should be 1.
+ * @return returns 32 bit number representing rldicr instruction.
+ */
+static uint32_t getRldicrInstruction( const uint16_t i_Ra, const uint16_t i_Rs,
+ const uint16_t i_sh, uint16_t i_me )
+{
+ uint32_t rldicrInstOpcode = 0;
+ rldicrInstOpcode = 0;
+ rldicrInstOpcode = ((RLDICR_OPCODE << 26 ) | ( i_Rs << 21 ) | ( i_Ra << 16 ));
+ rldicrInstOpcode |= ( ( i_sh & 0x001F ) << 11 ) | (RLDICR_CONST << 2 );
+ rldicrInstOpcode |= (( i_sh & 0x0020 ) >> 4);
+ rldicrInstOpcode |= (i_me & 0x001F ) << 6;
+ rldicrInstOpcode |= (i_me & 0x0020 );
+ return SWIZZLE_4_BYTE(rldicrInstOpcode);
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief looks up entry for given SPR in given thread/core section.
+ * @param[in] i_pThreadSectLoc start of given thread section or core section.
+ * @param[in] i_lookUpKey search key for lookup of given SPR entry.
+ * @param[in] i_isCoreReg true if register is of scope core, false
+ * otherwise.
+ * @param[in|out] io_pSprEntryLoc Input: NULL
+ * Output: location of given entry or end of table.
+ * @return STOP_SAVE_SUCCESS if entry is found, STOP_SAVE_FAIL in case of
+ * an error.
+ */
+static StopReturnCode_t lookUpSprInImage( uint32_t* i_pThreadSectLoc,
+ const uint32_t i_lookUpKey,
+ const bool i_isCoreReg,
+ void** io_pSprEntryLoc )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_FAIL;
+ uint32_t temp = i_isCoreReg ? (uint32_t)(CORE_RESTORE_CORE_AREA_SIZE) :
+ (uint32_t)(CORE_RESTORE_THREAD_AREA_SIZE);
+ uint32_t* i_threadSectEnd = i_pThreadSectLoc + temp;
+ uint32_t bctr_inst = SWIZZLE_4_BYTE(BLR_INST);
+ *io_pSprEntryLoc = NULL;
+
+ do
+ {
+ if( !i_pThreadSectLoc )
+ {
+ break;
+ }
+
+ temp = 0;
+
+ while( ( i_pThreadSectLoc <= i_threadSectEnd ) &&
+ ( temp != bctr_inst ) )
+ {
+ temp = *i_pThreadSectLoc;
+
+ if( ( temp == i_lookUpKey ) || ( temp == bctr_inst ) )
+ {
+ *io_pSprEntryLoc = i_pThreadSectLoc;
+ l_rc = STOP_SAVE_SUCCESS;
+ break;
+ }
+
+ i_pThreadSectLoc = i_pThreadSectLoc + SIZE_PER_SPR_RESTORE_INST;
+ }
+
+ }
+ while(0);
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief updates an SPR STOP image entry.
+ * @param[in] i_pSprEntryLocation location of entry.
+ * @param[in] i_regId register Id associated with SPR.
+ * @param[in] i_regData data needs to be written to SPR entry.
+ * @return STOP_SAVE_SUCCESS if update works, STOP_SAVE_FAIL otherwise.
+ */
+static StopReturnCode_t updateSprEntryInImage( uint32_t* i_pSprEntryLocation,
+ const CpuReg_t i_regId,
+ const uint64_t i_regData )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+ uint32_t tempInst = 0;
+ uint64_t tempRegData = 0;
+ bool newEntry = true;
+ uint16_t regRs = 0; //to use R0 for SPR restore insruction generation
+ uint16_t regRa = 0;
+
+ do
+ {
+ if( !i_pSprEntryLocation )
+ {
+ MY_ERR("invalid location of SPR image entry" );
+ l_rc = STOP_SAVE_FAIL;
+ break;
+ }
+
+ tempInst = genKeyForSprLookup( i_regId );
+
+ if( *i_pSprEntryLocation == tempInst )
+ {
+ newEntry = false;
+ }
+
+ //Add SPR search instruction i.e. "ori r0, r0, SPRID"
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ //clear R0 i.e. "xor ra, rs, rb"
+ tempInst = getXorInstruction( regRs, regRs, regRs );
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ tempRegData = i_regData >> 48;
+ //get lower order 16 bits of SPR restore value in R0
+ tempInst = getOrisInstruction( regRs, regRa, (uint16_t)tempRegData );
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ tempRegData = ((i_regData >> 32) & 0x0000FFFF );
+ //get bit b16-b31 of SPR restore value in R0
+ tempInst = getOriInstruction( regRs, regRa, (uint16_t)tempRegData );
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ //Rotate R0 to left by 32 bit position and zero lower order 32 bits.
+ //Place the result in R0
+ tempInst = getRldicrInstruction(regRa, regRs, 32, 31);
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ tempRegData = ((i_regData >> 16) & 0x000000FFFF );
+ //get bit b32-b47 of SPR restore value to R0
+ tempInst = getOrisInstruction( regRs, regRa, (uint16_t)tempRegData );
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ tempRegData = (uint16_t)i_regData;
+ //get bit b48-b63 of SPR restore value to R0
+ tempInst = getOriInstruction( regRs, regRa, (uint16_t)i_regData );
+ *i_pSprEntryLocation = tempInst;
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+
+ if( P9_STOP_SPR_MSR == i_regId )
+ {
+ //MSR cannot be restored completely with mtmsrd instruction.
+ //as it does not update ME, LE and HV bits. In self restore code
+ //inorder to restore MSR, contents of R21 is moved to SRR1. It also
+ //executes an RFID which causes contents of SRR1 to be copied to
+ //MSR. This allows copy of LE bit which are specifically interested
+ //in. Instruction below moves contents of MSR Value (in R0 ) to R21.
