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|
/* $Id: head.S,v 1.82 1997/05/01 01:40:38 davem Exp $
* head.S: The initial boot code for the Sparc port of Linux.
*
* Copyright (C) 1995 David S. Miller (davem@caip.rutgers.edu)
* Copyright (C) 1995 Peter Zaitcev (Zaitcev@ipmce.su)
* Copyright (C) 1996 Miguel de Icaza (miguel@nuclecu.unam.mx)
* Copyright (C) 1997 Jakub Jelinek (jj@sunsite.mff.cuni.cz)
*/
#include <linux/version.h>
#include <linux/config.h>
#include <linux/init.h>
#include <asm/cprefix.h>
#include <asm/head.h>
#include <asm/asi.h>
#include <asm/contregs.h>
#include <asm/ptrace.h>
#include <asm/psr.h>
#include <asm/page.h>
#include <asm/kdebug.h>
#include <asm/winmacro.h>
#include <asm/errno.h>
.data
/*
* The following are used with the prom_vector node-ops to figure out
* the cpu-type
*/
.align 4
.globl C_LABEL(cputyp)
C_LABEL(cputyp):
.word 1
.align 4
.globl C_LABEL(cputypval)
C_LABEL(cputypval):
.asciz "sun4c"
.ascii " "
C_LABEL(cputypvalend):
C_LABEL(cputypvallen) = C_LABEL(cputypvar) - C_LABEL(cputypval)
.align 4
/*
* Sun people can't spell worth damn. "compatability" indeed.
* At least we *know* we can't spell, and use a spell-checker.
*/
/* Uh, actually Linus it is I who cannot spell. Too much murky
* Sparc assembly will do this to ya.
*/
C_LABEL(cputypvar):
.asciz "compatability"
/* Tested on SS-5, SS-10. Probably someone at Sun applied a spell-checker. */
.align 4
C_LABEL(cputypvar_sun4m):
.asciz "compatible"
.align 4
sun4_notsup:
.asciz "Sparc-Linux sun4 support not implemented yet\n\n"
.align 4
sun4e_notsup:
.asciz "Sparc-Linux sun4e support does not exist\n\n"
.align 4
/* The Sparc trap table, bootloader gives us control at _start. */
.text
.globl start, _stext, _start, __stext
.globl C_LABEL(trapbase)
_start: /* danger danger */
__stext:
_stext:
start:
C_LABEL(trapbase):
#ifdef __SMP__
C_LABEL(trapbase_cpu0):
#endif
/* We get control passed to us here at t_zero. */
t_zero: b gokernel; nop; nop; nop;
t_tflt: SPARC_TFAULT /* Inst. Access Exception */
t_bins: TRAP_ENTRY(0x2, bad_instruction) /* Illegal Instruction */
t_pins: TRAP_ENTRY(0x3, priv_instruction) /* Privileged Instruction */
t_fpd: TRAP_ENTRY(0x4, fpd_trap_handler) /* Floating Point Disabled */
t_wovf: WINDOW_SPILL /* Window Overflow */
t_wunf: WINDOW_FILL /* Window Underflow */
t_mna: TRAP_ENTRY(0x7, mna_handler) /* Memory Address Not Aligned */
t_fpe: TRAP_ENTRY(0x8, fpe_trap_handler) /* Floating Point Exception */
t_dflt: SPARC_DFAULT /* Data Miss Exception */
t_tio: TRAP_ENTRY(0xa, do_tag_overflow) /* Tagged Instruction Ovrflw */
t_wpt: TRAP_ENTRY(0xb, do_watchpoint) /* Watchpoint Detected */
t_badc: BAD_TRAP(0xc) BAD_TRAP(0xd) BAD_TRAP(0xe) BAD_TRAP(0xf) BAD_TRAP(0x10)
