diff options
Diffstat (limited to 'src/usr/hwpf/hwp/include/pgp_common.h')
| -rw-r--r-- | src/usr/hwpf/hwp/include/pgp_common.h | 665 |
1 files changed, 0 insertions, 665 deletions
diff --git a/src/usr/hwpf/hwp/include/pgp_common.h b/src/usr/hwpf/hwp/include/pgp_common.h deleted file mode 100644 index 5754758bb..000000000 --- a/src/usr/hwpf/hwp/include/pgp_common.h +++ /dev/null @@ -1,665 +0,0 @@ -/* IBM_PROLOG_BEGIN_TAG */ -/* This is an automatically generated prolog. */ -/* */ -/* $Source: src/usr/hwpf/hwp/include/pgp_common.h $ */ -/* */ -/* OpenPOWER HostBoot Project */ -/* */ -/* COPYRIGHT International Business Machines Corp. 2012,2014 */ -/* */ -/* Licensed under the Apache License, Version 2.0 (the "License"); */ -/* you may not use this file except in compliance with the License. */ -/* You may obtain a copy of the License at */ -/* */ -/* http://www.apache.org/licenses/LICENSE-2.0 */ -/* */ -/* Unless required by applicable law or agreed to in writing, software */ -/* distributed under the License is distributed on an "AS IS" BASIS, */ -/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */ -/* implied. See the License for the specific language governing */ -/* permissions and limitations under the License. */ -/* */ -/* IBM_PROLOG_END_TAG */ -// $Id: pgp_common.h,v 1.2 2012/08/13 16:11:58 stillgs Exp $ - -#ifndef __PGP_COMMON_H__ -#define __PGP_COMMON_H__ - -/// \file pgp_common.h -/// \brief Common header for SSX and PMX versions of PgP -/// -/// This header is maintained as part of the SSX port for PgP, but needs to be -/// physically present in the PMX area to allow dropping PMX code as a whole -/// to other teams. - -// -*- WARNING: This file is maintained as part of SSX. Do not edit in -*- -// -*- the PMX area as your edits will be lost. -*- - -#ifndef __ASSEMBLER__ -#include <stdint.h> -#endif - -//////////////////////////////////////////////////////////////////////////// -// Configuration -//////////////////////////////////////////////////////////////////////////// - -#define PGP_NCORES 16 -#define PGP_NMCS 8 -#define PGP_NCENTAUR 8 -#define PGP_NTHREADS 8 - -//////////////////////////////////////////////////////////////////////////// -// Clocking -//////////////////////////////////////////////////////////////////////////// - -/// PgP nest runs at 2.4 GHz -/// -/// \todo This drives the pervasive domain clocking, and there is some idea to -/// make this frequency variable. If so then this will be a system-specific -/// constant. Thus it's a good idea to keep as much timing information as -/// possible relative to the nest frequency. -/// -/// \bug This constant needs to be read and handled as an attribute -#define NEST_FREQUENCY_KHZ 2400000 - -/// Pervasive clock is nest / 4 -#define PERVASIVE_FREQUENCY_HZ (NEST_FREQUENCY_KHZ * 250) - -/// PgP/OCC uses the pervasive frequency directly to drive PPC405 timers -#define SSX_TIMEBASE_FREQUENCY_HZ PERVASIVE_FREQUENCY_HZ - -/// The pervasive hang timer divider used for the OCB -#define