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/* Copyright (C) 1999,2001
*
* Author: J.E.J.Bottomley@HansenPartnership.com
*
* Standard include definitions for the NCR Voyager system */
#undef VOYAGER_DEBUG
#undef VOYAGER_CAT_DEBUG
#ifdef VOYAGER_DEBUG
#define VDEBUG(x) printk x
#else
#define VDEBUG(x)
#endif
/* There are three levels of voyager machine: 3,4 and 5. The rule is
* if it's less than 3435 it's a Level 3 except for a 3360 which is
* a level 4. A 3435 or above is a Level 5 */
#define VOYAGER_LEVEL5_AND_ABOVE 0x3435
#define VOYAGER_LEVEL4 0x3360
/* The L4 DINO ASIC */
#define VOYAGER_DINO 0x43
/* voyager ports in standard I/O space */
#define VOYAGER_MC_SETUP 0x96
#define VOYAGER_CAT_CONFIG_PORT 0x97
# define VOYAGER_CAT_DESELECT 0xff
#define VOYAGER_SSPB_RELOCATION_PORT 0x98
/* Valid CAT controller commands */
/* start instruction register cycle */
#define VOYAGER_CAT_IRCYC 0x01
/* start data register cycle */
#define VOYAGER_CAT_DRCYC 0x02
/* move to execute state */
#define VOYAGER_CAT_RUN 0x0F
/* end operation */
#define VOYAGER_CAT_END 0x80
/* hold in idle state */
#define VOYAGER_CAT_HOLD 0x90
/* single step an "intest" vector */
#define VOYAGER_CAT_STEP 0xE0
/* return cat controller to CLEMSON mode */
#define VOYAGER_CAT_CLEMSON 0xFF
/* the default cat command header */
#define VOYAGER_CAT_HEADER 0x7F
/* the range of possible CAT module ids in the system */
#define VOYAGER_MIN_MODULE 0x10
#define VOYAGER_MAX_MODULE 0x1f
/* The voyager registers per asic */
#define VOYAGER_ASIC_ID_REG 0x00
#define VOYAGER_ASIC_TYPE_REG 0x01
/* the sub address registers can be made auto incrementing on reads */
#define VOYAGER_AUTO_INC_REG 0x02
# define VOYAGER_AUTO_INC 0x04
# define VOYAGER_NO_AUTO_INC 0xfb
#define VOYAGER_SUBADDRDATA 0x03
#define VOYAGER_SCANPATH 0x05
# define VOYAGER_CONNECT_ASIC 0x01
# define VOYAGER_DISCONNECT_ASIC 0xfe
#define VOYAGER_SUBADDRLO 0x06
#define VOYAGER_SUBADDRHI 0x07
#define VOYAGER_SUBMODSELECT 0x08
#define VOYAGER_SUBMODPRESENT 0x09
#define VOYAGER_SUBADDR_LO 0xff
#define VOYAGER_SUBADDR_HI 0xffff
/* the maximum size of a scan path -- used to form instructions */
#define VOYAGER_MAX_SCAN_PATH 0x100
/* the biggest possible register size (in bytes) */
#define VOYAGER_MAX_REG_SIZE 4
/* Total number of possible modules (including submodules) */
#define VOYAGER_MAX_MODULES 16
/* Largest number of asics per module */
#define VOYAGER_MAX_ASICS_PER_MODULE 7
/* the CAT asic of each module is always the first one */
#define VOYAGER_CAT_ID 0
#define VOYAGER_PSI 0x1a
/* voyager instruction operations and registers */
#define VOYAGER_READ_CONFIG 0x1
#define VOYAGER_WRITE_CONFIG 0x2
#define VOYAGER_BYPASS 0xff
typedef struct voyager_asic
{
__u8 asic_addr; /* ASIC address; Level 4 */
__u8 asic_type; /* ASIC type */
__u8 asic_id; /* ASIC id */
__u8 jtag_id[4]; /* JTAG id */
__u8 asic_location; /* Location within scan path; start w/ 0 */
__u8 bit_location; /* Location within bit stream; start w/ 0 */
__u8 ireg_length; /* Instruction register length */
__u16 subaddr; /* Amount of sub address space */
struct voyager_asic *next; /* Next asic in linked list */