t_irq1: TRAP_ENTRY_INTERRUPT(1) /* IRQ Software/SBUS Level 1 */
t_irq2: TRAP_ENTRY_INTERRUPT(2) /* IRQ SBUS Level 2 */
t_irq3: TRAP_ENTRY_INTERRUPT(3) /* IRQ SCSI/DMA/SBUS Level 3 */
t_irq4: TRAP_ENTRY_INTERRUPT(4) /* IRQ Software Level 4 */
t_irq5: TRAP_ENTRY_INTERRUPT(5) /* IRQ SBUS/Ethernet Level 5 */
t_irq6: TRAP_ENTRY_INTERRUPT(6) /* IRQ Software Level 6 */
t_irq7: TRAP_ENTRY_INTERRUPT(7) /* IRQ Video/SBUS Level 5 */
t_irq8: TRAP_ENTRY_INTERRUPT(8) /* IRQ SBUS Level 6 */
t_irq9: TRAP_ENTRY_INTERRUPT(9) /* IRQ SBUS Level 7 */
t_irq10:TRAP_ENTRY_INTERRUPT(10) /* IRQ Timer #1 (one we use) */
t_irq11:TRAP_ENTRY_INTERRUPT(11) /* IRQ Floppy Intr. */
t_irq12:TRAP_ENTRY_INTERRUPT(12) /* IRQ Zilog serial chip */
t_irq13:TRAP_ENTRY_INTERRUPT(13) /* IRQ Audio Intr. */
t_irq14:TRAP_ENTRY_INTERRUPT(14) /* IRQ Timer #2 */
#ifndef __SMP__
t_nmi: NMI_TRAP /* Level 15 (NMI) */
#else
TRAP_ENTRY(0x1f, linux_trap_ipi15_sun4m)
#endif
t_racc: TRAP_ENTRY(0x20, do_reg_access) /* General Register Access Error */
t_iacce:BAD_TRAP(0x21) /* Instr Access Error */
t_bad22:BAD_TRAP(0x22) BAD_TRAP(0x23)
t_cpdis:TRAP_ENTRY(0x24, do_cp_disabled) /* Co-Processor Disabled */
t_uflsh:TRAP_ENTRY(0x25, do_bad_flush) /* Unimplemented FLUSH inst. */
t_bad26:BAD_TRAP(0x26) BAD_TRAP(0x27)
t_cpexc:TRAP_ENTRY(0x28, do_cp_exception) /* Co-Processor Exception */
t_dacce:SPARC_DFAULT /* Data Access Error */
t_hwdz: TRAP_ENTRY(0x2a, do_hw_divzero) /* Division by zero, you lose... */
t_dserr:BAD_TRAP(0x2b) /* Data Store Error */
t_daccm:BAD_TRAP(0x2c) /* Data Access MMU-Miss */
t_bad2d:BAD_TRAP(0x2d) BAD_TRAP(0x2e) BAD_TRAP(0x2f) BAD_TRAP(0x30) BAD_TRAP(0x31)
t_bad32:BAD_TRAP(0x32) BAD_TRAP(0x33) BAD_TRAP(0x34) BAD_TRAP(0x35) BAD_TRAP(0x36)
t_bad37:BAD_TRAP(0x37) BAD_TRAP(0x38) BAD_TRAP(0x39) BAD_TRAP(0x3a) BAD_TRAP(0x3b)
t_iaccm:BAD_TRAP(0x3c) /* Instr Access MMU-Miss */
t_bad3d:BAD_TRAP(0x3d) BAD_TRAP(0x3e) BAD_TRAP(0x3f) BAD_TRAP(0x40) BAD_TRAP(0x41)
t_bad42:BAD_TRAP(0x42) BAD_TRAP(0x43) BAD_TRAP(0x44) BAD_TRAP(0x45) BAD_TRAP(0x46)
t_bad47:BAD_TRAP(0x47) BAD_TRAP(0x48) BAD_TRAP(0x49) BAD_TRAP(0x4a) BAD_TRAP(0x4b)
t_bad4c:BAD_TRAP(0x4c) BAD_TRAP(0x4d) BAD_TRAP(0x4e) BAD_TRAP(0x4f) BAD_TRAP(0x50)
t_bad51:BAD_TRAP(0x51) BAD_TRAP(0x52) BAD_TRAP(0x53) BAD_TRAP(0x54) BAD_TRAP(0x55)
t_bad56:BAD_TRAP(0x56) BAD_TRAP(0x57) BAD_TRAP(0x58) BAD_TRAP(0x59) BAD_TRAP(0x5a)
t_bad5b:BAD_TRAP(0x5b) BAD_TRAP(0x5c) BAD_TRAP(0x5d) BAD_TRAP(0x5e) BAD_TRAP(0x5f)
t_bad60:BAD_TRAP(0x60) BAD_TRAP(0x61) BAD_TRAP(0x62) BAD_TRAP(0x63) BAD_TRAP(0x64)
t_bad65:BAD_TRAP(0x65) BAD_TRAP(0x66) BAD_TRAP(0x67) BAD_TRAP(0x68) BAD_TRAP(0x69)
t_bad6a:BAD_TRAP(0x6a) BAD_TRAP(0x6b) BAD_TRAP(0x6c) BAD_TRAP(0x6d) BAD_TRAP(0x6e)
t_bad6f:BAD_TRAP(0x6f) BAD_TRAP(0x70) BAD_TRAP(0x71) BAD_TRAP(0x72) BAD_TRAP(0x73)