OCB_TIMER_DIVIDER 512 - -/// The OCB timer frequency -/// -/// The frequency is based on a pervasive hang timer that is formed by -/// dividing the nominal 600 MHz pervasive clock by 512 to yield a 1.1719 MHz -/// clock (853ns period). This is a dynamic configuration option, but is -/// assumed to be initialized as the given frequency. If not, then firmware -/// will have to do some SCOMs to figure out what the real divider and -/// frequency are. -#define OCB_TIMER_FREQUENCY_HZ (PERVASIVE_FREQUENCY_HZ / OCB_TIMER_DIVIDER) - - -/// The pervasive hang timer divider used for the PMC -#define PMC_HANG_PULSE_DIVIDER (32 * 1024) - -/// The PMC Hang Pulse Frequency -/// -/// The frequency is based on a pervasive hang timer that is formed by -/// dividing the nominal 600 MHz pervasive clock by 32K to yield a 18.3 KHz -/// clock (54.6us period). This is a dynamic configuration option, but is -/// assumed to be initialized as the given frequency. If not, then firmware -/// will have to do some SCOMs to figure out what the real divider and -/// frequency are. -#define PMC_HANG_PULSE_FREQUENCY_HZ \ - (PERVASIVE_FREQUENCY_HZ / PMC_HANG_PULSE_DIVIDER) - - -//////////////////////////////////////////////////////////////////////////// -// OCI -//////////////////////////////////////////////////////////////////////////// - -// OCI Master Id assigments - required for PBA slave programming. These Ids -// also appear as bits 12:15 of the OCI register space addresses of the OCI -// registers for each device that contains OCI-addressable registers (GPE, -// PMC, PBA, SLW and OCB). - -#define OCI_MASTER_ID_PORE_GPE 0 -#define OCI_MASTER_ID_PMC 1 -#define OCI_MASTER_ID_PBA 2 -#define OCI_MASTER_ID_UNUSED 3 -#define OCI_MASTER_ID_PORE_SLW 4 -#define OCI_MASTER_ID_OCB 5 -#define OCI_MASTER_ID_OCC_ICU 6 -#define OCI_MASTER_ID_OCC_DCU 7 - - -//////////////////////////////////////////////////////////////////////////// -// IRQ -//////////////////////////////////////////////////////////////////////////// - -// The OCB interrupt controller consists of 2 x 32-bit controllers. Unlike -// PPC ASICs, the OCB controllers are _not_ cascaded. The combined -// controllers are presented to the application as if there were a single -// 64-bit interrupt controller, while the code underlying the abstraction -// manipulates the 2 x 32-bit controllers independently. -// -// Note that the bits named *RESERVED* are actually implemented in the -// controller, but the interrupt input is tied low. That means they can also -// be used as IPI targets. Logical bits 32..63 are not implemented. - -#define PGP_IRQ_DEBUGGER 0 /* 0x00 */ -#define PGP_IRQ_TRACE_TRIGGER 1 /* 0x01 */ -#define PGP_IRQ_RESERVED_2 2 /* 0x02 */ -#define PGP_IRQ_PBA_ERROR 3 /* 0x03 */ -#define PGP_IRQ_SRT_ERROR 4 /* 0x04 */ -#define PGP_IRQ_PORE_SW_ERROR 5 /* 0x05 */ -#define PGP_IRQ_PORE_GPE0_FATAL_ERROR 6 /* 0x06 */ -#define PGP_IRQ_PORE_GPE1_FATAL_ERROR 7 /* 0x07 */ -#define PGP_IRQ_PORE_SBE_FATAL_ERROR 8 /* 0x08 */ -#define