+ tempInst = SWIZZLE_4_BYTE( MR_R0_TO_R21 );
+ }
+ else if (P9_STOP_SPR_HRMOR == i_regId )
+ {
+ //Case HRMOR, move contents of R0 to a placeholder GPR (R10)
+ //Thread Launcher expects HRMOR value in R10
+ tempInst = SWIZZLE_4_BYTE( MR_R0_TO_R10 );
+ }
+ else
+ {
+ // Case other SPRs, move contents of R0 to SPR
+ tempInst =
+ getMtsprInstruction( 0, (uint16_t)i_regId );
+ }
+
+ *i_pSprEntryLocation = tempInst;
+
+ if( newEntry )
+ {
+ i_pSprEntryLocation += SIZE_PER_SPR_RESTORE_INST;
+ //at the end of SPR restore, add instruction BLR to go back to thread
+ //launcher.
+ tempInst = SWIZZLE_4_BYTE(BLR_INST);
+ *i_pSprEntryLocation = tempInst;
+ }
+ }
+ while(0);
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+StopReturnCode_t p9_stop_save_cpureg( void* const i_pImage,
+ const CpuReg_t i_regId,
+ const uint64_t i_regData,
+ const uint64_t i_pir )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS; // procedure return code
+ HomerSection_t* chipHomer = NULL;
+
+ do
+ {
+ uint32_t threadId = 0;
+ uint32_t coreId = 0;
+ uint32_t lookUpKey = 0;
+ void* pSprEntryLocation = NULL; // an offset w.r.t. to start of image
+ void* pThreadLocation = NULL;
+ bool threadScopeReg = false;
+
+ l_rc = getCoreAndThread( i_pImage, i_pir, &coreId, &threadId );
+
+ if( l_rc )
+ {
+ MY_ERR("Failed to determine Core Id and Thread Id from PIR 0x%016llx",
+ i_pir);
+ break;
+ }
+
+ MY_INF( " PIR 0x%016llx coreId %d threadid %d "
+ " registerId %d", i_pir, coreId,
+ threadId, i_regId );
+
+ // First of all let us validate all input arguments.
+ l_rc = validateSprImageInputs( i_pImage,
+ i_regId,
+ coreId,
+ &threadId,
+ &threadScopeReg );
+
+ if( l_rc )
+ {
+ // Error: bad argument traces out error code
+ MY_ERR("Bad input argument rc %d", l_rc );
+
+ break;
+ }
+
+ chipHomer = ( HomerSection_t*)i_pImage;
+
+ if( threadScopeReg )
+ {
+ pThreadLocation =
+ &(chipHomer->coreThreadRestore[coreId][threadId].threadArea[0]);
+ }
+ else
+ {
+ pThreadLocation =
+ &(chipHomer->coreThreadRestore[coreId][threadId].coreArea[0]);
+ }
+
+ if( ( SWIZZLE_4_BYTE(BLR_INST) == *(uint32_t*)pThreadLocation ) ||
+ ( SWIZZLE_4_BYTE(ATTN_OPCODE) == *(uint32_t*) pThreadLocation ) )
+ {
+ // table for given core id doesn't exit. It needs to be
+ // defined.
+ pSprEntryLocation = pThreadLocation;
+ }
+ else
+ {
+ // an SPR restore section for given core already exists
+ lookUpKey = genKeyForSprLookup( i_regId );
+ l_rc = lookUpSprInImage( (uint32_t*)pThreadLocation,
+ lookUpKey,
+ threadScopeReg,
+ &pSprEntryLocation );
+ }
+
+ if( l_rc )
+ {
+ MY_ERR("Invalid or corrupt SPR entry. CoreId 0x%08x threadId ",
+ "0x%08x regId 0x%08x lookUpKey 0x%08x pThreadLocation 0x%08x"
+ , coreId, threadId, i_regId, lookUpKey, pThreadLocation );
+ break;
+ }
+
+ l_rc = updateSprEntryInImage( (uint32_t*) pSprEntryLocation,
+ i_regId,
+ i_regData );
+
+ if( l_rc )
+ {
+ MY_ERR( " Failed to update the SPR entry of PIR 0x%08x reg"
+ "0x%08x", i_pir, i_regId );
+ break;
+ }
+
+ }
+ while(0);
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief validates all the input arguments.
+ * @param[in] i_pImage pointer to start of HOMER of image for proc chip.
+ * @param[in] i_scomAddress SCOM address of register.
+ * @param[in] i_chipletId core or cache chiplet id
+ * @param[in] i_operation operation requested for SCOM entry.
+ * @param[in] i_section image section on which operation is to be performed
+ * @return STOP_SAVE_SUCCESS if arguments found valid, error code otherwise.
+ * @note Function does not validate that the given SCOM address really
+ * belongs to the given section.