t_bad74:BAD_TRAP(0x74) BAD_TRAP(0x75) BAD_TRAP(0x76) BAD_TRAP(0x77) BAD_TRAP(0x78)
t_bad79:BAD_TRAP(0x79) BAD_TRAP(0x7a) BAD_TRAP(0x7b) BAD_TRAP(0x7c) BAD_TRAP(0x7d)
t_bad7e:BAD_TRAP(0x7e) BAD_TRAP(0x7f)
t_sunos:SUNOS_SYSCALL_TRAP /* SunOS System Call */
t_sbkpt:BREAKPOINT_TRAP /* Software Breakpoint/KGDB */
t_divz: BAD_TRAP(0x82) /* Divide by zero trap */
t_flwin:TRAP_ENTRY(0x83, do_flush_windows) /* Flush Windows Trap */
t_clwin:BAD_TRAP(0x84) /* Clean Windows Trap */
t_rchk: BAD_TRAP(0x85) /* Range Check */
t_funal:BAD_TRAP(0x86) /* Fix Unaligned Access Trap */
t_iovf: BAD_TRAP(0x87) /* Integer Overflow Trap */
t_slowl:SOLARIS_SYSCALL_TRAP /* Slowaris System Call */
t_netbs:NETBSD_SYSCALL_TRAP /* Net-B.S. System Call */
t_bad8a:BAD_TRAP(0x8a) BAD_TRAP(0x8b) BAD_TRAP(0x8c) BAD_TRAP(0x8d) BAD_TRAP(0x8e)
t_bad8f:BAD_TRAP(0x8f)
t_linux:LINUX_SYSCALL_TRAP /* Linux System Call */
t_bad91:BAD_TRAP(0x91) BAD_TRAP(0x92) BAD_TRAP(0x93) BAD_TRAP(0x94) BAD_TRAP(0x95)
t_bad96:BAD_TRAP(0x96) BAD_TRAP(0x97) BAD_TRAP(0x98) BAD_TRAP(0x99) BAD_TRAP(0x9a)
t_bad9b:BAD_TRAP(0x9b) BAD_TRAP(0x9c) BAD_TRAP(0x9d) BAD_TRAP(0x9e) BAD_TRAP(0x9f)
t_getcc:GETCC_TRAP /* Get Condition Codes */
t_setcc:SETCC_TRAP /* Set Condition Codes */
t_bada2:BAD_TRAP(0xa2) BAD_TRAP(0xa3) BAD_TRAP(0xa4) BAD_TRAP(0xa5) BAD_TRAP(0xa6)
t_slowi:INDIRECT_SOLARIS_SYSCALL(156)
t_bada8:BAD_TRAP(0xa8) BAD_TRAP(0xa9) BAD_TRAP(0xaa) BAD_TRAP(0xab)
t_badac:BAD_TRAP(0xac) BAD_TRAP(0xad) BAD_TRAP(0xae) BAD_TRAP(0xaf) BAD_TRAP(0xb0)
t_badb1:BAD_TRAP(0xb1) BAD_TRAP(0xb2) BAD_TRAP(0xb3) BAD_TRAP(0xb4) BAD_TRAP(0xb5)
t_badb6:BAD_TRAP(0xb6) BAD_TRAP(0xb7) BAD_TRAP(0xb8) BAD_TRAP(0xb9) BAD_TRAP(0xba)
t_badbb:BAD_TRAP(0xbb) BAD_TRAP(0xbc) BAD_TRAP(0xbd) BAD_TRAP(0xbe) BAD_TRAP(0xbf)
t_badc0:BAD_TRAP(0xc0) BAD_TRAP(0xc1) BAD_TRAP(0xc2) BAD_TRAP(0xc3) BAD_TRAP(0xc4)
t_badc5:BAD_TRAP(0xc5) BAD_TRAP(0xc6) BAD_TRAP(0xc7) BAD_TRAP(0xc8) BAD_TRAP(0xc9)
t_badca:BAD_TRAP(0xca) BAD_TRAP(0xcb) BAD_TRAP(0xcc) BAD_TRAP(0xcd) BAD_TRAP(0xce)
t_badcf:BAD_TRAP(0xcf) BAD_TRAP(0xd0) BAD_TRAP(0xd1) BAD_TRAP(0xd2) BAD_TRAP(0xd3)
t_badd4:BAD_TRAP(0xd4) BAD_TRAP(0xd5) BAD_TRAP(0xd6) BAD_TRAP(0xd7) BAD_TRAP(0xd8)
t_badd9:BAD_TRAP(0xd9) BAD_TRAP(0xda) BAD_TRAP(0xdb) BAD_TRAP(0xdc) BAD_TRAP(0xdd)
t_badde:BAD_TRAP(0xde) BAD_TRAP(0xdf) BAD_TRAP(0xe0) BAD_TRAP(0xe1) BAD_TRAP(0xe2)
t_bade3:BAD_TRAP(0xe3) BAD_TRAP(0xe4) BAD_TRAP(0xe5) BAD_TRAP(0xe6) BAD_TRAP(0xe7)
t_bade8:BAD_TRAP(0xe8) BAD_TRAP(0xe9) BAD_TRAP(0xea) BAD_TRAP(0xeb) BAD_TRAP(0xec)
t_baded:BAD_TRAP(0xed) BAD_TRAP(0xee) BAD_TRAP(0xef) BAD_TRAP(0xf0) BAD_TRAP(0xf1)
t_badf2:BAD_TRAP(0xf2) BAD_TRAP(0xf3) BAD_TRAP(0xf4) BAD_TRAP(0xf5) BAD_TRAP(0xf6)
t_badf7:BAD_TRAP(0xf7) BAD_TRAP(0xf8) BAD_TRAP(0xf9) BAD_TRAP(0xfa) BAD_TRAP(0xfb)