PGP_IRQ_PMC_ERROR 9 /* 0x09 */ -#define PGP_IRQ_OCB_ERROR 10 /* 0x0a */ -#define PGP_IRQ_SPIPSS_ERROR 11 /* 0x0b */ -#define PGP_IRQ_CHECK_STOP 12 /* 0x0c */ -#define PGP_IRQ_PMC_MALF_ALERT 13 /* 0x0d */ -#define PGP_IRQ_ADU_MALF_ALERT 14 /* 0x0e */ -#define PGP_IRQ_EXTERNAL_TRAP 15 /* 0x0f */ -#define PGP_IRQ_OCC_TIMER0 16 /* 0x10 */ -#define PGP_IRQ_OCC_TIMER1 17 /* 0x11 */ -#define PGP_IRQ_PORE_GPE0_ERROR 18 /* 0x12 */ -#define PGP_IRQ_PORE_GPE1_ERROR 19 /* 0x13 */ -#define PGP_IRQ_PORE_SBE_ERROR 20 /* 0x14 */ -#define PGP_IRQ_PMC_INTERCHIP_MSG_RECV 21 /* 0x15 */ -#define PGP_IRQ_RESERVED_22 22 /* 0x16 */ -#define PGP_IRQ_PORE_GPE0_COMPLETE 23 /* 0x17 */ -#define PGP_IRQ_PORE_GPE1_COMPLETE 24 /* 0x18 */ -#define PGP_IRQ_ADCFSM_ONGOING 25 /* 0x19 */ -#define PGP_IRQ_RESERVED_26 26 /* 0x1a */ -#define PGP_IRQ_PBA_OCC_PUSH0 27 /* 0x1b */ -#define PGP_IRQ_PBA_OCC_PUSH1 28 /* 0x1c */ -#define PGP_IRQ_PBA_BCDE_ATTN 29 /* 0x1d */ -#define PGP_IRQ_PBA_BCUE_ATTN 30 /* 0x1e */ -#define PGP_IRQ_RESERVED_31 31 /* 0x1f */ - -#define PGP_IRQ_RESERVED_32 32 /* 0x20 */ -#define PGP_IRQ_RESERVED_33 33 /* 0x21 */ -#define PGP_IRQ_STRM0_PULL 34 /* 0x22 */ -#define PGP_IRQ_STRM0_PUSH 35 /* 0x23 */ -#define PGP_IRQ_STRM1_PULL 36 /* 0x24 */ -#define PGP_IRQ_STRM1_PUSH 37 /* 0x25 */ -#define PGP_IRQ_STRM2_PULL 38 /* 0x26 */ -#define PGP_IRQ_STRM2_PUSH 39 /* 0x27 */ -#define PGP_IRQ_STRM3_PULL 40 /* 0x28 */ -#define PGP_IRQ_STRM3_PUSH 41 /* 0x29 */ -#define PGP_IRQ_RESERVED_42 42 /* 0x2a */ -#define PGP_IRQ_RESERVED_43 43 /* 0x2b */ -#define PGP_IRQ_PMC_VOLTAGE_CHANGE_ONGOING 44 /* 0x2c */ -#define PGP_IRQ_PMC_PROTOCOL_ONGOING 45 /* 0x2d */ -#define PGP_IRQ_PMC_SYNC 46 /* 0x2e */ -#define PGP_IRQ_PMC_PSTATE_REQUEST 47 /* 0x2f */ -#define PGP_IRQ_RESERVED_48 48 /* 0x30 */ -#define PGP_IRQ_RESERVED_49 49 /* 0x31 */ -#define PGP_IRQ_PMC_IDLE_EXIT 50 /* 0x32 */ -#define PGP_IRQ_PORE_SW_COMPLETE 51 /* 0x33 */ -#define PGP_IRQ_PMC_IDLE_ENTER 52 /* 0x34 */ -#define PGP_IRQ_RESERVED_53 53 /* 0x35 */ -#define PGP_IRQ_PMC_INTERCHIP_MSG_SEND_ONGOING 54 /* 0x36 */ -#define PGP_IRQ_OCI2SPIVID_ONGOING 55 /* 0x37 */ -#define PGP_IRQ_PMC_OCB_O2P_ONGOING 56 /* 0x38 */ -#define PGP_IRQ_PSSBRIDGE_ONGOING 57 /* 0x39 */ -#define PGP_IRQ_PORE_SBE_COMPLETE 58 /* 0x3a */ -#define PGP_IRQ_IPI0 59 /* 0x3b */ -#define PGP_IRQ_IPI1 60 /* 0x3c */ -#define PGP_IRQ_IPI2 61 /* 0x3d */ -#define PGP_IRQ_IPI3 62 /* 0x3e */ -#define PGP_IRQ_RESERVED_63 63 /* 0x3f */ - - -// Note: All standard-product IPI uses are declared here to avoid conflicts -// Validation- and lab-only IPI uses are documented in validation.h - -/// The deferred callback queue interrupt -/// -/// This IPI is reserved for use of the async deferred callback mechanism. -/// This IPI is used by both critical and noncritical async handlers to -/// activate the deferred callback mechanism. -#define PGP_IRQ_ASYNC_IPI PGP_IRQ_IPI3 - - -// Please keep the string definitions up-to-date as they are used for -// reporting in the Simics