linuxdebug/arch/mips/include/asm/sgi/heart.h

324 lines
12 KiB
C

/* SPDX-License-Identifier: GPL-2.0 */
/*
* HEART chip definitions
*
* Copyright (C) 2004-2007 Stanislaw Skowronek <skylark@unaligned.org>
* 2009 Johannes Dickgreber <tanzy@gmx.de>
* 2007-2015 Joshua Kinard <kumba@gentoo.org>
*/
#ifndef __ASM_SGI_HEART_H
#define __ASM_SGI_HEART_H
#include <linux/types.h>
#include <linux/time.h>
/*
* There are 8 DIMM slots on an IP30 system
* board, which are grouped into four banks
*/
#define HEART_MEMORY_BANKS 4
/* HEART can support up to four CPUs */
#define HEART_MAX_CPUS 4
#define HEART_XKPHYS_BASE ((void *)(IO_BASE | 0x000000000ff00000ULL))
/**
* struct ip30_heart_regs - struct that maps IP30 HEART registers.
* @mode: HEART_MODE - Purpose Unknown, machine reset called from here.
* @sdram_mode: HEART_SDRAM_MODE - purpose unknown.
* @mem_refresh: HEART_MEM_REF - purpose unknown.
* @mem_req_arb: HEART_MEM_REQ_ARB - purpose unknown.
* @mem_cfg.q: union for 64bit access to HEART_MEMCFG - 4x 64bit registers.
* @mem_cfg.l: union for 32bit access to HEART_MEMCFG - 8x 32bit registers.
* @fc_mode: HEART_FC_MODE - Purpose Unknown, possibly for GFX flow control.
* @fc_timer_limit: HEART_FC_TIMER_LIMIT - purpose unknown.
* @fc_addr: HEART_FC0_ADDR, HEART_FC1_ADDR - purpose unknown.
* @fc_credit_cnt: HEART_FC0_CR_CNT, HEART_FC1_CR_CNT - purpose unknown.
* @fc_timer: HEART_FC0_TIMER, HEART_FC1_TIMER - purpose unknown.
* @status: HEART_STATUS - HEART status information.
* @bus_err_addr: HEART_BERR_ADDR - likely contains addr of recent SIGBUS.
* @bus_err_misc: HEART_BERR_MISC - purpose unknown.
* @mem_err_addr: HEART_MEMERR_ADDR - likely contains addr of recent mem err.
* @mem_err_data: HEART_MEMERR_DATA - purpose unknown.
* @piur_acc_err: HEART_PIUR_ACC_ERR - likely for access err to HEART regs.
* @mlan_clock_div: HEART_MLAN_CLK_DIV - MicroLAN clock divider.
* @mlan_ctrl: HEART_MLAN_CTL - MicroLAN control.
* @__pad0: 0x0f40 bytes of padding -> next HEART register 0x01000.
* @undefined: Undefined/diag register, write to it triggers PIUR_ACC_ERR.
* @__pad1: 0xeff8 bytes of padding -> next HEART register 0x10000.
* @imr: HEART_IMR0 to HEART_IMR3 - per-cpu interrupt mask register.
* @set_isr: HEART_SET_ISR - set interrupt status register.
* @clear_isr: HEART_CLR_ISR - clear interrupt status register.
* @isr: HEART_ISR - interrupt status register (read-only).
* @imsr: HEART_IMSR - purpose unknown.
* @cause: HEART_CAUSE - HEART cause information.
* @__pad2: 0xffb8 bytes of padding -> next HEART register 0x20000.
* @count: HEART_COUNT - 52-bit counter.
* @__pad3: 0xfff8 bytes of padding -> next HEART register 0x30000.
* @compare: HEART_COMPARE - 24-bit compare.
* @__pad4: 0xfff8 bytes of padding -> next HEART register 0x40000.
* @trigger: HEART_TRIGGER - purpose unknown.
* @__pad5: 0xfff8 bytes of padding -> next HEART register 0x50000.
* @cpuid: HEART_PRID - contains CPU ID of CPU currently accessing HEART.
* @__pad6: 0xfff8 bytes of padding -> next HEART register 0x60000.
* @sync: HEART_SYNC - purpose unknown.
*
* HEART is the main system controller ASIC for IP30 system. It incorporates
* a memory controller, interrupt status/cause/set/clear management, basic
* timer with count/compare, and other functionality. For Linux, not all of
* HEART's functions are fully understood.
*
* Implementation note: All HEART registers are 64bits-wide, but the mem_cfg
* register only reports correct values if queried in 32bits. Hence the need
* for a union. Even though mem_cfg.l has 8 array slots, we only ever query
* up to 4 of those. IP30 has 8 DIMM slots arranged into 4 banks, w/ 2 DIMMs
* per bank. Each 32bit read accesses one of these banks. Perhaps HEART was
* designed to address up to 8 banks (16 DIMMs)? We may never know.