t_badfc:BAD_TRAP(0xfc) BAD_TRAP(0xfd)
dbtrap: BAD_TRAP(0xfe) /* Debugger/PROM breakpoint #1 */
dbtrap2:BAD_TRAP(0xff) /* Debugger/PROM breakpoint #2 */
.globl C_LABEL(end_traptable)
C_LABEL(end_traptable):
#ifdef __SMP__
/* Trap tables for the other cpus. */
.globl C_LABEL(trapbase_cpu1), C_LABEL(trapbase_cpu2), C_LABEL(trapbase_cpu3)
C_LABEL(trapbase_cpu1):
BAD_TRAP(0x0) SRMMU_TFAULT TRAP_ENTRY(0x2, bad_instruction)
TRAP_ENTRY(0x3, priv_instruction) TRAP_ENTRY(0x4, fpd_trap_handler)
WINDOW_SPILL WINDOW_FILL TRAP_ENTRY(0x7, mna_handler)
TRAP_ENTRY(0x8, fpe_trap_handler) SRMMU_DFAULT
TRAP_ENTRY(0xa, do_tag_overflow) TRAP_ENTRY(0xb, do_watchpoint)
BAD_TRAP(0xc) BAD_TRAP(0xd) BAD_TRAP(0xe) BAD_TRAP(0xf) BAD_TRAP(0x10)
TRAP_ENTRY_INTERRUPT(1) TRAP_ENTRY_INTERRUPT(2)
TRAP_ENTRY_INTERRUPT(3) TRAP_ENTRY_INTERRUPT(4)
TRAP_ENTRY_INTERRUPT(5) TRAP_ENTRY_INTERRUPT(6)
TRAP_ENTRY_INTERRUPT(7) TRAP_ENTRY_INTERRUPT(8)
TRAP_ENTRY_INTERRUPT(9) TRAP_ENTRY_INTERRUPT(10)
TRAP_ENTRY_INTERRUPT(11) TRAP_ENTRY_INTERRUPT(12)
TRAP_ENTRY_INTERRUPT(13) TRAP_ENTRY_INTERRUPT(14)
TRAP_ENTRY(0x1f, linux_trap_ipi15_sun4m)
TRAP_ENTRY(0x20, do_reg_access) BAD_TRAP(0x21) BAD_TRAP(0x22)
BAD_TRAP(0x23) TRAP_ENTRY(0x24, do_cp_disabled) TRAP_ENTRY(0x25, do_bad_flush)
BAD_TRAP(0x26) BAD_TRAP(0x27) TRAP_ENTRY(0x28, do_cp_exception)
SRMMU_DFAULT TRAP_ENTRY(0x2a, do_hw_divzero) BAD_TRAP(0x2b) BAD_TRAP(0x2c)
BAD_TRAP(0x2d) BAD_TRAP(0x2e) BAD_TRAP(0x2f) BAD_TRAP(0x30) BAD_TRAP(0x31)
BAD_TRAP(0x32) BAD_TRAP(0x33) BAD_TRAP(0x34) BAD_TRAP(0x35) BAD_TRAP(0x36)
BAD_TRAP(0x37) BAD_TRAP(0x38) BAD_TRAP(0x39) BAD_TRAP(0x3a) BAD_TRAP(0x3b)
BAD_TRAP(0x3c) BAD_TRAP(0x3d) BAD_TRAP(0x3e) BAD_TRAP(0x3f) BAD_TRAP(0x40)
BAD_TRAP(0x41) BAD_TRAP(0x42) BAD_TRAP(0x43) BAD_TRAP(0x44) BAD_TRAP(0x45)
BAD_TRAP(0x46) BAD_TRAP(0x47) BAD_TRAP(0x48) BAD_TRAP(0x49) BAD_TRAP(0x4a)
BAD_TRAP(0x4b) BAD_TRAP(0x4c) BAD_TRAP(0x4d) BAD_TRAP(0x4e) BAD_TRAP(0x4f)
BAD_TRAP(0x50)
BAD_TRAP(0x51) BAD_TRAP(0x52) BAD_TRAP(0x53) BAD_TRAP(0x54) BAD_TRAP(0x55)
BAD_TRAP(0x56) BAD_TRAP(0x57) BAD_TRAP(0x58) BAD_TRAP(0x59) BAD_TRAP(0x5a)
BAD_TRAP(0x5b) BAD_TRAP(0x5c) BAD_TRAP(0x5d) BAD_TRAP(0x5e) BAD_TRAP(0x5f)
BAD_TRAP(0x60) BAD_TRAP(0x61) BAD_TRAP(0x62) BAD_TRAP(0x63) BAD_TRAP(0x64)
BAD_TRAP(0x65) BAD_TRAP(0x66) BAD_TRAP(0x67) BAD_TRAP(0x68) BAD_TRAP(0x69)
BAD_TRAP(0x6a) BAD_TRAP(0x6b) BAD_TRAP(0x6c) BAD_TRAP(0x6d) BAD_TRAP(0x6e)
BAD_TRAP(0x6f) BAD_TRAP(0x70) BAD_TRAP(0x71) BAD_TRAP(0x72) BAD_TRAP(0x73)
BAD_TRAP(0x74) BAD_TRAP(0x75) BAD_TRAP(0x76) BAD_TRAP(0x77) BAD_TRAP(0x78)
BAD_TRAP(0x79) BAD_TRAP(0x7a) BAD_TRAP(0x7b) BAD_TRAP(0x7c) BAD_TRAP(0x7d)
BAD_TRAP(0x7e) BAD_TRAP(0x7f)
SUNOS_SYSCALL_TRAP
BREAKPOINT_TRAP
BAD_TRAP(0x82)