simulation. - -#define PGP_IRQ_STRINGS(var) \ - const char* var[64] = { \ - "PGP_IRQ_DEBUGGER", \ - "PGP_IRQ_TRACE_TRIGGER", \ - "PGP_IRQ_RESERVED_2", \ - "PGP_IRQ_PBA_ERROR", \ - "PGP_IRQ_SRT_ERROR", \ - "PGP_IRQ_PORE_SW_ERROR", \ - "PGP_IRQ_PORE_GPE0_FATAL_ERROR", \ - "PGP_IRQ_PORE_GPE1_FATAL_ERROR", \ - "PGP_IRQ_PORE_SBE_FATAL_ERROR", \ - "PGP_IRQ_PMC_ERROR", \ - "PGP_IRQ_OCB_ERROR", \ - "PGP_IRQ_SPIPSS_ERROR", \ - "PGP_IRQ_CHECK_STOP", \ - "PGP_IRQ_PMC_MALF_ALERT", \ - "PGP_IRQ_ADU_MALF_ALERT", \ - "PGP_IRQ_EXTERNAL_TRAP", \ - "PGP_IRQ_OCC_TIMER0", \ - "PGP_IRQ_OCC_TIMER1", \ - "PGP_IRQ_PORE_GPE0_ERROR", \ - "PGP_IRQ_PORE_GPE1_ERROR", \ - "PGP_IRQ_PORE_SBE_ERROR", \ - "PGP_IRQ_PMC_INTERCHIP_MSG_RECV", \ - "PGP_IRQ_RESERVED_22", \ - "PGP_IRQ_PORE_GPE0_COMPLETE", \ - "PGP_IRQ_PORE_GPE1_COMPLETE", \ - "PGP_IRQ_ADCFSM_ONGOING", \ - "PGP_IRQ_RESERVED_26", \ - "PGP_IRQ_PBA_OCC_PUSH0", \ - "PGP_IRQ_PBA_OCC_PUSH1", \ - "PGP_IRQ_PBA_BCDE_ATTN", \ - "PGP_IRQ_PBA_BCUE_ATTN", \ - "PGP_IRQ_RESERVED_31", \ - "PGP_IRQ_RESERVED_32", \ - "PGP_IRQ_RESERVED_33", \ - "PGP_IRQ_STRM0_PULL", \ - "PGP_IRQ_STRM0_PUSH", \ - "PGP_IRQ_STRM1_PULL", \ - "PGP_IRQ_STRM1_PUSH", \ - "PGP_IRQ_STRM2_PULL", \ - "PGP_IRQ_STRM2_PUSH", \ - "PGP_IRQ_STRM3_PULL", \ - "PGP_IRQ_STRM3_PUSH", \ - "PGP_IRQ_RESERVED_42", \ - "PGP_IRQ_RESERVED_43", \ - "PGP_IRQ_PMC_VOLTAGE_CHANGE_ONGOING", \ - "PGP_IRQ_PMC_PROTOCOL_ONGOING", \ - "PGP_IRQ_PMC_SYNC", \ - "PGP_IRQ_PMC_PSTATE_REQUEST", \ - "PGP_IRQ_RESERVED_48", \ - "PGP_IRQ_RESERVED_49", \ - "PGP_IRQ_PMC_IDLE_EXIT", \ - "PGP_IRQ_PORE_SW_COMPLETE", \ - "PGP_IRQ_PMC_IDLE_ENTER", \ - "PGP_IRQ_RESERVED_53", \ - "PGP_IRQ_PMC_INTERCHIP_MSG_SEND_ONGOING", \ - "PGP_IRQ_OCI2SPIVID_ONGOING", \ - "PGP_IRQ_PMC_OCB_O2P_ONGOING", \ - "PGP_IRQ_PSSBRIDGE_ONGOING", \ - "PGP_IRQ_PORE_SBE_COMPLETE", \ - "PGP_IRQ_IPI0", \ - "PGP_IRQ_IPI1", \ - "PGP_IRQ_IPI2", \ - "PGP_IRQ_IPI3 (ASYNC-IPI)", \ - "PGP_IRQ_RESERVED_63" \ - }; - - -/// This constant is used to define the size of the table of interrupt handler -/// structures as well as a limit for error checking. The entire 64-bit -/// vector is now in use. - -#define PPC405_IRQS 64 - -#ifndef __ASSEMBLER__ - -/// This expression recognizes only those IRQ numbers that have named -/// (non-reserved) interrupts in the OCB interrupt controller. - -// There are so many invalid interrupts now that it's a slight improvement in -// code size to let the compiler optimize the invalid IRQs to a bit mask for -// the comparison. - -#define PGP_IRQ_VALID(irq) \ - ({unsigned __irq = (unsigned)(irq); \ - ((__irq < PPC405_IRQS) && \ - ((PGP_IRQ_MASK64(__irq) & \ - (PGP_IRQ_MASK64(PGP_IRQ_RESERVED_2) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_22) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_26) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_31) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_32) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_33) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_42) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_43) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_48) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_49) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_53) | \ - PGP_IRQ_MASK64(PGP_IRQ_RESERVED_63))) == 0));}) - -/// This is a 32-bit mask, with big-endian bit (irq % 32) set. -#define PGP_IRQ_MASK32(irq) (((uint32_t)0x80000000) >> ((irq) % 32)) - -/// This is a 64-bit mask, with big-endian bit 'irq' set. -#define PGP_IRQ_MASK64(irq) (0x8000000000000000ull >> (irq)) - -#endif /* __ASSEMBLER__ */ - - -//////////////////////////////////////////////////////////////////////////// -// OCB -//////////////////////////////////////////////////////////////////////////// - -/// The base address of the OCI control register space -#define OCI_REGISTER_SPACE_BASE 0x40000000 - -/// The base address of the entire PIB port mapped by the OCB. The -/// OCB-contained PIB registers are based at OCB_PIB_BASE. -#define OCB_PIB_SLAVE_BASE 0x00060000 - -/// The size of the OCI control register address space -/// -/// There are at most 8 slaves, each of which maps 2**16 bytes of register -/// address space. -#define OCI_REGISTER_SPACE_SIZE POW2_32(19) - -/// This macro converts an OCI register space address into a PIB address as -/// seen through the OCB direct bridge. -#define OCI2PIB(addr) ((((addr) & 0x0007ffff) >> 3) + OCB_PIB_SLAVE_BASE) - - -// OCB communication channel constants - -#define OCB_INDIRECT_CHANNELS 4 - -#define OCB_RW_READ 0 -#define OCB_RW_WRITE 1 - -#define OCB_STREAM_MODE_DISABLED 0 -#define OCB_STREAM_MODE_ENABLED 1 - -#define OCB_STREAM_TYPE_LINEAR 0 -#define OCB_STREAM_TYPE_CIRCULAR 1 - -#define OCB_INTR_ACTION_FULL 0 -#define OCB_INTR_ACTION_NOT_FULL 1 -#define OCB_INTR_ACTION_EMPTY 2 -#define OCB_INTR_ACTION_NOT_EMPTY 3 - -#ifndef __ASSEMBLER__ - -// These macros select OCB interrupt controller registers based on the IRQ -// number. - -#define OCB_OIMR_AND(irq) (((irq) & 0x20) ? OCB_OIMR1_AND : OCB_OIMR0_AND) -#define OCB_OIMR_OR(irq) (((irq) & 0x20) ? OCB_OIMR1_OR : OCB_OIMR0_OR) - -#define OCB_OISR(irq) (((irq) & 0x20) ? OCB_OISR1 : OCB_OISR0) -#define OCB_OISR_AND(irq) (((irq) & 0x20) ? OCB_OISR1_AND : OCB_OISR0_AND) -#define OCB_OISR_OR(irq) (((irq) & 0x20) ? OCB_OISR1_OR : OCB_OISR0_OR) - -#define OCB_OIEPR(irq) (((irq) & 0x20) ? OCB_OIEPR1 : OCB_OIEPR0) -#define OCB_OITR(irq) (((irq) & 0x20) ? OCB_OITR1 : OCB_OITR0) -#define OCB_OCIR(irq) (((irq) & 0x20) ? OCB_OCIR1 : OCB_OCIR0) -#define OCB_OUDER(irq) (((irq) & 0x20) ? OCB_OUDER1 : OCB_OUDER0) - -#endif /* __ASSEMBLER__ */ - - -//////////////////////////////////////////////////////////////////////////// -// PMC -//////////////////////////////////////////////////////////////////////////// - -#ifndef __ASSEMBLER__ - -/// A Pstate type -/// -/// Pstates are signed, but our register access macros operate on unsigned -/// values. To avoid bugs, Pstate register fields should always be extracted -/// to a variable of type