+ */
+static StopReturnCode_t validateScomImageInputs( void* const i_pImage,
+ const uint32_t i_scomAddress,
+ const uint8_t i_chipletId,
+ const ScomOperation_t i_operation,
+ const ScomSection_t i_section )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+
+ do
+ {
+ if( !i_pImage )
+ {
+ //Error Invalid image pointer
+ l_rc = STOP_SAVE_ARG_INVALID_IMG;
+ MY_ERR("invalid image location ");
+ break;
+ }
+
+ if( 0 == i_scomAddress )
+ {
+ l_rc = STOP_SAVE_SCOM_INVALID_ADDRESS;
+ MY_ERR("invalid SCOM address");
+ break;
+ }
+
+ if(( CACHE_CHIPLET_ID_MIN > i_chipletId ) ||
+ ( CORE_CHIPLET_ID_MAX < i_chipletId ))
+ {
+ l_rc = STOP_SAVE_SCOM_INVALID_CHIPLET;
+ MY_ERR("chiplet id not in range");
+ break;
+ }
+
+ if(( CORE_CHIPLET_ID_MIN > i_chipletId ) &&
+ ( CACHE_CHIPLET_ID_MAX < i_chipletId ))
+ {
+ l_rc = STOP_SAVE_SCOM_INVALID_CHIPLET;
+ MY_ERR("chiplet id not valid");
+ break;
+ }
+
+ if(( P9_STOP_SCOM_OP_MIN >= i_operation ) ||
+ ( P9_STOP_SCOM_OP_MAX <= i_operation ))
+ {
+ //invalid SCOM image operation requested
+ l_rc = STOP_SAVE_SCOM_INVALID_OPERATION;
+ MY_ERR("invalid SCOM image operation");
+ break;
+ }
+
+ if(( P9_STOP_SECTION_MIN >= i_section ) ||
+ ( P9_STOP_SECTION_MAX <= i_section ))
+ {
+ // invalid cache sub section specified
+ l_rc = STOP_SAVE_SCOM_INVALID_SECTION;
+ MY_ERR("invalid section");
+ break;
+ }
+
+ if(( i_operation == P9_STOP_SCOM_RESET ) &&
+ ( i_chipletId < CORE_CHIPLET_ID_MIN ))
+ {
+ // replace requested with a cache chiplet Id
+ l_rc = STOP_SAVE_SCOM_INVALID_OPERATION;
+ MY_ERR( "reset not supported for cache. chiplet Id 0x%08x",
+ i_chipletId );
+ break;
+ }
+
+ }
+ while(0);
+
+ if( l_rc )
+ {
+ MY_ERR("image 0x%08x SCOMAddress 0x%08x chipletId 0x%08x operation"
+ "0x%08x section 0x%08x", i_pImage, i_scomAddress, i_chipletId,
+ i_operation, i_section );
+ }
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief edit SCOM entry associated with the given core.
+ * @param[in] i_scomAddr SCOM address of register.
+ * @param[in] i_scomData data associated with SCOM register.
+ * @param[in] i_pEntryLocation points to a SCOM entry in HOMER image.
+ * @param[in] i_operation operation to be performed on SCOM entry.
+ * @return STOP_SAVE_SUCCESS if existing entry is updated, STOP_SAVE_FAIL
+ * otherwise.
+ */
+static StopReturnCode_t editScomEntry( uint32_t i_scomAddr, uint64_t i_scomData,
+ ScomEntry_t* i_pEntryLocation,
+ uint32_t i_operation )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+
+ do
+ {
+ if( !i_pEntryLocation )
+ {
+ //Error: location of SCOM entry is not known
+ //therefore no point moving forward
+ MY_ERR("SCOM entry location not valid");
+ l_rc = STOP_SAVE_FAIL;
+ break;
+ }
+
+ switch( i_operation )
+ {
+ case P9_STOP_SCOM_OR:
+ i_pEntryLocation->scomEntryData |= i_scomData;
+ break;
+
+ case P9_STOP_SCOM_AND:
+ i_pEntryLocation->scomEntryData &= i_scomData;
+ break;
+
+ case P9_STOP_SCOM_NOOP:
+ {
+ uint32_t nopInst = getOriInstruction( 0, 0, 0 );
+ i_pEntryLocation->scomEntryHeader = SWIZZLE_4_BYTE(SCOM_ENTRY_START);
+ i_pEntryLocation->scomEntryData = nopInst;
+ i_pEntryLocation->scomEntryAddress = nopInst;
+ }
+ break;
+
+ case P9_STOP_SCOM_APPEND:
+ i_pEntryLocation->scomEntryHeader = SWIZZLE_4_BYTE(SCOM_ENTRY_START);
+ i_pEntryLocation->scomEntryData = i_scomData;
+ i_pEntryLocation->scomEntryAddress = i_scomAddr;
+ break;
+ }
+
+ }
+ while(0);
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+/**
+ * @brief update SCOM entry associated with the given core.
+ * @param[in] i_scomAddr SCOM address of register.
+ * @param[in] i_scomData data associated with SCOM register.
+ * @param[in] i_scomEntry points to a SCOM entry in cache section of HOMER image.
+ * @return STOP_SAVE_SUCCESS if new entry is added, STOP_SAVE_FAIL otherwise.
+ * @note adds an entry at a given location. It can be used to add entry in
+ * place of NOP, at the end of table or as first entry of the cache
+ * sub-section(L2, L3 or EQ ).
+ */
+static StopReturnCode_t updateScomEntry( uint32_t i_scomAddr, uint64_t i_scomData,
+ ScomEntry_t* i_scomEntry )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+
+ do
+ {
+ if( !i_scomEntry )
+ {
+ MY_ERR( "cache entry cannot be located");
+ l_rc = STOP_SAVE_SCOM_ENTRY_UPDATE_FAILED;
+ break;
+ }
+
+ i_scomEntry->scomEntryHeader = SWIZZLE_4_BYTE(SCOM_ENTRY_START); // done for now
+ i_scomEntry->scomEntryAddress = i_scomAddr;
+ i_scomEntry->scomEntryData = i_scomData;
+
+ }
+ while(0);
+
+ return l_rc;
+}
+
+//-----------------------------------------------------------------------------
+
+StopReturnCode_t p9_stop_save_scom( void* const i_pImage,
+ const uint32_t i_scomAddress,
+ const uint64_t i_scomData,
+ const ScomOperation_t i_operation,
+ const ScomSection_t i_section )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+ StopCacheSection_t* pStopCacheScomStart = NULL;
+ ScomEntry_t* pScomEntry = NULL;
+ uint32_t entryLimit = 0;
+ uint8_t chipletId = 0;
+
+ uint32_t nopInst;
+ ScomEntry_t* pEntryLocation = NULL;
+ ScomEntry_t* pNopLocation = NULL;
+ ScomEntry_t* pTableEndLocationtable = NULL;
+ uint32_t swizzleAddr;
+ uint64_t swizzleData;
+ uint32_t swizzleAttn;
+ uint32_t swizzleEntry;
+ uint32_t index = 0;
+ uint32_t swizzleBlr = SWIZZLE_4_BYTE(BLR_INST);
+
+ do
+ {
+ chipletId = i_scomAddress >> 24;
+ chipletId = chipletId & 0x3F;
+
+ l_rc = validateScomImageInputs( i_pImage,
+ i_scomAddress,
+ chipletId,
+ i_operation,
+ i_section );
+
+ if( l_rc )
+ {
+ MY_ERR( "invalid argument: aborting");
+ break;
+ }
+
+ if( chipletId >= CORE_CHIPLET_ID_MIN )
+ {
+ // chiplet is core. So, let us find the start address of SCOM area
+ // pertaining to a core in STOP image.