TRAP_ENTRY(0x83, do_flush_windows) BAD_TRAP(0x84) BAD_TRAP(0x85)
BAD_TRAP(0x86) BAD_TRAP(0x87) SOLARIS_SYSCALL_TRAP
NETBSD_SYSCALL_TRAP BAD_TRAP(0x8a) BAD_TRAP(0x8b) BAD_TRAP(0x8c)
BAD_TRAP(0x8d) BAD_TRAP(0x8e) BAD_TRAP(0x8f)
LINUX_SYSCALL_TRAP BAD_TRAP(0x91) BAD_TRAP(0x92) BAD_TRAP(0x93) BAD_TRAP(0x94)
BAD_TRAP(0x95) BAD_TRAP(0x96) BAD_TRAP(0x97) BAD_TRAP(0x98) BAD_TRAP(0x99)
BAD_TRAP(0x9a) BAD_TRAP(0x9b) BAD_TRAP(0x9c) BAD_TRAP(0x9d) BAD_TRAP(0x9e)
BAD_TRAP(0x9f) GETCC_TRAP SETCC_TRAP
BAD_TRAP(0xa2) BAD_TRAP(0xa3) BAD_TRAP(0xa4) BAD_TRAP(0xa5) BAD_TRAP(0xa6)
INDIRECT_SOLARIS_SYSCALL(156) BAD_TRAP(0xa8) BAD_TRAP(0xa9) BAD_TRAP(0xaa) BAD_TRAP(0xab)
BAD_TRAP(0xac) BAD_TRAP(0xad) BAD_TRAP(0xae) BAD_TRAP(0xaf) BAD_TRAP(0xb0)
BAD_TRAP(0xb1) BAD_TRAP(0xb2) BAD_TRAP(0xb3) BAD_TRAP(0xb4) BAD_TRAP(0xb5)
BAD_TRAP(0xb6) BAD_TRAP(0xb7) BAD_TRAP(0xb8) BAD_TRAP(0xb9) BAD_TRAP(0xba)
BAD_TRAP(0xbb) BAD_TRAP(0xbc) BAD_TRAP(0xbd) BAD_TRAP(0xbe) BAD_TRAP(0xbf)
BAD_TRAP(0xc0) BAD_TRAP(0xc1) BAD_TRAP(0xc2) BAD_TRAP(0xc3) BAD_TRAP(0xc4)
BAD_TRAP(0xc5) BAD_TRAP(0xc6) BAD_TRAP(0xc7) BAD_TRAP(0xc8) BAD_TRAP(0xc9)
BAD_TRAP(0xca) BAD_TRAP(0xcb) BAD_TRAP(0xcc) BAD_TRAP(0xcd) BAD_TRAP(0xce)
BAD_TRAP(0xcf) BAD_TRAP(0xd0) BAD_TRAP(0xd1) BAD_TRAP(0xd2) BAD_TRAP(0xd3)
BAD_TRAP(0xd4) BAD_TRAP(0xd5) BAD_TRAP(0xd6) BAD_TRAP(0xd7) BAD_TRAP(0xd8)
BAD_TRAP(0xd9) BAD_TRAP(0xda) BAD_TRAP(0xdb) BAD_TRAP(0xdc) BAD_TRAP(0xdd)
BAD_TRAP(0xde) BAD_TRAP(0xdf) BAD_TRAP(0xe0) BAD_TRAP(0xe1) BAD_TRAP(0xe2)
BAD_TRAP(0xe3) BAD_TRAP(0xe4) BAD_TRAP(0xe5) BAD_TRAP(0xe6) BAD_TRAP(0xe7)
BAD_TRAP(0xe8) BAD_TRAP(0xe9) BAD_TRAP(0xea) BAD_TRAP(0xeb) BAD_TRAP(0xec)
BAD_TRAP(0xed) BAD_TRAP(0xee) BAD_TRAP(0xef) BAD_TRAP(0xf0) BAD_TRAP(0xf1)
BAD_TRAP(0xf2) BAD_TRAP(0xf3) BAD_TRAP(0xf4) BAD_TRAP(0xf5) BAD_TRAP(0xf6)
BAD_TRAP(0xf7) BAD_TRAP(0xf8) BAD_TRAP(0xf9) BAD_TRAP(0xfa) BAD_TRAP(0xfb)
BAD_TRAP(0xfc) BAD_TRAP(0xfd) BAD_TRAP(0xfe) BAD_TRAP(0xff)
C_LABEL(trapbase_cpu2):
BAD_TRAP(0x0) SRMMU_TFAULT TRAP_ENTRY(0x2, bad_instruction)
TRAP_ENTRY(0x3, priv_instruction) TRAP_ENTRY(0x4, fpd_trap_handler)
WINDOW_SPILL WINDOW_FILL TRAP_ENTRY(0x7, mna_handler)
TRAP_ENTRY(0x8, fpe_trap_handler) SRMMU_DFAULT
TRAP_ENTRY(0xa, do_tag_overflow) TRAP_ENTRY(0xb, do_watchpoint)
BAD_TRAP(0xc) BAD_TRAP(0xd) BAD_TRAP(0xe) BAD_TRAP(0xf) BAD_TRAP(0x10)
TRAP_ENTRY_INTERRUPT(1) TRAP_ENTRY_INTERRUPT(2)
TRAP_ENTRY_INTERRUPT(3) TRAP_ENTRY_INTERRUPT(4)
TRAP_ENTRY_INTERRUPT(5) TRAP_ENTRY_INTERRUPT(6)
TRAP_ENTRY_INTERRUPT(7) TRAP_ENTRY_INTERRUPT(8)
TRAP_ENTRY_INTERRUPT(9) TRAP_ENTRY_INTERRUPT(10)
TRAP_ENTRY_INTERRUPT(11) TRAP_ENTRY_INTERRUPT(12)
TRAP_ENTRY_INTERRUPT(13) TRAP_ENTRY_INTERRUPT(14)
TRAP_ENTRY(0x1f, linux_trap_ipi15_sun4m)
TRAP_ENTRY(0x20, do_reg_access) BAD_TRAP(0x21) BAD_TRAP(0x22)