Pstate. If the size of Pstate variables ever -/// changes we will have to revisit this convention. -typedef int8_t Pstate; - -/// A DPLL frequency code -/// -/// DPLL frequency codes moved from 8 to 9 bits going from P7 to P8 -typedef uint16_t DpllCode; - -/// A VRM11 VID code -typedef uint8_t Vid11; - -#endif /* __ASSEMBLER__ */ - -/// The minimum Pstate -#define PSTATE_MIN -128 - -/// The maximum Pstate -#define PSTATE_MAX 127 - -/// The minimum \e legal DPLL frequency code -/// -/// This is ~1GHz with a 16.6MHz tick frequency. -#define DPLL_MIN 0x03c - -/// The maximum DPLL frequency code -#define DPLL_MAX 0x1ff - -/// The minimum \a legal (non-power-off) VRM11 VID code -#define VID11_MIN 0x02 - -/// The maximum \a legal (non-power-off) VRM11 VID code -#define VID11_MAX 0xfd - - -//////////////////////////////////////////////////////////////////////////// -// PCB -//////////////////////////////////////////////////////////////////////////// - -/// Convert a core chiplet 0 SCOM address to the equivalent address for any -/// other core chiplet. -/// -/// Note that it is unusual to address core chiplet SCOMs directly. Normally -/// this is done as part of a GPE program where the program iterates over core -/// chiplets, using the chiplet-0 address + a programmable offset held in a -/// chiplet address register. Therefore the only address macro defined is the -/// chiplet-0 address. This macro is used for the rare cases of explicit -/// getscom()/ putscom() to a particular chiplet. - -#define CORE_CHIPLET_ADDRESS(addr, core) ((addr) + ((core) << 24)) - - -// PCB Error codes - -#define PCB_ERROR_NONE 0 -#define PCB_ERROR_RESOURCE_OCCUPIED 1 -#define PCB_ERROR_CHIPLET_OFFLINE 2 -#define PCB_ERROR_PARTIAL_GOOD 3 -#define PCB_ERROR_ADDRESS_ERROR 4 -#define PCB_ERROR_CLOCK_ERROR 5 -#define PCB_ERROR_PACKET_ERROR 6 -#define PCB_ERROR_TIMEOUT 7 - -// PCB Multicast modes - -#define PCB_MULTICAST_OR 0 -#define PCB_MULTICAST_AND 1 -#define PCB_MULTICAST_SELECT 2 -#define PCB_MULTICAST_COMPARE 4 -#define PCB_MULTICAST_WRITE 5 - -/// \defgroup pcb_multicast_groups PCB Multicast Groups -/// -/// Technically the multicast groups are programmable; This is the multicast -/// grouping established by proc_sbe_chiplet_init(). -/// -/// - Group 0 : All functional chiplets (PRV PB XBUS ABUS PCIE TPCEX) -/// - Group 1 : All functional EX chiplets (no cores) -/// - Group 2 : All functional EX chiplets (core only) -/// - Group 3 : All functional chiplets except pervasive (PRV) -/// -/// @{ - -#define MC_GROUP_ALL 0 -#define MC_GROUP_EX 1 -#define MC_GROUP_EX_CORE 2 -#define MC_GROUP_ALL_BUT_PRV 3 - -/// @} - - -/// Convert any SCOM address to a multicast address -#define MC_ADDRESS(address, group, mode) \ - (((address) & 0x00ffffff) | ((0x40 | ((mode) << 3) | (group)) << 24)) - - - -//////////////////////////////////////////////////////////////////////////// -// PBA -//////////////////////////////////////////////////////////////////////////// - -//////////////////////////////////// -// Macros