+ pScomEntry = CORE_ID_SCOM_START(i_pImage,
+ chipletId )
+ entryLimit = MAX_CORE_SCOM_ENTRIES;
+ }
+ else
+ {
+ // chiplet is a cache. let us find start address of cache section
+ // associated with given chiplet. A cache section associated with
+ // given chiplet is split in to L2, L3 and EQ area.
+ pStopCacheScomStart = CACHE_SECTN_START(i_pImage,
+ chipletId);
+ }
+
+ if(( !pStopCacheScomStart ) && ( !pScomEntry) )
+ {
+ //Error invalid pointer to SCOM entry in cache or core section
+ //of STOP image.
+ MY_ERR("invalid start location for chiplet %d",
+ chipletId );
+ break;
+ }
+
+ switch( i_section )
+ {
+ case P9_STOP_SECTION_EQ_SCOM:
+ pScomEntry = pStopCacheScomStart->nonCacheArea;
+ entryLimit = MAX_EQ_SCOM_ENTRIES;
+ break;
+
+ case P9_STOP_SECTION_L2:
+ pScomEntry = pStopCacheScomStart->l2CacheArea;
+ entryLimit = MAX_L2_SCOM_ENTRIES;
+ break;
+
+ case P9_STOP_SECTION_L3:
+ pScomEntry = pStopCacheScomStart->l3CacheArea;
+ entryLimit = MAX_L3_SCOM_ENTRIES;
+ break;
+
+ case P9_STOP_SECTION_CORE_SCOM:
+ //macro CORE_ID_SCOM_START already gives start of scom
+ //entry for given core. entry limit too is assigned thereafter.
+ //Handling for core and cache segment is different for scom
+ //entries. It is because scom entries are organized differently
+ //in core and cache segment.
+ break;
+
+ default:
+ l_rc = STOP_SAVE_SCOM_INVALID_SECTION;
+ break;
+ }
+
+ if(( !pScomEntry ) || ( l_rc ) )
+ {
+ // Error Invalid pointer to cache entry
+ MY_ERR("invalid subsection %d or internal firmware failure",
+ i_section );
+ l_rc = STOP_SAVE_FAIL;
+ break;
+ }
+
+ nopInst = getOriInstruction( 0, 0, 0 );
+ pEntryLocation = NULL;
+ pNopLocation = NULL;
+ pTableEndLocationtable = NULL;
+ swizzleAddr = SWIZZLE_4_BYTE(i_scomAddress);
+ swizzleData = SWIZZLE_8_BYTE(i_scomData);
+ swizzleAttn = SWIZZLE_4_BYTE(ATTN_OPCODE);
+ swizzleEntry = SWIZZLE_4_BYTE(SCOM_ENTRY_START);
+
+ for( index = 0; index < entryLimit; ++index )
+ {
+ uint32_t entrySwzAddress = pScomEntry[index].scomEntryAddress;
+
+ if( ( swizzleAddr == entrySwzAddress ) && ( !pEntryLocation ) )
+
+ {
+ pEntryLocation = &pScomEntry[index];
+ }
+
+ if( (( nopInst == entrySwzAddress ) ||
+ ( swizzleAttn == entrySwzAddress ) ||
+ ( swizzleBlr == entrySwzAddress )) && ( !pNopLocation ) )
+ {
+ pNopLocation = &pScomEntry[index];
+ }
+
+ if( swizzleEntry == pScomEntry[index].scomEntryHeader )
+ {
+ continue;
+ }
+
+ pTableEndLocationtable = &pScomEntry[index];
+ break;
+ }
+
+ if( ( !pEntryLocation ) && ( !pTableEndLocationtable ) )
+ {
+ MY_ERR(" exhausted all location available for section"
+ "0x%08x scom address 0x%08x",
+ i_section, i_scomAddress );
+ l_rc = STOP_SAVE_SCOM_ENTRY_UPDATE_FAILED;
+ break;
+ }
+
+ switch( i_operation )
+ {
+ case P9_STOP_SCOM_APPEND:
+ {
+ ScomEntry_t* pScomAppend = NULL;
+
+ if( pNopLocation )
+ {
+ pScomAppend = pNopLocation;
+ }
+ else
+ {
+ pScomAppend = pTableEndLocationtable;
+ }
+
+ l_rc = updateScomEntry ( swizzleAddr,
+ swizzleData, pScomAppend );
+ }
+ break;
+
+ case P9_STOP_SCOM_REPLACE:
+ {
+ ScomEntry_t* scomReplace = NULL;
+
+ if( pEntryLocation )
+ {
+ scomReplace = pEntryLocation;
+ }
+ else
+ {
+ scomReplace = pTableEndLocationtable;
+ }
+
+ l_rc = updateScomEntry( swizzleAddr,
+ swizzleData, scomReplace );
+ }
+ break;
+
+ case P9_STOP_SCOM_OR:
+ case P9_STOP_SCOM_AND:
+ case P9_STOP_SCOM_NOOP:
+
+ if( pEntryLocation )
+ {
+ l_rc = editScomEntry( swizzleAddr,
+ swizzleData,
+ pEntryLocation,
+ i_operation );
+ }
+ else
+ {
+ //Invalid operation requested.