BAD_TRAP(0x23) TRAP_ENTRY(0x24, do_cp_disabled) TRAP_ENTRY(0x25, do_bad_flush)
BAD_TRAP(0x26) BAD_TRAP(0x27) TRAP_ENTRY(0x28, do_cp_exception)
SRMMU_DFAULT TRAP_ENTRY(0x2a, do_hw_divzero) BAD_TRAP(0x2b) BAD_TRAP(0x2c)
BAD_TRAP(0x2d) BAD_TRAP(0x2e) BAD_TRAP(0x2f) BAD_TRAP(0x30) BAD_TRAP(0x31)
BAD_TRAP(0x32) BAD_TRAP(0x33) BAD_TRAP(0x34) BAD_TRAP(0x35) BAD_TRAP(0x36)
BAD_TRAP(0x37) BAD_TRAP(0x38) BAD_TRAP(0x39) BAD_TRAP(0x3a) BAD_TRAP(0x3b)
BAD_TRAP(0x3c) BAD_TRAP(0x3d) BAD_TRAP(0x3e) BAD_TRAP(0x3f) BAD_TRAP(0x40)
BAD_TRAP(0x41) BAD_TRAP(0x42) BAD_TRAP(0x43) BAD_TRAP(0x44) BAD_TRAP(0x45)
BAD_TRAP(0x46) BAD_TRAP(0x47) BAD_TRAP(0x48) BAD_TRAP(0x49) BAD_TRAP(0x4a)
BAD_TRAP(0x4b) BAD_TRAP(0x4c) BAD_TRAP(0x4d) BAD_TRAP(0x4e) BAD_TRAP(0x4f)
BAD_TRAP(0x50)
BAD_TRAP(0x51) BAD_TRAP(0x52) BAD_TRAP(0x53) BAD_TRAP(0x54) BAD_TRAP(0x55)
BAD_TRAP(0x56) BAD_TRAP(0x57) BAD_TRAP(0x58) BAD_TRAP(0x59) BAD_TRAP(0x5a)
BAD_TRAP(0x5b) BAD_TRAP(0x5c) BAD_TRAP(0x5d) BAD_TRAP(0x5e) BAD_TRAP(0x5f)
BAD_TRAP(0x60) BAD_TRAP(0x61) BAD_TRAP(0x62) BAD_TRAP(0x63) BAD_TRAP(0x64)
BAD_TRAP(0x65) BAD_TRAP(0x66) BAD_TRAP(0x67) BAD_TRAP(0x68) BAD_TRAP(0x69)
BAD_TRAP(0x6a) BAD_TRAP(0x6b) BAD_TRAP(0x6c) BAD_TRAP(0x6d) BAD_TRAP(0x6e)
BAD_TRAP(0x6f) BAD_TRAP(0x70) BAD_TRAP(0x71) BAD_TRAP(0x72) BAD_TRAP(0x73)
BAD_TRAP(0x74) BAD_TRAP(0x75) BAD_TRAP(0x76) BAD_TRAP(0x77) BAD_TRAP(0x78)
BAD_TRAP(0x79) BAD_TRAP(0x7a) BAD_TRAP(0x7b) BAD_TRAP(0x7c) BAD_TRAP(0x7d)
BAD_TRAP(0x7e) BAD_TRAP(0x7f)
SUNOS_SYSCALL_TRAP
BREAKPOINT_TRAP
BAD_TRAP(0x82)
TRAP_ENTRY(0x83, do_flush_windows) BAD_TRAP(0x84) BAD_TRAP(0x85)
BAD_TRAP(0x86) BAD_TRAP(0x87) SOLARIS_SYSCALL_TRAP
NETBSD_SYSCALL_TRAP BAD_TRAP(0x8a) BAD_TRAP(0x8b) BAD_TRAP(0x8c)
BAD_TRAP(0x8d) BAD_TRAP(0x8e) BAD_TRAP(0x8f)
LINUX_SYSCALL_TRAP BAD_TRAP(0x91) BAD_TRAP(0x92) BAD_TRAP(0x93) BAD_TRAP(0x94)
BAD_TRAP(0x95) BAD_TRAP(0x96) BAD_TRAP(0x97) BAD_TRAP(0x98) BAD_TRAP(0x99)
BAD_TRAP(0x9a) BAD_TRAP(0x9b) BAD_TRAP(0x9c) BAD_TRAP(0x9d) BAD_TRAP(0x9e)
BAD_TRAP(0x9f) GETCC_TRAP SETCC_TRAP
BAD_TRAP(0xa2) BAD_TRAP(0xa3) BAD_TRAP(0xa4) BAD_TRAP(0xa5) BAD_TRAP(0xa6)
INDIRECT_SOLARIS_SYSCALL(156) BAD_TRAP(0xa8) BAD_TRAP(0xa9) BAD_TRAP(0xaa) BAD_TRAP(0xab)
BAD_TRAP(0xac) BAD_TRAP(0xad) BAD_TRAP(0xae) BAD_TRAP(0xaf) BAD_TRAP(0xb0)
BAD_TRAP(0xb1) BAD_TRAP(0xb2) BAD_TRAP(0xb3) BAD_TRAP(0xb4) BAD_TRAP(0xb5)
BAD_TRAP(0xb6) BAD_TRAP(0xb7) BAD_TRAP(0xb8) BAD_TRAP(0xb9) BAD_TRAP(0xba)
BAD_TRAP(0xbb) BAD_TRAP(0xbc) BAD_TRAP(0xbd) BAD_TRAP(0xbe) BAD_TRAP(0xbf)
BAD_TRAP(0xc0) BAD_TRAP(0xc1) BAD_TRAP(0xc2) BAD_TRAP(0xc3) BAD_TRAP(0xc4)
BAD_TRAP(0xc5) BAD_TRAP(0xc6) BAD_TRAP(0xc7) BAD_TRAP(0xc8) BAD_TRAP(0xc9)
BAD_TRAP(0xca) BAD_TRAP(0xcb) BAD_TRAP(0xcc) BAD_TRAP(0xcd) BAD_TRAP(0xce)
BAD_TRAP(0xcf) BAD_TRAP(0xd0) BAD_TRAP(0xd1) BAD_TRAP(0xd2) BAD_TRAP(0xd3)