} voyager_asic_t;
typedef struct voyager_module {
__u8 module_addr; /* Module address */
__u8 scan_path_connected; /* Scan path connected */
__u16 ee_size; /* Size of the EEPROM */
__u16 num_asics; /* Number of Asics */
__u16 inst_bits; /* Instruction bits in the scan path */
__u16 largest_reg; /* Largest register in the scan path */
__u16 smallest_reg; /* Smallest register in the scan path */
voyager_asic_t *asic; /* First ASIC in scan path (CAT_I) */
struct voyager_module *submodule; /* Submodule pointer */
struct voyager_module *next; /* Next module in linked list */
} voyager_module_t;
typedef struct voyager_eeprom_hdr {
__u8 module_id[4] __attribute__((packed));
__u8 version_id __attribute__((packed));
__u8 config_id __attribute__((packed));
__u16 boundry_id __attribute__((packed)); /* boundary scan id */
__u16 ee_size __attribute__((packed)); /* size of EEPROM */
__u8 assembly[11] __attribute__((packed)); /* assembly # */
__u8 assembly_rev __attribute__((packed)); /* assembly rev */
__u8 tracer[4] __attribute__((packed)); /* tracer number */
__u16 assembly_cksum __attribute__((packed)); /* asm checksum */
__u16 power_consump __attribute__((packed)); /* pwr requirements */
__u16 num_asics __attribute__((packed)); /* number of asics */
__u16 bist_time __attribute__((packed)); /* min. bist time */
__u16 err_log_offset __attribute__((packed)); /* error log offset */
__u16 scan_path_offset __attribute__((packed));/* scan path offset */
__u16 cct_offset __attribute__((packed));
__u16 log_length __attribute__((packed)); /* length of err log */
__u16 xsum_end __attribute__((packed)); /* offset to end of
checksum */
__u8 reserved[4] __attribute__((packed));
__u8 sflag __attribute__((packed)); /* starting sentinal */
__u8 part_number[13] __attribute__((packed)); /* prom part number */
__u8 version[10] __attribute__((packed)); /* version number */
__u8 signature[8] __attribute__((packed));
__u16 eeprom_chksum __attribute__((packed));
__u32 data_stamp_offset __attribute__((packed));
__u8 eflag __attribute__((packed)); /* ending sentinal */
} voyager_eprom_hdr_t;
#define VOYAGER_EPROM_SIZE_OFFSET ((__u16)(&(((voyager_eprom_hdr_t *)0)->ee_size)))
#define VOYAGER_XSUM_END_OFFSET 0x2a
/* the following three definitions are for internal table layouts
* in the module EPROMs. We really only care about the IDs and
* offsets */
typedef struct voyager_sp_table {
__u8 asic_id __attribute__((packed));
__u8 bypass_flag __attribute__((packed));
__u16 asic_data_offset __attribute__((packed));
__u16 config_data_offset __attribute__((packed));
} voyager_sp_table_t;
typedef struct voyager_jtag_table {
__u8 icode[4] __attribute__((packed));
__u8 runbist[4] __attribute__((packed));
__u8 intest[4] __attribute__((packed));
__u8 samp_preld[4] __attribute__((packed));
__u8 ireg_len __attribute__((packed));
} voyager_jtt_t;
typedef struct voyager_asic_data_table {
__u8 jtag_id[4] __attribute__((packed));
__u16 length_bsr __attribute__((packed));
__u16 length_bist_reg __attribute__((packed));
__u32 bist_clk __attribute__((packed));
__u16 subaddr_bits __attribute__((packed));
__u16 seed_bits __attribute__((packed));
__u16 sig_bits __attribute__((packed));
__u16 jtag_offset __attribute__((packed));
} voyager_at_t;