*/
struct ip30_heart_regs { /* 0x0ff00000 */
u64 mode; /* + 0x00000 */
/* Memory */
u64 sdram_mode; /* + 0x00008 */
u64 mem_refresh; /* + 0x00010 */
u64 mem_req_arb; /* + 0x00018 */
union {
u64 q[HEART_MEMORY_BANKS]; /* readq() */
u32 l[HEART_MEMORY_BANKS * 2]; /* readl() */
} mem_cfg; /* + 0x00020 */
/* Flow control (gfx?) */
u64 fc_mode; /* + 0x00040 */
u64 fc_timer_limit; /* + 0x00048 */
u64 fc_addr[2]; /* + 0x00050 */
u64 fc_credit_cnt[2]; /* + 0x00060 */
u64 fc_timer[2]; /* + 0x00070 */
/* Status */
u64 status; /* + 0x00080 */
/* Bus error */
u64 bus_err_addr; /* + 0x00088 */
u64 bus_err_misc; /* + 0x00090 */
/* Memory error */
u64 mem_err_addr; /* + 0x00098 */
u64 mem_err_data; /* + 0x000a0 */
/* Misc */
u64 piur_acc_err; /* + 0x000a8 */
u64 mlan_clock_div; /* + 0x000b0 */
u64 mlan_ctrl; /* + 0x000b8 */
u64 __pad0[0x01e8]; /* + 0x000c0 + 0x0f40 */
/* Undefined */
u64 undefined; /* + 0x01000 */
u64 __pad1[0x1dff]; /* + 0x01008 + 0xeff8 */
/* Interrupts */
u64 imr[HEART_MAX_CPUS]; /* + 0x10000 */
u64 set_isr; /* + 0x10020 */
u64 clear_isr; /* + 0x10028 */
u64 isr; /* + 0x10030 */
u64 imsr; /* + 0x10038 */
u64 cause; /* + 0x10040 */
u64 __pad2[0x1ff7]; /* + 0x10048 + 0xffb8 */
/* Timer */
u64 count; /* + 0x20000 */
u64 __pad3[0x1fff]; /* + 0x20008 + 0xfff8 */
u64 compare; /* + 0x30000 */
u64 __pad4[0x1fff]; /* + 0x30008 + 0xfff8 */
u64 trigger; /* + 0x40000 */
u64 __pad5[0x1fff]; /* + 0x40008 + 0xfff8 */
/* Misc */
u64 cpuid; /* + 0x50000 */
u64 __pad6[0x1fff]; /* + 0x50008 + 0xfff8 */
u64 sync; /* + 0x60000 */
};
/* For timer-related bits. */
#define HEART_NS_PER_CYCLE 80
#define HEART_CYCLES_PER_SEC (NSEC_PER_SEC / HEART_NS_PER_CYCLE)
/*
* XXX: Everything below this comment will either go away or be cleaned
* up to fit in better with Linux. A lot of the bit definitions for
* HEART were derived from IRIX's sys/RACER/heart.h header file.
*/
/* HEART Masks */
#define HEART_ATK_MASK 0x0007ffffffffffff /* HEART attack mask */
#define HEART_ACK_ALL_MASK 0xffffffffffffffff /* Ack everything */
#define HEART_CLR_ALL_MASK 0x0000000000000000 /* Clear all */
#define HEART_BR_ERR_MASK 0x7ff8000000000000 /* BRIDGE error mask */
#define HEART_CPU0_ERR_MASK 0x8ff8000000000000 /* CPU0 error mask */
#define HEART_CPU1_ERR_MASK 0x97f8000000000000 /* CPU1 error mask */
#define HEART_CPU2_ERR_MASK 0xa7f8000000000000 /* CPU2 error mask */
#define HEART_CPU3_ERR_MASK 0xc7f8000000000000 /* CPU3 error mask */
#define HEART_ERR_MASK 0x1ff /* HEART error mask */
#define HEART_ERR_MASK_START 51 /* HEART error start */
#define HEART_ERR_MASK_END 63 /* HEART error end */
/* Bits in the HEART_MODE register. */
#define HM_PROC_DISABLE_SHFT 60
#define HM_PROC_DISABLE_MSK (0xfUL << HM_PROC_DISABLE_SHFT)
#define HM_PROC_DISABLE(x) (0x1UL << (x) + HM_PROC_DISABLE_SHFT)
#define HM_MAX_PSR (0x7UL << 57)
#define HM_MAX_IOSR (0x7UL << 54)