+ MY_ERR( "entry not found edit chiplet Id 0x%08x "
+ "swizzle addr 0x%08x ",
+ chipletId, swizzleAddr );
+
+ l_rc = STOP_SAVE_SCOM_INVALID_OPERATION;
+ }
+
+ break;
+
+ case P9_STOP_SCOM_RESET:
+
+ if( P9_STOP_SECTION_CORE_SCOM == i_section )
+ {
+ memset( pScomEntry, 0x00, CORE_SCOM_RESTORE_SIZE_PER_CORE );
+ }
+
+ break;
+
+ case P9_STOP_SCOM_OR_APPEND:
+ case P9_STOP_SCOM_AND_APPEND:
+ {
+ uint32_t tempOperation = P9_STOP_SCOM_APPEND;
+ ScomEntry_t* editAppend = NULL;
+
+ if( NULL == pEntryLocation )
+ {
+ editAppend = pTableEndLocationtable;
+ }
+ else
+ {
+ editAppend = pEntryLocation;
+
+ if( P9_STOP_SCOM_OR_APPEND == i_operation )
+ {
+ tempOperation = P9_STOP_SCOM_OR;
+ }
+ else
+ {
+ tempOperation = P9_STOP_SCOM_AND;
+ }
+ }
+
+ l_rc = editScomEntry( swizzleAddr,
+ swizzleData,
+ editAppend,
+ tempOperation );
+ }
+ break;
+
+ default:
+ l_rc = STOP_SAVE_SCOM_INVALID_OPERATION;
+ break;
+ }
+
+ }
+ while(0);
+
+ if( l_rc )
+ {
+ MY_ERR("SCOM image operation 0x%08x failed for chiplet 0x%08x addr"
+ "0x%08x", i_operation, chipletId ,
+ i_scomAddress );
+ }
+
+ return l_rc;
+}
+
+
+#ifdef __cplusplus
+} //namespace stopImageSection ends
+
+} //extern "C"
+#endif
diff --git a/libpore/p9_stop_api.H b/libpore/p9_stop_api.H
new file mode 100644
index 00000000..79abd000
--- /dev/null
+++ b/libpore/p9_stop_api.H
@@ -0,0 +1,163 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/utils/stopreg/p9_stop_api.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+#ifndef __P9_STOP_IMAGE_API_
+#define __P9_STOP_IMAGE_API_
+
+#include <stdint.h>
+
+#ifdef __SKIBOOT__
+ #include <skiboot.h>
+#endif
+
+///
+/// @file p9_stop_api.H
+/// @brief describes STOP API which create/manipulate STOP image.
+///
+// *HWP HW Owner : Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner : Prem Shanker Jha <premjha2@in.ibm.com>
+// *HWP Team : PM
+// *HWP Level : 2
+// *HWP Consumed by : HB:HYP
+
+#ifdef __cplusplus
+namespace stopImageSection
+{
+#endif
+
+/**
+ * @brief all SPRs and MSR for which register restore is to be supported.
+ * @note STOP API design has built in support to accomodate 8 register of
+ * scope core and thread each.
+ */
+typedef enum
+{
+ P9_STOP_SPR_DAWR = 180, // thread register
+ P9_STOP_SPR_HSPRG0 = 304, // thread register
+ P9_STOP_SPR_HRMOR = 313, // core register
+ P9_STOP_SPR_LPCR = 318, // thread register
+ P9_STOP_SPR_HMEER = 337, // core register
+ P9_STOP_SPR_LDBAR = 850, // thread register
+ P9_STOP_SPR_PSSCR = 855, // thread register
+ P9_STOP_SPR_PMCR = 884, // core register
+ P9_STOP_SPR_HID = 1008, // core register
+ P9_STOP_SPR_MSR = 2000, // thread register
+} CpuReg_t;
+
+/**
+ * @brief lists all the bad error codes.
+ */
+typedef enum
+{
+ STOP_SAVE_SUCCESS = 0,
+ STOP_SAVE_ARG_INVALID_IMG = 1,
+ STOP_SAVE_ARG_INVALID_REG = 2,
+ STOP_SAVE_ARG_INVALID_THREAD = 3,
+ STOP_SAVE_ARG_INVALID_MODE = 4,
+ STOP_SAVE_ARG_INVALID_CORE = 5,
+ STOP_SAVE_SPR_ENTRY_NOT_FOUND = 6,
+ STOP_SAVE_SPR_ENTRY_UPDATE_FAILED = 7,
+ STOP_SAVE_SCOM_INVALID_OPERATION = 8,
+ STOP_SAVE_SCOM_INVALID_SECTION = 9,
+ STOP_SAVE_SCOM_INVALID_ADDRESS = 10,
+ STOP_SAVE_SCOM_INVALID_CHIPLET = 11,
+ STOP_SAVE_SCOM_ENTRY_UPDATE_FAILED = 12,
+ STOP_SAVE_INVALID_FUSED_CORE_STATUS = 13,
+ STOP_SAVE_FAIL = 14, // for internal failure within firmware.
+} StopReturnCode_t;
+
+/**
+ * @brief summarizes all operations supported on scom entries of STOP image.
+ */
+typedef enum
+{
+ P9_STOP_SCOM_OP_MIN = 0,
+ P9_STOP_SCOM_APPEND = 1,
+ P9_STOP_SCOM_REPLACE = 2,
+ P9_STOP_SCOM_OR = 3,
+ P9_STOP_SCOM_AND = 4,
+ P9_STOP_SCOM_NOOP = 5,
+ P9_STOP_SCOM_RESET = 6,
+ P9_STOP_SCOM_OR_APPEND = 7,
+ P9_STOP_SCOM_AND_APPEND = 8,
+ P9_STOP_SCOM_OP_MAX = 9
+} ScomOperation_t;
+
+/**
+ * @brief All subsections that contain scom entries in a STOP image.
