/* $NetBSD: tlsbreg.h,v 1.6 2012/02/06 02:14:16 matt Exp $ */ /* * Copyright (c) 1997, 2000 by Matthew Jacob * NASA AMES Research Center. * All rights reserved. * * Based in part upon a prototype version by Jason Thorpe * Copyright (c) 1996 by Jason Thorpe. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice immediately at the beginning of the file, without modification, * this list of conditions, and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * Definitions for the TurboLaser System Bus found on * AlphaServer 8200/8400 systems. */ /* * There are 9 TurboLaser nodes, 0 though 8. Their uses are defined as * follows: * * Node Module * ---- ------ * 0 CPU, Memory * 1 CPU, Memory * 2 CPU, Memory * 3 CPU, Memory * 4 CPU, Memory, I/O * 5 CPU, Memory, I/O * 6 CPU, Memory, I/O * 7 CPU, Memory, I/O * 8 I/O * * A node occurs every 0x00400000 bytes. * * Note, the AlphaServer 8200 only has nodes 4 though 8. */ #define TLSB_NODE_BASE 0x000000ff88000000 /* Dense */ #define TLSB_NODE_SIZE 0x00400000 #define TLSB_NODE_MAX 8 /* inclusive */ /* Translate a node number to an address. */ #define TLSB_NODE_ADDR(_node) \ (long)(TLSB_NODE_BASE + ((_node) * TLSB_NODE_SIZE)) #define TLSB_NODE_REG_ADDR(_node, _reg) \ KV((long)TLSB_NODE_ADDR((_node)) + (_reg)) /* Access the specified register on the specified node. */ #define TLSB_GET_NODEREG(_node, _reg) \ *(volatile uint32_t *)(TLSB_NODE_REG_ADDR((_node), (_reg))) #define TLSB_PUT_NODEREG(_node, _reg, _val) \ *(volatile uint32_t *)(TLSB_NODE_REG_ADDR((_node), (_reg))) = (_val) /* * Some registers are shared by all TurboLaser nodes, and appear in * the TurboLaser Broadcast space. */ #define TLSB_BCAST_BASE 0x000000ff8e000000 /* Dense */ #define TLSB_BCAST_REG_ADDR(_reg) KV((long)(TLSB_BCASE_BASE + (_reg))) /* Access the specified register in the broadcast space. */ #define TLSB_GET_BCASTREG(_reg) \ *(volatile uint32_t *)(TLSB_BCAST_REG_ADDR + (_reg)) #define TLSB_PUT_BCASTREG(_reg, _val) \ *(volatile uint32_t *)(TLSB_BCAST_REG_ADDR + (_reg)) = (_val) /* * Location of the Gbus, the per-CPU bus containing the clock and * console hardware. */ #define TLSB_GBUS_BASE 0x000000ff90000000 /* Dense */ /* * Note that not every module type supports each TurboLaser register. * The following defines the keys used to denote module support for * a given register: * * C Supported by CPU module * M Supported by Memory module * I Supported by I/O module */ /* * Per-node TurboLaser System Bus registers, offsets from the * base of the node. */ #define TLDEV 0x0000 /* CMI: Device Register */ #define TLBER 0x0040 /* CMI: Bus Error Register */ #define TLCNR 0x0080 /* CMI: Congfiguration Register */ #define TLVID 0x00c0 /* CM: Virtual ID Register */ #define TLMMR0 0x0200 /* CM: Memory Mapping Register 0 */ #define TLMMR1 0x0240 /* CM: Memory Mapping Register 1 */ #define TLMMR2 0x0280 /* CM: Memory Mapping Register 2 */ #define TLMMR3 0x02c0 /* CM: Memory Mapping Register 3 */ #define TLMMR4 0x0300 /* CM: Memory Mapping Register 4 */ #define TLMMR5 0x0340 /* CM: Memory Mapping Register 5 */ #define TLMMR6 0x0380 /* CM: Memory Mapping Register 6 */ #define TLMMR7 0x03c0 /* CM: Memory Mapping Register 7 */ #define TLFADR0 0x0600 /* MI: Failing Address Register 0 */ #define TLFADR1 0x0640 /* MI: Failing Address Register 1 */ #define TLESR0 0x0680 /* CMI: Error Syndrome Register 0 */ #define TLESR1 0x06c0 /* CMI: Error Syndrome Register 1 */ #define TLESR2 0x0700 /* CMI: Error Syndrome Register 2 */ #define TLESR3 0x0740 /* CMI: Error Syndrome Register 3 */ #define TLILID0 0x0a00 /* I: Int. Level 0 IDENT Register */ #define TLILID1 0x0a40 /* I: Int. Level 1 IDENT Register */ #define TLILID2 0x0a80 /* I: Int. Level 2 IDENT Register */ #define TLILID3 0x0ac0 /* I: Int. Level 3 IDENT Register */ #define TLCPUMASK 0x0b00 /* I: CPU Interrupt Mask Register */ #define TLMBPTR 0x0c00 /* I: Mailbox Pointer Register */ #define TLINTRMASK0 0x1100 /* C: Interrupt Mask Register CPU 0 */ #define TLINTRMASK1 0x1140 /* C: Interrupt Mask Register CPU 1 */ #define TLINTRSUM0 0x1180 /* C: Interrupt Sum Register CPU 0 */ #define TLINTRSUM1 0x11C0 /* C: Interrupt Sum Register CPU 1 */ #define TLEPAERR 0x1500 /* C: ADG error register */ #define TLEPDERR 0x1540 /* C: DIGA error register */ #define TLEPMERR 0x1580 /* C: MMG error register */ #define TLDMCMD 0x1600 /* C: Data Mover Command */ #define TLDMADRA 0x1680 /* C: Data Mover Source */ #define TLDMADRB 0x16C0 /* C: Data Mover Destination */ /* * Registers shared between TurboLaser nodes, offsets from the * TurboLaser Broadcast Base. */ #define TLPRIVATE 0x0000 /* CMI: private "global" space */ #define TLIPINTR 0x0040 /* C: Interprocessor Int. Register */ #define TLIOINTR4 0x0100 /* C: I/O Interrupt Register 4 */ #define TLIOINTR5 0x0140 /* C: I/O Interrupt Register 5 */ #define TLIOINTR6 0x0180 /* C: I/O Interrupt Register 6 */ #define TLIOINTR7 0x01c0 /* C: I/O Interrupt Register 7 */ #define TLIOINTR8 0x0200 /* C: I/O Interrupt Register 8 */ #define TLWSDQR4 0x0400 /* C: Win Spc Dcr Que Ctr Reg 4 */ #define TLWSDQR5 0x0440 /* C: Win Spc Dcr Que Ctr Reg 5 */ #define TLWSDQR6 0x0480 /* C: Win Spc Dcr Que Ctr Reg 6 */ #define TLWSDQR7 0x04c0 /* C: Win Spc Dcr Que Ctr Reg 7 */ #define TLWSDQR8 0x0500 /* C: Win Spc Dcr Que Ctr Reg 8 */ #define TLRMDQRX 0x0600 /* C: Mem Chan Dcr Que Ctr Reg X */ #define TLRMDQR8 0x0640 /* C: Mem Chan Dcr Que Ctr Reg 8 */ #define TLRDRD 0x0800 /* C: CSR Read Data Rtn Data Reg */ #define TLRDRE 0x0840 /* C: CSR Read Data Rtn Error Reg */ #define TLMCR 0x1880 /* M: Memory Control Register */ /* * TLDEV - Device Register * * Access: R/W * * Notes: * Register is loaded during initialization with information * that identifies a node. A zero value indicates a non-initialized * (slot empty) node. * * Bits 0-15 contain the hardware device type, bits 16-23 * the board's software revision, and bits 24-31 the board's * hardware revision. * * The device type portion is laid out as follows: * * Bit 15: identifies a CPU * Bit 14: identifies a memory board * Bit 13: identifies an I/O board * Bits 0-7: specify the ID of a node type */ #define TLDEV_DTYPE_MASK 0x0000ffff #define TLDEV_DTYPE_KFTHA 0x2000 /* KFTHA board, I/O */ #define TLDEV_DTYPE_KFTIA 0x2020 /* KFTIA board, I/O */ #define TLDEV_DTYPE_MS7CC 0x5000 /* Memory board */ #define TLDEV_DTYPE_SCPU4 0x8011 /* 1 CPU, 4mb cache */ #define TLDEV_DTYPE_SCPU16 0x8012 /* 1 CPU, 16mb cache */ #define TLDEV_DTYPE_DCPU4 0x8014 /* 2 CPU, 4mb cache */ #define TLDEV_DTYPE_DCPU16 0x8015 /* 2 CPU, 16mb cache */ #define TLDEV_DTYPE(_val) ((_val) & TLDEV_DTYPE_MASK) # define TLDEV_ISCPU(_val) (TLDEV_DTYPE(_val) & 0x8000) # define TLDEV_ISMEM(_val) (TLDEV_DTYPE(_val) & 0x4000) # define TLDEV_ISIOPORT(_val) (TLDEV_DTYPE(_val) & 0x2000) #define TLDEV_SWREV(_val) (((_val) >> 16) & 0xff) #define TLDEV_HWREV(_val) (((_val) >> 24) & 0xff) /* * TLBER - Bus Error Register * * Access: R/W * * Notes: * This register contains information about TLSB errors detected by * nodes on the TLSB. The register will become locked when: * * * Any error occurs and the "lock on first error" * bit of the Configuration