BAD_TRAP(0xd4) BAD_TRAP(0xd5) BAD_TRAP(0xd6) BAD_TRAP(0xd7) BAD_TRAP(0xd8)
BAD_TRAP(0xd9) BAD_TRAP(0xda) BAD_TRAP(0xdb) BAD_TRAP(0xdc) BAD_TRAP(0xdd)
BAD_TRAP(0xde) BAD_TRAP(0xdf) BAD_TRAP(0xe0) BAD_TRAP(0xe1) BAD_TRAP(0xe2)
BAD_TRAP(0xe3) BAD_TRAP(0xe4) BAD_TRAP(0xe5) BAD_TRAP(0xe6) BAD_TRAP(0xe7)
BAD_TRAP(0xe8) BAD_TRAP(0xe9) BAD_TRAP(0xea) BAD_TRAP(0xeb) BAD_TRAP(0xec)
BAD_TRAP(0xed) BAD_TRAP(0xee) BAD_TRAP(0xef) BAD_TRAP(0xf0) BAD_TRAP(0xf1)
BAD_TRAP(0xf2) BAD_TRAP(0xf3) BAD_TRAP(0xf4) BAD_TRAP(0xf5) BAD_TRAP(0xf6)
BAD_TRAP(0xf7) BAD_TRAP(0xf8) BAD_TRAP(0xf9) BAD_TRAP(0xfa) BAD_TRAP(0xfb)
BAD_TRAP(0xfc) BAD_TRAP(0xfd) BAD_TRAP(0xfe) BAD_TRAP(0xff)
C_LABEL(trapbase_cpu3):
BAD_TRAP(0x0) SRMMU_TFAULT TRAP_ENTRY(0x2, bad_instruction)
TRAP_ENTRY(0x3, priv_instruction) TRAP_ENTRY(0x4, fpd_trap_handler)
WINDOW_SPILL WINDOW_FILL TRAP_ENTRY(0x7, mna_handler)
TRAP_ENTRY(0x8, fpe_trap_handler) SRMMU_DFAULT
TRAP_ENTRY(0xa, do_tag_overflow) TRAP_ENTRY(0xb, do_watchpoint)
BAD_TRAP(0xc) BAD_TRAP(0xd) BAD_TRAP(0xe) BAD_TRAP(0xf) BAD_TRAP(0x10)
TRAP_ENTRY_INTERRUPT(1) TRAP_ENTRY_INTERRUPT(2)
TRAP_ENTRY_INTERRUPT(3) TRAP_ENTRY_INTERRUPT(4)
TRAP_ENTRY_INTERRUPT(5) TRAP_ENTRY_INTERRUPT(6)
TRAP_ENTRY_INTERRUPT(7) TRAP_ENTRY_INTERRUPT(8)
TRAP_ENTRY_INTERRUPT(9) TRAP_ENTRY_INTERRUPT(10)
TRAP_ENTRY_INTERRUPT(11) TRAP_ENTRY_INTERRUPT(12)
TRAP_ENTRY_INTERRUPT(13) TRAP_ENTRY_INTERRUPT(14)
TRAP_ENTRY(0x1f, linux_trap_ipi15_sun4m)
TRAP_ENTRY(0x20, do_reg_access) BAD_TRAP(0x21) BAD_TRAP(0x22)
BAD_TRAP(0x23) TRAP_ENTRY(0x24, do_cp_disabled) TRAP_ENTRY(0x25, do_bad_flush)
BAD_TRAP(0x26) BAD_TRAP(0x27) TRAP_ENTRY(0x28, do_cp_exception)
SRMMU_DFAULT TRAP_ENTRY(0x2a, do_hw_divzero) BAD_TRAP(0x2b) BAD_TRAP(0x2c)
BAD_TRAP(0x2d) BAD_TRAP(0x2e) BAD_TRAP(0x2f) BAD_TRAP(0x30) BAD_TRAP(0x31)
BAD_TRAP(0x32) BAD_TRAP(0x33) BAD_TRAP(0x34) BAD_TRAP(0x35) BAD_TRAP(0x36)
BAD_TRAP(0x37) BAD_TRAP(0x38) BAD_TRAP(0x39) BAD_TRAP(0x3a) BAD_TRAP(0x3b)
BAD_TRAP(0x3c) BAD_TRAP(0x3d) BAD_TRAP(0x3e) BAD_TRAP(0x3f) BAD_TRAP(0x40)
BAD_TRAP(0x41) BAD_TRAP(0x42) BAD_TRAP(0x43) BAD_TRAP(0x44) BAD_TRAP(0x45)
BAD_TRAP(0x46) BAD_TRAP(0x47) BAD_TRAP(0x48) BAD_TRAP(0x49) BAD_TRAP(0x4a)
BAD_TRAP(0x4b) BAD_TRAP(0x4c) BAD_TRAP(0x4d) BAD_TRAP(0x4e) BAD_TRAP(0x4f)
BAD_TRAP(0x50)
BAD_TRAP(0x51) BAD_TRAP(0x52) BAD_TRAP(0x53) BAD_TRAP(0x54) BAD_TRAP(0x55)
BAD_TRAP(0x56) BAD_TRAP(0x57) BAD_TRAP(0x58) BAD_TRAP(0x59) BAD_TRAP(0x5a)
BAD_TRAP(0x5b) BAD_TRAP(0x5c) BAD_TRAP(0x5d) BAD_TRAP(0x5e) BAD_TRAP(0x5f)
BAD_TRAP(0x60) BAD_TRAP(0x61) BAD_TRAP(0x62) BAD_TRAP(0x63) BAD_TRAP(0x64)
BAD_TRAP(0x65) BAD_TRAP(0x66) BAD_TRAP(0x67) BAD_TRAP(0x68) BAD_TRAP(0x69)
BAD_TRAP(0x6a) BAD_TRAP(0x6b) BAD_TRAP(0x6c) BAD_TRAP(0x6d) BAD_TRAP(0x6e)