/* Voyager Interrupt Controller (VIC) registers */
/* Base to add to Cross Processor Interrupts (CPIs) when triggering
* the CPU IRQ line */
/* register defines for the WCBICs (one per processor) */
#define VOYAGER_WCBIC0 0x41 /* bus A node P1 processor 0 */
#define VOYAGER_WCBIC1 0x49 /* bus A node P1 processor 1 */
#define VOYAGER_WCBIC2 0x51 /* bus A node P2 processor 0 */
#define VOYAGER_WCBIC3 0x59 /* bus A node P2 processor 1 */
#define VOYAGER_WCBIC4 0x61 /* bus B node P1 processor 0 */
#define VOYAGER_WCBIC5 0x69 /* bus B node P1 processor 1 */
#define VOYAGER_WCBIC6 0x71 /* bus B node P2 processor 0 */
#define VOYAGER_WCBIC7 0x79 /* bus B node P2 processor 1 */
/* top of memory registers */
#define VOYAGER_WCBIC_TOM_L 0x4
#define VOYAGER_WCBIC_TOM_H 0x5
/* register defines for Voyager Memory Contol (VMC)
* these are present on L4 machines only */
#define VOYAGER_VMC1 0x81
#define VOYAGER_VMC2 0x91
#define VOYAGER_VMC3 0xa1
#define VOYAGER_VMC4 0xb1
/* VMC Ports */
#define VOYAGER_VMC_MEMORY_SETUP 0x9
# define VMC_Interleaving 0x01
# define VMC_4Way 0x02
# define VMC_EvenCacheLines 0x04
# define VMC_HighLine 0x08
# define VMC_Start0_Enable 0x20
# define VMC_Start1_Enable 0x40
# define VMC_Vremap 0x80
#define VOYAGER_VMC_BANK_DENSITY 0xa
# define VMC_BANK_EMPTY 0
# define VMC_BANK_4MB 1
# define VMC_BANK_16MB 2
# define VMC_BANK_64MB 3
# define VMC_BANK0_MASK 0x03
# define VMC_BANK1_MASK 0x0C
# define VMC_BANK2_MASK 0x30
# define VMC_BANK3_MASK 0xC0
/* Magellan Memory Controller (MMC) defines - present on L5 */
#define VOYAGER_MMC_ASIC_ID 1
/* the two memory modules corresponding to memory cards in the system */
#define VOYAGER_MMC_MEMORY0_MODULE 0x14
#define VOYAGER_MMC_MEMORY1_MODULE 0x15
/* the Magellan Memory Address (MMA) defines */
#define VOYAGER_MMA_ASIC_ID 2
/* Submodule number for the Quad Baseboard */
#define VOYAGER_QUAD_BASEBOARD 1
/* ASIC defines for the Quad Baseboard */
#define VOYAGER_QUAD_QDATA0 1
#define VOYAGER_QUAD_QDATA1 2
#define VOYAGER_QUAD_QABC 3
/* Useful areas in extended CMOS */
#define VOYAGER_PROCESSOR_PRESENT_MASK 0x88a
#define VOYAGER_MEMORY_CLICKMAP 0xa23
#define VOYAGER_DUMP_LOCATION 0xb1a
/* SUS In Control bit - used to tell SUS that we don't need to be
* babysat anymore */
#define VOYAGER_SUS_IN_CONTROL_PORT 0x3ff
# define VOYAGER_IN_CONTROL_FLAG 0x80
/* Voyager PSI defines */
#define VOYAGER_PSI_STATUS_REG 0x08
# define PSI_DC_FAIL 0x01
# define PSI_MON 0x02
# define PSI_FAULT 0x04
# define PSI_ALARM 0x08
# define PSI_CURRENT 0x10
# define PSI_DVM 0x20
# define PSI_PSCFAULT 0x40
# define PSI_STAT_CHG 0x80
#define VOYAGER_PSI_SUPPLY_REG 0x8000
/* read */
# define PSI_FAIL_DC 0x01
# define PSI_FAIL_AC 0x02
# define PSI_MON_INT 0x04
# define PSI_SWITCH_OFF 0x08
# define PSI_HX_OFF 0x10
# define PSI_SECURITY 0x20
# define PSI_CMOS_BATT_LOW 0x40
# define PSI_CMOS_BATT_FAIL 0x80
/* write */
# define PSI_CLR_SWITCH_OFF 0x13
# define PSI_CLR_HX_OFF 0x14
# define PSI_CLR_CMOS_BATT_FAIL 0x17
#define VOYAGER_PSI_MASK 0x8001