Register is set. * * * Any bit other than 20-23 (DS0-DS3) becomes set. * * and will remain locked until either: * * * All bits in the TLBER are cleared. * * * The "lock on first error" bit is cleared. * * TLBER locking is intended for diagnosic purposes only, and * not for general use. */ #define TLBER_ATCE 0x00000001 /* Addr Transmit Ck Error */ #define TLBER_APE 0x00000002 /* Addr Parity Error */ #define TLBER_BAE 0x00000004 /* Bank Avail Violation Error */ #define TLBER_LKTO 0x00000008 /* Bank Lock Timeout */ #define TLBER_NAE 0x00000010 /* No Ack Error */ #define TLBER_RTCE 0x00000020 /* Read Transmit Ck Error */ #define TLBER_ACKTCE 0x00000040 /* Ack Transmit Ck Error */ #define TLBER_MMRE 0x00000080 /* Mem Mapping Register Error */ #define TLBER_FNAE 0x00000100 /* Fatal No Ack Error */ #define TLBER_REQDE 0x00000200 /* Request Deassertion Error */ #define TLBER_ATDE 0x00000400 /* Addredd Transmitter During Error */ #define TLBER_UDE 0x00010000 /* Uncorrectable Data Error */ #define TLBER_CWDE 0x00020000 /* Correctable Write Data Error */ #define TLBER_CRDE 0x00040000 /* Correctable Read Data Error */ #define TLBER_CRDE2 0x00080000 /* ...ditto... */ #define TLBER_DS0 0x00100000 /* Data Synd 0 */ #define TLBER_DS1 0x00200000 /* Data Synd 1 */ #define TLBER_DS2 0x00400000 /* Data Synd 2 */ #define TLBER_DS3 0x00800000 /* Data Synd 3 */ #define TLBER_DTDE 0x01000000 /* Data Transmitter During Error */ #define TLBER_FDTCE 0x02000000 /* Fatal Data Transmit Ck Error */ #define TLBER_UACKE 0x04000000 /* Unexpected Ack Error */ #define TLBER_ABTCE 0x08000000 /* Addr Bus Transmit Error */ #define TLBER_DCTCE 0x10000000 /* Data Control Transmit Ck Error */ #define TLBER_SEQE 0x20000000 /* Sequence Error */ #define TLBER_DSE 0x40000000 /* Data Status Error */ #define TLBER_DTO 0x80000000 /* Data Timeout Error */ /* * TLCNR - Configuration Register * * Access: R/W */ #define TLCNR_CWDD 0x00000001 /* Corr Write Data Err INTR Dis */ #define TLCNR_CRDD 0x00000002 /* Corr Read Data Err INTR Dis */ #define TLCNR_LKTOD 0x00000004 /* Bank Lock Timeout Disable */ #define TLCNR_DTOD 0x00000008 /* Data Timeout Disable */ #define TLCNR_STF_A 0x00001000 /* Self-Test Fail A */ #define TLCNR_STF_B 0x00002000 /* Self-Test Fail B */ #define TLCNR_HALT_A 0x00100000 /* Halt A */ #define TLCNR_HALT_B 0x00200000 /* Halt B */ #define TLCNR_RSTSTAT 0x10000000 /* Reset Status */ #define TLCNR_NRST 0x40000000 /* Node Reset */ #define TLCNR_LOFE 0x80000000 /* Lock On First Error */ #define TLCNR_NODE_MASK 0x000000f0 /* Node ID mask */ #define TLCNR_NODE_SHIFT 4 #define TLCNR_VCNT_MASK 0x00000f00 /* VCNT mask */ #define TLCNR_VCNT_SHIFT 8 /* * TLVID - Virtual ID Register * * Access: R/W * * Notes: * Virtual units can be CPUs or Memory boards. The units are * are addressed using virtual IDs. These virtual IDs are assigned * by writing to the TLVID register. The upper 24 bits of this * register are reserved and must be written as `0'. */ #define TLVID_VIDA_MASK 0x0000000f /* Virtual ID for unit 0 */ #define TLVID_VIDA_SHIFT 0 #define TLVID_VIDB_MASK 0x000000f0 /* Virtual ID for unit 1 */ #define TLVID_VIDB_SHIFT 4 /* * TLMMRn - Memory Mapping Registers * * Access: W * * Notes: * Contains mapping information for doing a bank-decode. */ #define TLMMR_INTMASK 0x00000003 /* Valid bits in Interleave */ #define TLMMR_ADRMASK 0x000000f0 /* Valid bits in Address */ #define TLMMR_SBANK 0x00000800 /* Single-bank indicator */ #define TLMMR_VALID 0x80000000 /* Indicated mapping is valid */ #define TLMMR_INTLV_MASK 0x00000700 /* Mask for