for fields of PBA_MODECTL -//////////////////////////////////// - -/// The 64KB OCI HTM marker space is enabled by default at 0x40070000 -/// -/// See the comments for pgp_trace.h - -#define PBA_OCI_MARKER_BASE 0x40070000 - - -// SSX Kernel reserved trace addresses, see pgp_trace.h. - -#define SSX_TRACE_CRITICAL_IRQ_ENTRY_BASE 0xf000 -#define SSX_TRACE_CRITICAL_IRQ_EXIT_BASE 0xf100 -#define SSX_TRACE_NONCRITICAL_IRQ_ENTRY_BASE 0xf200 -#define SSX_TRACE_NONCRITICAL_IRQ_EXIT_BASE 0xf300 -#define SSX_TRACE_THREAD_SWITCH_BASE 0xf400 -#define SSX_TRACE_THREAD_SLEEP_BASE 0xf500 -#define SSX_TRACE_THREAD_WAKEUP_BASE 0xf600 -#define SSX_TRACE_THREAD_SEMAPHORE_PEND_BASE 0xf700 -#define SSX_TRACE_THREAD_SEMAPHORE_POST_BASE 0xf800 -#define SSX_TRACE_THREAD_SEMAPHORE_TIMEOUT_BASE 0xf900 -#define SSX_TRACE_THREAD_SUSPENDED_BASE 0xfa00 -#define SSX_TRACE_THREAD_DELETED_BASE 0xfb00 -#define SSX_TRACE_THREAD_COMPLETED_BASE 0xfc00 -#define SSX_TRACE_THREAD_MAPPED_RUNNABLE_BASE 0xfd00 -#define SSX_TRACE_THREAD_MAPPED_SEMAPHORE_PEND_BASE 0xfe00 -#define SSX_TRACE_THREAD_MAPPED_SLEEPING_BASE 0xff00 - - -// Please keep the string definitions up to date as they are used for -// reporting in the Simics simulation. - -#define SSX_TRACE_STRINGS(var) \ - const char* var[16] = { \ - "Critical IRQ Entry ", \ - "Critical IRQ Exit ", \ - "Noncritical IRQ Entry ", \ - "Noncritical IRQ Exit ", \ - "Thread Switch ", \ - "Thread Blocked : Sleep ", \ - "Thread Unblocked : Wakeup ", \ - "Thread Blocked : Semaphore ", \ - "Thread Unblocked : Semaphore ", \ - "Thread Unblocked : Sem. Timeout", \ - "Thread Suspended ", \ - "Thread Deleted ", \ - "Thread Completed ", \ - "Thread Mapped Runnable ", \ - "Thread Mapped Semaphore Pend. ", \ - "Thread Mapped Sleeping ", \ - }; - - -// PBA transaction sizes for the block copy engines - -#define PBA_BCE_OCI_TRANSACTION_32_BYTES 0 -#define PBA_BCE_OCI_TRANSACTION_64_BYTES 1 -#define PBA_BCE_OCI_TRANSACTION_8_BYTES 2 - - -// PBAX communication channel constants - -#define PBAX_CHANNELS 2 - -#define PBAX_INTR_ACTION_FULL 0 -#define PBAX_INTR_ACTION_NOT_FULL 1 -#define PBAX_INTR_ACTION_EMPTY 2 -#define PBAX_INTR_ACTION_NOT_EMPTY 3 - - -//////////////////////////////////////////////////////////////////////////// -// VRM -//////////////////////////////////////////////////////////////////////////// - -// These are the command types recognized by the VRMs - -#define VRM_WRITE_VOLTAGE 0x0 -#define VRM_READ_STATE 0xc -#define VRM_READ_VOLTAGE 0x3 - -// Voltage rail designations for the read voltage command -#define VRM_RD_VDD_RAIL 0x0 -#define VRM_RD_VCS_RAIL 0x1 - - -//////////////////////////////////////////////////////////////////////////// -// OHA -//////////////////////////////////////////////////////////////////////////// - -// Power proxy trace record idle state encodings. These encodings are unique -// to the Power proxy trace record. - -#define PPT_IDLE_NON_IDLE 0x0 -#define PPT_IDLE_NAP 0x1 -#define PPT_IDLE_LIGHT_SLEEP 0x2 -#define PPT_IDLE_FAST_SLEEP 0x3 -#define PPT_IDLE_DEEP_SLEEP 0x4 -#define PPT_IDLE_LIGHT_WINKLE 0x5 -#define PPT_IDLE_FAST_WINKLE 0x6 -#define PPT_IDLE_DEEP_WINKLE 0x7 - - -//////////////////////////////////////////////////////////////////////////// -// PC -//////////////////////////////////////////////////////////////////////////// - -// SPRC numbers for PC counters. The low-order 3 bits are always defined as -// 0. The address can also be modifed to indicate auto-increment addressing. -// Note that the frequency-sensitivity counters are called "workrate" counters -// in the hardware documentation. - -#define SPRN_CORE_INSTRUCTION_DISPATCH 0x200 -#define SPRN_CORE_INSTRUCTION_COMPLETE 0x208 -#define SPRN_CORE_FREQUENCY_SENSITIVITY_BUSY 0x210 -#define SPRN_CORE_FREQUENCY_SENSITIVITY_FINISH 0x218 -#define SPRN_CORE_RUN_CYCLE 0x220 -#define SPRN_CORE_RAW_CYCLE 0x228 -#define SPRN_CORE_MEM_HIER_A 0x230 -#define SPRN_CORE_MEM_HIER_B 0x238 -#define SPRN_CORE_MEM_C_LPAR(p) (0x240 + (8 * (p))) -#define SPRN_WEIGHTED_INSTRUCTION_PROCESSING 0x260 -#define SPRN_WEIGHTED_GPR_REGFILE_ACCESS 0x268 -#define SPRN_WEIGHTED_VRF_REGFILE_ACCESS 0x270 -#define SPRN_WEIGHTED_FLOATING_POINT_ISSUE 0x278 -#define SPRN_WEIGHTED_CACHE_READ 0x280 -#define SPRN_WEIGHTED_CACHE_WRITE 0x288 -#define SPRN_WEIGHTED_ISSUE 0x290 -#define SPRN_WEIGHTED_CACHE_ACCESS 0x298 -#define SPRN_WEIGHTED_VSU_ISSUE 0x2a0 -#define SPRN_WEIGHTED_FXU_ISSUE 0x2a8 - -#define SPRN_THREAD_RUN_CYCLES(t) (0x2b0 + (0x20 * (t))) -#define SPRN_THREAD_INSTRUCTION_COMPLETE(t) (0x2b8 + (0x20 * (t))) -#define SPRN_THREAD_MEM_HIER_A(t) (0x2c0 + (0x20 * (t))) -#define SPRN_THREAD_MEM_HIER_B(t) (0x2c8 + (0x20 * (t))) - -#define SPRN_PC_AUTOINCREMENT 0x400 - - -//////////////////////////////////////////////////////////////////////////// -// Centaur -//////////////////////////////////////////////////////////////////////////// - -// DIMM sensor status codes - -/// The next sampling period began before this sensor was read or the master -/// enable is off, or the individual sensor is disabled. If the subsequent -/// read completes on time, this will return to valid reading. Sensor data may -/// be accurate, but stale. If due to a stall, the StallError FIR will be -/// set. -#define DIMM_SENSOR_STATUS_STALLED 0 - -/// The sensor data was not returned correctly either due to parity -/// error or PIB bus error code. Will return to valid if the next PIB -/// access to this sensor is valid, but a FIR will be set; Refer to FIR -/// for exact error. Sensor data should not be considered valid while -/// this code is present. -#define DIMM_SENSOR_STATUS_ERROR 1 - -/// Sensor data is valid, and has been valid since the last time this -/// register was read. -#define DIMM_SENSOR_STATUS_VALID_OLD 2 - -/// Sensor data is valid and has not yet been read by a SCOM. The status code -/// return to DIMM_SENSOR_STATUS_VALID_OLD after this register is read. -#define DIMM_SENSOR_STATUS_VALID_NEW 3 - - -#endif /* __PGP_COMMON_H__ */ |