#define HM_MAX_PEND_IOSR (0x7UL << 51)
#define HM_TRIG_SRC_SEL_MSK (0x7UL << 48)
#define HM_TRIG_HEART_EXC (0x0UL << 48)
#define HM_TRIG_REG_BIT (0x1UL << 48)
#define HM_TRIG_SYSCLK (0x2UL << 48)
#define HM_TRIG_MEMCLK_2X (0x3UL << 48)
#define HM_TRIG_MEMCLK (0x4UL << 48)
#define HM_TRIG_IOCLK (0x5UL << 48)
#define HM_PIU_TEST_MODE (0xfUL << 40)
#define HM_GP_FLAG_MSK (0xfUL << 36)
#define HM_GP_FLAG(x) BIT((x) + 36)
#define HM_MAX_PROC_HYST (0xfUL << 32)
#define HM_LLP_WRST_AFTER_RST BIT(28)
#define HM_LLP_LINK_RST BIT(27)
#define HM_LLP_WARM_RST BIT(26)
#define HM_COR_ECC_LCK BIT(25)
#define HM_REDUCED_PWR BIT(24)
#define HM_COLD_RST BIT(23)
#define HM_SW_RST BIT(22)
#define HM_MEM_FORCE_WR BIT(21)
#define HM_DB_ERR_GEN BIT(20)
#define HM_SB_ERR_GEN BIT(19)
#define HM_CACHED_PIO_EN BIT(18)
#define HM_CACHED_PROM_EN BIT(17)
#define HM_PE_SYS_COR_ERE BIT(16)
#define HM_GLOBAL_ECC_EN BIT(15)
#define HM_IO_COH_EN BIT(14)
#define HM_INT_EN BIT(13)
#define HM_DATA_CHK_EN BIT(12)
#define HM_REF_EN BIT(11)
#define HM_BAD_SYSWR_ERE BIT(10)
#define HM_BAD_SYSRD_ERE BIT(9)
#define HM_SYSSTATE_ERE BIT(8)
#define HM_SYSCMD_ERE BIT(7)
#define HM_NCOR_SYS_ERE BIT(6)
#define HM_COR_SYS_ERE BIT(5)
#define HM_DATA_ELMNT_ERE BIT(4)
#define HM_MEM_ADDR_PROC_ERE BIT(3)
#define HM_MEM_ADDR_IO_ERE BIT(2)
#define HM_NCOR_MEM_ERE BIT(1)
#define HM_COR_MEM_ERE BIT(0)
/* Bits in the HEART_MEM_REF register. */
#define HEART_MEMREF_REFS(x) ((0xfUL & (x)) << 16)
#define HEART_MEMREF_PERIOD(x) ((0xffffUL & (x)))
#define HEART_MEMREF_REFS_VAL HEART_MEMREF_REFS(8)
#define HEART_MEMREF_PERIOD_VAL HEART_MEMREF_PERIOD(0x4000)
#define HEART_MEMREF_VAL (HEART_MEMREF_REFS_VAL | \
HEART_MEMREF_PERIOD_VAL)
/* Bits in the HEART_MEM_REQ_ARB register. */
#define HEART_MEMARB_IODIS (1 << 20)
#define HEART_MEMARB_MAXPMWRQS (15 << 16)
#define HEART_MEMARB_MAXPMRRQS (15 << 12)
#define HEART_MEMARB_MAXPMRQS (15 << 8)
#define HEART_MEMARB_MAXRRRQS (15 << 4)
#define HEART_MEMARB_MAXGBRRQS (15)
/* Bits in the HEART_MEMCFG<x> registers. */
#define HEART_MEMCFG_VALID 0x80000000 /* Bank is valid */
#define HEART_MEMCFG_DENSITY 0x01c00000 /* Mem density */
#define HEART_MEMCFG_SIZE_MASK 0x003f0000 /* Mem size mask */
#define HEART_MEMCFG_ADDR_MASK 0x000001ff /* Base addr mask */
#define HEART_MEMCFG_SIZE_SHIFT 16 /* Mem size shift */
#define HEART_MEMCFG_DENSITY_SHIFT 22 /* Density Shift */
#define HEART_MEMCFG_UNIT_SHIFT 25 /* Unit Shift, 32MB */
/* Bits in the HEART_STATUS register */
#define HEART_STAT_HSTL_SDRV BIT(14)
#define HEART_STAT_FC_CR_OUT(x) BIT((x) + 12)
#define HEART_STAT_DIR_CNNCT BIT(11)
#define HEART_STAT_TRITON BIT(10)
#define HEART_STAT_R4K BIT(9)
#define HEART_STAT_BIG_ENDIAN BIT(8)
#define HEART_STAT_PROC_SHFT 4
#define HEART_STAT_PROC_MSK (0xfUL << HEART_STAT_PROC_SHFT)
#define HEART_STAT_PROC_ACTIVE(x) (0x1UL << ((x) + HEART_STAT_PROC_SHFT))