interleave value */ #define TLMMR_INTLV_SHIFT 8 #define TLMMR_ADDRESS_MASK 0x03fff000 /* Mask for address value */ #define TLMMR_ADDRESS_SHIFT 12 /* * TLFADRn - Failing Address Registers * * Access: R/W * * Notes: * These registers contain status information for a failed address. * Not all nodes preserve this information. The validation bits * indicate the validity of a given field. */ /* * CPU Interrupt Mask Register * * The PAL code reads this register for each CPU on a TLSB CPU board * to see what is or isn't enabled. */ #define TLINTRMASK_CONHALT 0x100 /* Enable ^P Halt */ #define TLINTRMASK_HALT 0x080 /* Enable Halt */ #define TLINTRMASK_CLOCK 0x040 /* Enable Clock Interrupts */ #define TLINTRMASK_XCALL 0x020 /* Enable Interprocessor Interrupts */ #define TLINTRMASK_IPL17 0x010 /* Enable IPL 17 Interrupts */ #define TLINTRMASK_IPL16 0x008 /* Enable IPL 16 Interrupts */ #define TLINTRMASK_IPL15 0x004 /* Enable IPL 15 Interrupts */ #define TLINTRMASK_IPL14 0x002 /* Enable IPL 14 Interrupts */ #define TLINTRMASK_DUART 0x001 /* Enable GBUS Duart0 Interrupts */ /* * CPU Interrupt Summary Register * * The PAL code reads this register at interrupt time to figure out * which interrupt line to assert to the CPU. Note that when the * interrupt is actually vectored through the PAL code, it arrives * here already presorted as to type (clock, halt, iointr). */ #define TLINTRSUM_HALT (1 << 28) /* Halted via TLCNR register */ #define TLINTRSUM_CONHALT (1 << 27) /* Halted via ^P (W1C) */ #define TLINTRSUM_CLOCK (1 << 6) /* Clock Interrupt (W1C) */ #define TLINTRSUM_XCALL (1 << 5) /* Interprocessor Int (W1C) */ #define TLINTRSUM_IPL17 (1 << 4) /* IPL 17 Interrupt Summary */ #define TLINTRSUM_IPL16 (1 << 3) /* IPL 16 Interrupt Summary */ #define TLINTRSUM_IPL15 (1 << 2) /* IPL 15 Interrupt Summary */ #define TLINTRSUM_IPL14 (1 << 1) /* IPL 14 Interrupt Summary */ #define TLINTRSUM_DUART (1 << 0) /* Duart Int (W1C) */ /* after checking the summaries, you can get the source node for each level */ #define TLINTRSUM_IPL17_SOURCE(x) ((x >> 22) & 0x1f) #define TLINTRSUM_IPL16_SOURCE(x) ((x >> 17) & 0x1f) #define TLINTRSUM_IPL15_SOURCE(x) ((x >> 12) & 0x1f) #define TLINTRSUM_IPL14_SOURCE(x) ((x >> 7) & 0x1f) /* * (some of) TurboLaser CPU ADG error register defines. */ #define TLEPAERR_IBOX_TMO 0x1800 /* window space read failed */ #define TLEPAERR_WSPC_RD 0x0600 /* window space read failed */ /* * (some of) TurboLaser CPU DIGA error register defines. */ #define TLEPDERR_GBTMO 0x4 /* GBus timeout */ /* * Platform specific uncorrectable machine check logout frame. */ struct tlsb_mchk_fatal { uint64_t rsvdheader; uint32_t tldev; uint32_t tlber; uint32_t tlcnr; uint32_t tlvid; uint32_t tlesr0; uint32_t tlesr1; uint32_t tlesr2; uint32_t tlesr3; uint32_t tlepaerr; uint32_t tlmodconfig; uint32_t tlepmerr; uint32_t tlepderr; uint32_t tlintrmask0; uint32_t tlintrmask1; uint32_t tlintrsum0; uint32_t tlintrsum1; uint32_t tlep_vmg; uint32_t spare[5]; }; /* * Magic values from Digital Unix- if these bits are set in these * registers in the fatal mcheck frame, then we *don't* take a look * at system TLSB registers. */ #define AERR_NO_TLSBSNAP 0x7B /* errors on bits TLEPAERR <6:3,1,0> */ #define DERR_NO_TLSBSNAP 0x07 /* errors on bits TLEPDERR <2:0> */ #define MERR_NO_TLSBSNAP 0x3F /* errors on bits TLEPMERR <5:0> */ /* * Platform specific correctable machine check logout frame. */ struct tlsb_mchk_soft { uint64_t rsvdheader; uint32_t tldev; uint32_t tlber; uint32_t tlesr0; uint32_t tlesr1; uint32_t tlesr2; uint32_t tlesr3; };