+ */
+typedef enum
+{
+ P9_STOP_SECTION_MIN = 0,
+ P9_STOP_SECTION_CORE_SCOM = 1,
+ P9_STOP_SECTION_EQ_SCOM = 2,
+ P9_STOP_SECTION_L2 = 3,
+ P9_STOP_SECTION_L3 = 4,
+ P9_STOP_SECTION_MAX = 5
+} ScomSection_t;
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+/**
+ * @brief Updates STOP image entry associated with CPU register.
+ * @param[in] i_pImage start address of homer image associated with processor.
+ * @param[in] i_regId id of SPR for which STOP image needs to be updated.
+ * @param[in] i_regData data to be restored in SPR register.
+ * @param[in] i_pir value of processor identification register (PIR)
+ * @return STOP_SAVE_SUCCESS SUCCESS if image is updated successfully, error
+ * code otherwise.
+ */
+
+StopReturnCode_t p9_stop_save_cpureg( void* const i_pImage,
+ const CpuReg_t i_regId,
+ const uint64_t i_regData,
+ const uint64_t i_pir );
+
+/**
+ * @brief Updates scom image entry associated with given core or cache in
+ * STOP section of homer image.
+ * @param[in] i_pImage start address of homer image of P9 chip.
+ * @param[in] i_scomAddress fully qualified address of SCOM register.
+ * @param[in] i_scomData data associated with SCOM register.
+ * @param[in] i_operation operation to be done on SCOM image entry.
+ * @param[in] i_section area to which given SCOM entry belongs.
+ * @return STOP_SAVE_SUCCESS if image is updated successfully, error code
+ * otherwise.
+ * @note API is intended to update SCOM image entry associated with given
+ * core or given part of a cache section. API doesn't validate if
+ * a given SCOM address really belongs to given section.
+ */
+StopReturnCode_t p9_stop_save_scom( void* const i_pImage,
+ const uint32_t i_scomAddress,
+ const uint64_t i_scomData,
+ const ScomOperation_t i_operation,
+ const ScomSection_t i_section );
+
+#ifdef __cplusplus
+} // extern "C"
+}; // namespace stopImageSection ends
+#endif //__cplusplus
+
+#endif //__P9_STOP_IMAGE_API_
diff --git a/libpore/p9_stop_data_struct.H b/libpore/p9_stop_data_struct.H
new file mode 100644
index 00000000..2201021e
--- /dev/null
+++ b/libpore/p9_stop_data_struct.H
@@ -0,0 +1,149 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/utils/stopreg/p9_stop_data_struct.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+
+///
+/// @file p9_stop_data_struct.H
+/// @brief describes data structures internal to STOP API.
+///
+// *HWP HW Owner : Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner : Prem Shanker Jha <premjha2@in.ibm.com>
+// *HWP Team : PM
+// *HWP Level : 2
+// *HWP Consumed by : HB:HYP
+#ifndef __STOP_DATA_STRUCT_
+#define __STOP_DATA_STRUCT_
+
+#ifndef _AIX
+ #include <endian.h>
+#endif
+
+#include "p9_hcd_memmap_base.H"
+
+#ifdef __SKIBOOT__
+ #include <skiboot.h>
+#endif
+
+#ifdef __FAPI_2_
+ #include <fapi2.H>
+#endif
+
+
+#ifdef __cplusplus
+extern "C" {
+namespace stopImageSection
+{
+#endif
+
+enum
+{
+ MAX_SPR_RESTORE_INST = 0x08,
+ SIZE_PER_SPR_RESTORE_INST = ((4 * sizeof(uint8_t)) / sizeof(uint32_t)),
+};
+
+typedef struct
+{
+ uint32_t scomEntryHeader;
+ uint32_t scomEntryAddress;
+ uint64_t scomEntryData;
+} ScomEntry_t;
+
+/**
+ * @brief models a CPU register restoration area in STOP section of homer image.
+ */
+typedef struct
+{
+ uint8_t threadArea[CORE_RESTORE_THREAD_AREA_SIZE];
+ uint8_t coreArea[CORE_RESTORE_CORE_AREA_SIZE];
+} SprRestoreArea_t;
+
+/**
+ * @brief models homer image of a chip.
+ * @note sections not relevant for CPU register restoration have been
+ * abstracted using field 'reserve'.
+ */
+typedef struct
+{
+ uint8_t occ_host_sgpe_area[ TWO_MB ]; // CPU restore area starts at an offset of 2MB from chip HOMER
+ uint8_t interrruptHandler[SELF_RESTORE_INT_SIZE];
+ uint8_t threadLauncher[THREAD_LAUNCHER_SIZE];
+ SprRestoreArea_t coreThreadRestore[MAX_CORES_PER_CHIP][MAX_THREADS_PER_CORE];
+ uint8_t reserve[(ONE_KB * ONE_KB) - SELF_RESTORE_SIZE_TOTAL];
+} HomerSection_t;
+
+/**
+ * @brief models cache subsection in STOP section of a given homer image.
+ * @note given the start of cache subsection associated with a given core,
+ * the structure below represents what a cache subsection would look
+ * like. Based on known start address, quick traversing can be done
+ * within the cache subsection.
+ */
+typedef struct
+{
+ ScomEntry_t nonCacheArea[MAX_EQ_SCOM_ENTRIES];
+ ScomEntry_t l2CacheArea[MAX_L2_SCOM_ENTRIES];
+ ScomEntry_t l3CacheArea[MAX_L3_SCOM_ENTRIES];
+} StopCacheSection_t;
+
+/**
+ * @brief summarizes attributes associated with a SPR register.
+ */
+typedef struct
+{
+ uint32_t sprId;
+ bool isThreadScope;
+} StopSprReg_t;
+
+enum
+{
+ SIZE_SCOM_ENTRY = sizeof( ScomEntry_t ),
+ SCOM_ENTRY_START = 0xDEADDEAD,
+};
+
+#ifdef __FAPI_2_
+ #define MY_ERR( _fmt_, _args_...) FAPI_ERR(_fmt_, ##_args_)
+ #define MY_INF(_fmt_, _args_...) FAPI_INF(_fmt_, ##_args_)
+#else
+ #define MY_ERR( _fmt_, _args_...)