# define PSI_MASK_MASK 0x10
#define VOYAGER_PSI_AC_FAIL_REG 0x8004
#define AC_FAIL_STAT_CHANGE 0x80
#define VOYAGER_PSI_GENERAL_REG 0x8007
/* read */
# define PSI_SWITCH_ON 0x01
# define PSI_SWITCH_ENABLED 0x02
# define PSI_ALARM_ENABLED 0x08
# define PSI_SECURE_ENABLED 0x10
# define PSI_COLD_RESET 0x20
# define PSI_COLD_START 0x80
/* write */
# define PSI_POWER_DOWN 0x10
# define PSI_SWITCH_DISABLE 0x01
# define PSI_SWITCH_ENABLE 0x11
# define PSI_CLEAR 0x12
# define PSI_ALARM_DISABLE 0x03
# define PSI_ALARM_ENABLE 0x13
# define PSI_CLEAR_COLD_RESET 0x05
# define PSI_SET_COLD_RESET 0x15
# define PSI_CLEAR_COLD_START 0x07
# define PSI_SET_COLD_START 0x17
struct voyager_bios_info {
__u8 len;
__u8 major;
__u8 minor;
__u8 debug;
__u8 num_classes;
__u8 class_1;
__u8 class_2;
};
/* The following structures and definitions are for the Kernel/SUS
* interface these are needed to find out how SUS initialised any Quad
* boards in the system */
#define NUMBER_OF_MC_BUSSES 2
#define SLOTS_PER_MC_BUS 8
#define MAX_CPUS 16 /* 16 way CPU system */
#define MAX_PROCESSOR_BOARDS 4 /* 4 processor slot system */
#define MAX_CACHE_LEVELS 4 /* # of cache levels supported */
#define MAX_SHARED_CPUS 4 /* # of CPUs that can share a LARC */
#define NUMBER_OF_POS_REGS 8
typedef struct {
__u8 MC_Slot __attribute__((packed));
__u8 POS_Values[NUMBER_OF_POS_REGS] __attribute__((packed));
} MC_SlotInformation_t;
struct QuadDescription {
__u8 Type __attribute__((packed)); /* for type 0 (DYADIC or MONADIC) all fields
* will be zero except for slot */
__u8 StructureVersion __attribute__((packed));
__u32 CPI_BaseAddress __attribute__((packed));
__u32 LARC_BankSize __attribute__((packed));
__u32 LocalMemoryStateBits __attribute__((packed));
__u8 Slot __attribute__((packed)); /* Processor slots 1 - 4 */
};
struct ProcBoardInfo {
__u8 Type __attribute__((packed));
__u8 StructureVersion __attribute__((packed));
__u8 NumberOfBoards __attribute__((packed));
struct QuadDescription QuadData[MAX_PROCESSOR_BOARDS] __attribute__((packed));
};
struct CacheDescription {
__u8 Level __attribute__((packed));
__u32 TotalSize __attribute__((packed));
__u16 LineSize __attribute__((packed));
__u8 Associativity __attribute__((packed));
__u8 CacheType __attribute__((packed));
__u8 WriteType __attribute__((packed));
__u8 Number_CPUs_SharedBy __attribute__((packed));
__u8 Shared_CPUs_Hardware_IDs[MAX_SHARED_CPUS] __attribute__((packed));
};
struct CPU_Description {
__u8 CPU_HardwareId __attribute__((packed));
char *FRU_String __attribute__((packed));
__u8 NumberOfCacheLevels __attribute__((packed));
struct CacheDescription CacheLevelData[MAX_CACHE_LEVELS] __attribute__((packed));
};
struct CPU_Info {
__u8 Type __attribute__((packed));
__u8 StructureVersion __attribute__((packed));
__u8 NumberOf_CPUs __attribute__((packed));
struct CPU_Description CPU_Data[MAX_CPUS] __attribute__((packed));
};
/*
* This structure will be used by SUS and the OS.
* The assumption about this structure is that no blank space is
* packed in it by our friend the compiler.