#define HEART_STAT_WIDGET_ID 0xf
/* Bits in the HEART_CAUSE register */
#define HC_PE_SYS_COR_ERR_MSK (0xfUL << 60)
#define HC_PE_SYS_COR_ERR(x) BIT((x) + 60)
#define HC_PIOWDB_OFLOW BIT(44)
#define HC_PIORWRB_OFLOW BIT(43)
#define HC_PIUR_ACC_ERR BIT(42)
#define HC_BAD_SYSWR_ERR BIT(41)
#define HC_BAD_SYSRD_ERR BIT(40)
#define HC_SYSSTATE_ERR_MSK (0xfUL << 36)
#define HC_SYSSTATE_ERR(x) BIT((x) + 36)
#define HC_SYSCMD_ERR_MSK (0xfUL << 32)
#define HC_SYSCMD_ERR(x) BIT((x) + 32)
#define HC_NCOR_SYSAD_ERR_MSK (0xfUL << 28)
#define HC_NCOR_SYSAD_ERR(x) BIT((x) + 28)
#define HC_COR_SYSAD_ERR_MSK (0xfUL << 24)
#define HC_COR_SYSAD_ERR(x) BIT((x) + 24)
#define HC_DATA_ELMNT_ERR_MSK (0xfUL << 20)
#define HC_DATA_ELMNT_ERR(x) BIT((x) + 20)
#define HC_WIDGET_ERR BIT(16)
#define HC_MEM_ADDR_ERR_PROC_MSK (0xfUL << 4)
#define HC_MEM_ADDR_ERR_PROC(x) BIT((x) + 4)
#define HC_MEM_ADDR_ERR_IO BIT(2)
#define HC_NCOR_MEM_ERR BIT(1)
#define HC_COR_MEM_ERR BIT(0)
/*
* HEART has 64 interrupt vectors available to it, subdivided into five
* priority levels. They are numbered 0 to 63.
*/
#define HEART_NUM_IRQS 64
/*
* These are the five interrupt priority levels and their corresponding
* CPU IPx interrupt pins.
*
* Level 4 - Error Interrupts.
* Level 3 - HEART timer interrupt.
* Level 2 - CPU IPI, CPU debug, power putton, general device interrupts.
* Level 1 - General device interrupts.
* Level 0 - General device GFX flow control interrupts.
*/
#define HEART_L4_INT_MASK 0xfff8000000000000ULL /* IP6 */
#define HEART_L3_INT_MASK 0x0004000000000000ULL /* IP5 */
#define HEART_L2_INT_MASK 0x0003ffff00000000ULL /* IP4 */
#define HEART_L1_INT_MASK 0x00000000ffff0000ULL /* IP3 */
#define HEART_L0_INT_MASK 0x000000000000ffffULL /* IP2 */
/* HEART L0 Interrupts (Low Priority) */
#define HEART_L0_INT_GENERIC 0
#define HEART_L0_INT_FLOW_CTRL_HWTR_0 1
#define HEART_L0_INT_FLOW_CTRL_HWTR_1 2
/* HEART L2 Interrupts (High Priority) */
#define HEART_L2_INT_RESCHED_CPU_0 46
#define HEART_L2_INT_RESCHED_CPU_1 47
#define HEART_L2_INT_CALL_CPU_0 48
#define HEART_L2_INT_CALL_CPU_1 49
/* HEART L3 Interrupts (Compare/Counter Timer) */
#define HEART_L3_INT_TIMER 50
/* HEART L4 Interrupts (Errors) */
#define HEART_L4_INT_XWID_ERR_9 51
#define HEART_L4_INT_XWID_ERR_A 52
#define HEART_L4_INT_XWID_ERR_B 53
#define HEART_L4_INT_XWID_ERR_C 54
#define HEART_L4_INT_XWID_ERR_D 55
#define HEART_L4_INT_XWID_ERR_E 56
#define HEART_L4_INT_XWID_ERR_F 57
#define HEART_L4_INT_XWID_ERR_XBOW 58
#define HEART_L4_INT_CPU_BUS_ERR_0 59
#define HEART_L4_INT_CPU_BUS_ERR_1 60
#define HEART_L4_INT_CPU_BUS_ERR_2 61
#define HEART_L4_INT_CPU_BUS_ERR_3 62
#define HEART_L4_INT_HEART_EXCP 63
extern struct ip30_heart_regs __iomem *heart_regs;
#define heart_read ____raw_readq
#define heart_write ____raw_writeq
#endif /* __ASM_SGI_HEART_H */