+ #define MY_INF(_fmt_, _args_...)
+#endif
+
+#define CORE_ID_SCOM_START(io_image,\
+ i_chipletId) \
+((ScomEntry_t*)(((uint8_t*)(io_image)) + CORE_SCOM_RESTORE_HOMER_OFFSET +\
+ ((i_chipletId - CORE_CHIPLET_ID_MIN) * \
+ CORE_SCOM_RESTORE_SIZE_PER_CORE)));
+
+#define CACHE_SECTN_START(io_image,\
+ i_chipletId) \
+((StopCacheSection_t *)(((uint8_t *)(io_image)) + QUAD_SCOM_RESTORE_HOMER_OFFSET +\
+ ((i_chipletId - CACHE_CHIPLET_ID_MIN) * \
+ QUAD_SCOM_RESTORE_SIZE_PER_QUAD)));
+#ifdef __cplusplus
+} // extern "C"
+
+} //namespace stopImageSection ends
+#endif //__cplusplus
+
+#endif
diff --git a/libpore/p9_stop_util.C b/libpore/p9_stop_util.C
new file mode 100644
index 00000000..6fb8d679
--- /dev/null
+++ b/libpore/p9_stop_util.C
@@ -0,0 +1,186 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/utils/stopreg/p9_stop_util.C $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2015,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+
+///
+/// @file p9_stop_util.C
+/// @brief implements some utilty functions for STOP API.
+///
+// *HWP HW Owner : Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner : Prem Shanker Jha <premjha2@in.ibm.com>
+// *HWP Team : PM
+// *HWP Level : 2
+// *HWP Consumed by : HB:HYP
+
+#include "p9_stop_api.H"
+#include "p9_stop_util.H"
+#include "p9_stop_data_struct.H"
+
+#ifdef __cplusplus
+namespace stopImageSection
+{
+#endif
+
+/**
+ * @brief Returns proc chip's fuse mode status.
+ * @param i_pImage points to start of chip's HOMER image.
+ * @param o_fusedMode points to fuse mode information.
+ * @return STOP_SAVE_SUCCESS if functions succeeds, error code otherwise.
+ */
+static StopReturnCode_t isFusedMode( void* const i_pImage, bool* o_fusedMode )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+ *o_fusedMode = false;
+
+ do
+ {
+ HomerSection_t* pHomerDesc = ( HomerSection_t* ) i_pImage;
+ HomerImgDesc_t* pHomer = (HomerImgDesc_t*)( pHomerDesc->interrruptHandler );
+
+ if( !i_pImage )
+ {
+ MY_ERR( "invalid pointer to HOMER image");
+ l_rc = STOP_SAVE_ARG_INVALID_IMG;
+ break;
+ }
+
+
+ uint64_t cpmrCheckWord = SWIZZLE_8_BYTE(pHomer->cpmrMagicWord);
+ cpmrCheckWord = cpmrCheckWord >> 32;
+
+ if( CPMR_REGION_CHECK_WORD != cpmrCheckWord )
+ {
+ MY_ERR("corrupt or invalid HOMER image location 0x%016llx",
+ SWIZZLE_8_BYTE(pHomer->cpmrMagicWord) );
+ l_rc = STOP_SAVE_ARG_INVALID_IMG;
+ break;
+ }
+
+ if( (uint8_t) FUSED_CORE_MODE == pHomer->fusedModeStatus )
+ {
+ *o_fusedMode = true;
+ break;
+ }
+
+ if( (uint8_t) NONFUSED_CORE_MODE == pHomer->fusedModeStatus )
+ {
+ break;
+ }
+
+ MY_ERR("Unexpected value 0x%08x for fused mode. Bad or corrupt "
+ "HOMER location", pHomer->fuseModeStatus );
+ l_rc = STOP_SAVE_INVALID_FUSED_CORE_STATUS ;
+
+ }
+ while(0);
+
+ return l_rc;
+}
+
+//----------------------------------------------------------------------
+
+StopReturnCode_t getCoreAndThread( void* const i_pImage, const uint64_t i_pir,
+ uint32_t* o_pCoreId, uint32_t* o_pThreadId )
+{
+ StopReturnCode_t l_rc = STOP_SAVE_SUCCESS;
+
+ do
+ {
+ // for SPR restore using 'Virtual Thread' and 'Physical Core' number
+ // In Fused Mode:
+ // bit b28 and b31 of PIR give physical core and b29 and b30 gives
+ // virtual thread id.
+ // In Non Fused Mode
+ // bit 28 and b29 of PIR give both logical and physical core number
+ // whereas b30 and b31 gives logical and virtual thread id.