*/
typedef struct {
__u8 Mailbox_SUS; /* Written to by SUS to give commands/response to the OS */
__u8 Mailbox_OS; /* Written to by the OS to give commands/response to SUS */
__u8 SUS_MailboxVersion; /* Tells the OS which iteration of the interface SUS supports */
__u8 OS_MailboxVersion; /* Tells SUS which iteration of the interface the OS supports */
__u32 OS_Flags; /* Flags set by the OS as info for SUS */
__u32 SUS_Flags; /* Flags set by SUS as info for the OS */
__u32 WatchDogPeriod; /* Watchdog period (in seconds) which the DP uses to see if the OS is dead */
__u32 WatchDogCount; /* Updated by the OS on every tic. */
__u32 MemoryFor_SUS_ErrorLog; /* Flat 32 bit address which tells SUS where to stuff the SUS error log on a dump */
MC_SlotInformation_t MC_SlotInfo[NUMBER_OF_MC_BUSSES*SLOTS_PER_MC_BUS]; /* Storage for MCA POS data */
/* All new SECOND_PASS_INTERFACE fields added from this point */
struct ProcBoardInfo *BoardData;
struct CPU_Info *CPU_Data;
/* All new fields must be added from this point */
} Voyager_KernelSUS_Mbox_t;
/* structure for finding the right memory address to send a QIC CPI to */
struct voyager_qic_cpi {
/* Each cache line (32 bytes) can trigger a cpi. The cpi
* read/write may occur anywhere in the cache line---pick the
* middle to be safe */
struct {
__u32 pad1[3];
__u32 cpi;
__u32 pad2[4];
} qic_cpi[8];
};
struct voyager_status {
__u32 power_fail:1;
__u32 switch_off:1;
__u32 request_from_kernel:1;
};
struct voyager_psi_regs {
__u8 cat_id;
__u8 cat_dev;
__u8 cat_control;
__u8 subaddr;
__u8 dummy4;
__u8 checkbit;
__u8 subaddr_low;
__u8 subaddr_high;
__u8 intstatus;
__u8 stat1;
__u8 stat3;
__u8 fault;
__u8 tms;
__u8 gen;
__u8 sysconf;
__u8 dummy15;
};
struct voyager_psi_subregs {
__u8 supply;
__u8 mask;
__u8 present;
__u8 DCfail;
__u8 ACfail;
__u8 fail;
__u8 UPSfail;
__u8 genstatus;
};
struct voyager_psi {
struct voyager_psi_regs regs;
struct voyager_psi_subregs subregs;
};
struct voyager_SUS {
#define VOYAGER_DUMP_BUTTON_NMI 0x1
#define VOYAGER_SUS_VALID 0x2
#define VOYAGER_SYSINT_COMPLETE 0x3
__u8 SUS_mbox;
#define VOYAGER_NO_COMMAND 0x0
#define VOYAGER_IGNORE_DUMP 0x1
#define VOYAGER_DO_DUMP 0x2
#define VOYAGER_SYSINT_HANDSHAKE 0x3
#define VOYAGER_DO_MEM_DUMP 0x4
#define VOYAGER_SYSINT_WAS_RECOVERED 0x5
__u8 kernel_mbox;
#define VOYAGER_MAILBOX_VERSION 0x10
__u8 SUS_version;
__u8 kernel_version;
#define VOYAGER_OS_HAS_SYSINT 0x1
#define VOYAGER_OS_IN_PROGRESS 0x2
#define VOYAGER_UPDATING_WDPERIOD 0x4
__u32 kernel_flags;
#define VOYAGER_SUS_BOOTING 0x1
#define VOYAGER_SUS_IN_PROGRESS 0x2
__u32 SUS_flags;
__u32 watchdog_period;
__u32 watchdog_count;
__u32 SUS_errorlog;
/* lots of system configuration stuff under here */
};
/* Variables exported by voyager_smp */
extern __u32 voyager_extended_vic_processors;
extern __u32 voyager_allowed_boot_processors;
extern __u32 voyager_quad_processors;
extern struct voyager_qic_cpi *voyager_quad_cpi_addr[NR_CPUS];
extern struct voyager_SUS *voyager_SUS;
/* variables exported always */
extern int voyager_level;
extern int kvoyagerd_running;
extern struct semaphore kvoyagerd_sem;
extern struct voyager_status voyager_status;
/* functions exported by the voyager and voyager_smp modules */
extern int voyager_cat_readb(__u8 module, __u8 asic, int reg);
extern void voyager_cat_init(void);
extern void voyager_detect(struct voyager_bios_info *);
extern void voyager_trap_init(void);
extern void voyager_setup_irqs(void);
extern int voyager_memory_detect(int region, __u32 *addr, __u32 *length);
extern void voyager_smp_intr_init(void);
extern __u8 voyager_extended_cmos_read(__u16 cmos_address);
extern void voyager_smp_dump(void);
extern void voyager_timer_interrupt(struct pt_regs *regs);
extern void smp_local_timer_interrupt(struct pt_regs * regs);
extern void voyager_power_off(void);
extern void smp_voyager_power_off(void *dummy);
extern void voyager_restart(void);
extern void voyager_cat_power_off(void);
extern void voyager_cat_do_common_interrupt(void);
extern void voyager_handle_nmi(void);
/* Commands for the following are */
#define VOYAGER_PSI_READ 0
#define VOYAGER_PSI_WRITE 1
#define VOYAGER_PSI_SUBREAD 2
#define VOYAGER_PSI_SUBWRITE 3
extern void voyager_cat_psi(__u8, __u16, __u8 *);