+ bool fusedMode = false;
+ uint8_t coreThreadInfo = (uint8_t)i_pir;
+ *o_pCoreId = 0;
+ *o_pThreadId = 0;
+ l_rc = isFusedMode( i_pImage, &fusedMode );
+
+ if( l_rc )
+ {
+ MY_ERR(" Checking Fused mode. Read failed 0x%08x", l_rc );
+ break;
+ }
+
+ if( fusedMode )
+ {
+ if( coreThreadInfo & FUSED_CORE_BIT1 )
+ {
+ *o_pThreadId = 2;
+ }
+
+ if( coreThreadInfo & FUSED_CORE_BIT2 )
+ {
+ *o_pThreadId += 1;
+ }
+
+ if( coreThreadInfo & FUSED_CORE_BIT0 )
+ {
+ *o_pCoreId = 2;
+ }
+
+ if( coreThreadInfo & FUSED_CORE_BIT3 )
+ {
+ *o_pCoreId += 1;
+ }
+ }
+ else
+ {
+ if( coreThreadInfo & FUSED_CORE_BIT0 )
+ {
+ *o_pCoreId = 2;
+ }
+
+ if ( coreThreadInfo & FUSED_CORE_BIT1 )
+ {
+ *o_pCoreId += 1;
+ }
+
+ if( coreThreadInfo & FUSED_CORE_BIT2 )
+ {
+ *o_pThreadId = 2;
+ }
+
+ if( coreThreadInfo & FUSED_CORE_BIT3 )
+ {
+ *o_pThreadId += 1;
+ }
+ }
+
+ MY_INF("Core Type %s", fusedMode ? "Fused" : "Un-Fused" );
+ //quad field is not affected by fuse mode
+ *o_pCoreId += 4 * (( coreThreadInfo & 0x70 ) >> 4 );
+ }
+ while(0);
+
+ return l_rc;
+}
+
+#ifdef __cplusplus
+}//namespace stopImageSection ends
+#endif
+
diff --git a/libpore/p9_stop_util.H b/libpore/p9_stop_util.H
new file mode 100644
index 00000000..3266fdef
--- /dev/null
+++ b/libpore/p9_stop_util.H
@@ -0,0 +1,145 @@
+/* IBM_PROLOG_BEGIN_TAG */
+/* This is an automatically generated prolog. */
+/* */
+/* $Source: src/import/chips/p9/procedures/hwp/lib/p9_stop_util.H $ */
+/* */
+/* OpenPOWER HostBoot Project */
+/* */
+/* Contributors Listed Below - COPYRIGHT 2016,2017 */
+/* [+] International Business Machines Corp. */
+/* */
+/* */
+/* 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 */
+#ifndef __P9_STOP_UTIL_
+#define __P9_STOP_UTIL_
+
+#ifdef _AIX
+ #define __BYTE_ORDER __BIG_ENDIAN
+#elif __SKIBOOT__
+ #include <skiboot.h>
+#else
+ #include <endian.h>
+#endif
+
+#ifndef __PPE_PLAT
+ #include "p9_stop_api.H"
+#endif
+
+#ifdef FAPI_2
+ #include <fapi2.H>
+#endif
+
+///
+/// @file p9_stop_util.H
+/// @brief describes some utilty functions for STOP API.
+///
+// *HWP HW Owner : Greg Still <stillgs@us.ibm.com>
+// *HWP FW Owner : Prem Shanker Jha <premjha2@in.ibm.com>
+// *HWP Team : PM
+// *HWP Level : 2
+// *HWP Consumed by : HB:HYP
+#ifndef __PPE_PLAT
+#ifdef __cplusplus
+namespace stopImageSection
+{
+#endif
+#endif //__PPE_PLAT
+/**
+ * @brief helper function to swizzle given input data
+ * @note swizles bytes to handle endianess issue.
+ */
+#if( __BYTE_ORDER == __BIG_ENDIAN )
+
+// NOP if it is a big endian system
+#define SWIZZLE_2_BYTE(WORD) WORD
+#define SWIZZLE_4_BYTE(WORD) WORD
+#define SWIZZLE_8_BYTE(WORD) WORD
+
+#else
+#define SWIZZLE_2_BYTE(WORD) \
+ ( (((WORD) >> 8) & 0x00FF) | (((WORD) << 8) & 0xFF00) )
+
+#define SWIZZLE_4_BYTE(WORD) \
+ ( (((WORD) >> 24) & 0x000000FF) | (((WORD) >> 8) & 0x0000FF00) | \
+ (((WORD) << 8) & 0x00FF0000) | (((WORD) << 24) & 0xFF000000) )
+
+#define SWIZZLE_8_BYTE(WORD) \
+ ( (((WORD) >> 56) & 0x00000000000000FF) | \
+ (((WORD) >> 40) & 0x000000000000FF00)| \
+ (((WORD) >> 24) & 0x0000000000FF0000) | \
+ (((WORD) >> 8) & 0x00000000FF000000) | \
+ (((WORD) << 8) & 0x000000FF00000000) | \
+ (((WORD) << 24) & 0x0000FF0000000000) | \
+ (((WORD) << 40) & 0x00FF000000000000) | \
+ (((WORD) << 56) & 0xFF00000000000000) )
+#endif
+
+/**
+ * @brief describes details of CPMR header in HOMER.
+ */
+typedef struct
+{
+ uint64_t attnOpcodes;
+ uint64_t cpmrMagicWord;
+ uint32_t buildDate;
+ uint32_t version;
+ uint8_t reserve1[7];
+ uint8_t fusedModeStatus;
+ uint32_t cmeImgOffset;
+ uint32_t cmeImgLength;
+ uint32_t cmeCommonRingOffset;
+ uint32_t cmeCommonRingLength;
+ uint32_t cmePstateOffset;
+ uint32_t cmePstateLength;
+ uint32_t coreSpecRingOffset;
+ uint32_t coreSpecRingLen;
+ uint32_t coreScomOffset;
+ uint32_t coreScomLength;
+ uint32_t reserve2[184];
+} HomerImgDesc_t;
+
+/**
+ * @brief enumerates bit(s) positions of interest for PIR.
+ */
+enum
+{
+ FUSED_CORE_BIT0 = 0x08,
+ FUSED_CORE_BIT1 = 0x04,
+ FUSED_CORE_BIT2 = 0x02,
+ FUSED_CORE_BIT3 = 0x01,
+ QUAD_BITS = 0x70
+};
+
+#ifndef __PPE_PLAT
+/**
+ * @brief returns core id and thread id by parsing a given PIR.
+ * @param i_pStopImage points to STOP image associated with a proc chip.
+ * @param i_pir PIR associated with a core's thread.
+ * @param o_coreId points to core id value obtained from PIR.
+ * @param o_threadId points to thread id value obtained from PIR.
+ * @return SUCCESS if function suceeds, error code otherwise.
+ */
+StopReturnCode_t getCoreAndThread( void* const i_pStopImage,
+ const uint64_t i_pir,
+ uint32_t* o_coreId,
+ uint32_t* o_threadId );
+#ifdef __cplusplus
+} // namespace stopImageSection ends
+
+#endif
+#endif //__PPE_PLAT
+#endif
+
+
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