BAD_TRAP(0x6f) BAD_TRAP(0x70) BAD_TRAP(0x71) BAD_TRAP(0x72) BAD_TRAP(0x73)
BAD_TRAP(0x74) BAD_TRAP(0x75) BAD_TRAP(0x76) BAD_TRAP(0x77) BAD_TRAP(0x78)
BAD_TRAP(0x79) BAD_TRAP(0x7a) BAD_TRAP(0x7b) BAD_TRAP(0x7c) BAD_TRAP(0x7d)
BAD_TRAP(0x7e) BAD_TRAP(0x7f)
SUNOS_SYSCALL_TRAP
BREAKPOINT_TRAP
BAD_TRAP(0x82)
TRAP_ENTRY(0x83, do_flush_windows) BAD_TRAP(0x84) BAD_TRAP(0x85)
BAD_TRAP(0x86) BAD_TRAP(0x87) SOLARIS_SYSCALL_TRAP
NETBSD_SYSCALL_TRAP BAD_TRAP(0x8a) BAD_TRAP(0x8b) BAD_TRAP(0x8c)
BAD_TRAP(0x8d) BAD_TRAP(0x8e) BAD_TRAP(0x8f)
LINUX_SYSCALL_TRAP BAD_TRAP(0x91) BAD_TRAP(0x92) BAD_TRAP(0x93) BAD_TRAP(0x94)
BAD_TRAP(0x95) BAD_TRAP(0x96) BAD_TRAP(0x97) BAD_TRAP(0x98) BAD_TRAP(0x99)
BAD_TRAP(0x9a) BAD_TRAP(0x9b) BAD_TRAP(0x9c) BAD_TRAP(0x9d) BAD_TRAP(0x9e)
BAD_TRAP(0x9f) GETCC_TRAP SETCC_TRAP
BAD_TRAP(0xa2) BAD_TRAP(0xa3) BAD_TRAP(0xa4) BAD_TRAP(0xa5) BAD_TRAP(0xa6)
INDIRECT_SOLARIS_SYSCALL(156) BAD_TRAP(0xa8) BAD_TRAP(0xa9) BAD_TRAP(0xaa) BAD_TRAP(0xab)
BAD_TRAP(0xac) BAD_TRAP(0xad) BAD_TRAP(0xae) BAD_TRAP(0xaf) BAD_TRAP(0xb0)
BAD_TRAP(0xb1) BAD_TRAP(0xb2) BAD_TRAP(0xb3) BAD_TRAP(0xb4) BAD_TRAP(0xb5)
BAD_TRAP(0xb6) BAD_TRAP(0xb7) BAD_TRAP(0xb8) BAD_TRAP(0xb9) BAD_TRAP(0xba)
BAD_TRAP(0xbb) BAD_TRAP(0xbc) BAD_TRAP(0xbd) BAD_TRAP(0xbe) BAD_TRAP(0xbf)
BAD_TRAP(0xc0) BAD_TRAP(0xc1) BAD_TRAP(0xc2) BAD_TRAP(0xc3) BAD_TRAP(0xc4)
BAD_TRAP(0xc5) BAD_TRAP(0xc6) BAD_TRAP(0xc7) BAD_TRAP(0xc8) BAD_TRAP(0xc9)
BAD_TRAP(0xca) BAD_TRAP(0xcb) BAD_TRAP(0xcc) BAD_TRAP(0xcd) BAD_TRAP(0xce)
BAD_TRAP(0xcf) BAD_TRAP(0xd0) BAD_TRAP(0xd1) BAD_TRAP(0xd2) BAD_TRAP(0xd3)
BAD_TRAP(0xd4) BAD_TRAP(0xd5) BAD_TRAP(0xd6) BAD_TRAP(0xd7) BAD_TRAP(0xd8)
BAD_TRAP(0xd9) BAD_TRAP(0xda) BAD_TRAP(0xdb) BAD_TRAP(0xdc) BAD_TRAP(0xdd)
BAD_TRAP(0xde) BAD_TRAP(0xdf) BAD_TRAP(0xe0) BAD_TRAP(0xe1) BAD_TRAP(0xe2)
BAD_TRAP(0xe3) BAD_TRAP(0xe4) BAD_TRAP(0xe5) BAD_TRAP(0xe6) BAD_TRAP(0xe7)
BAD_TRAP(0xe8) BAD_TRAP(0xe9) BAD_TRAP(0xea) BAD_TRAP(0xeb) BAD_TRAP(0xec)
BAD_TRAP(0xed) BAD_TRAP(0xee) BAD_TRAP(0xef) BAD_TRAP(0xf0) BAD_TRAP(0xf1)
BAD_TRAP(0xf2) BAD_TRAP(0xf3) BAD_TRAP(0xf4) BAD_TRAP(0xf5) BAD_TRAP(0xf6)
BAD_TRAP(0xf7) BAD_TRAP(0xf8) BAD_TRAP(0xf9) BAD_TRAP(0xfa) BAD_TRAP(0xfb)
BAD_TRAP(0xfc) BAD_TRAP(0xfd) BAD_TRAP(0xfe) BAD_TRAP(0xff)
#endif
.skip 4096
/* This was the only reasonable way I could think of to properly align
* these page-table data structures.
*/
.globl C_LABEL(bootup_user_stack)
.globl C_LABEL(bootup_kernel_stack)
.globl C_LABEL(pg0), C_LABEL(pg1), C_LABEL(pg2), C_LABEL(pg3)
.globl C_LABEL(empty_bad_page)
.globl C_LABEL(empty_bad_page_table)
.globl C_LABEL(empty_zero_page)
.globl C_LABEL(swapper_pg_dir)
C_LABEL(bootup_user_stack): .skip 0x2000
C_LABEL(bootup_kernel_stack): .skip 0x2000
C_LABEL(swapper_pg_dir): .skip 0x1000
C_LABEL(pg0): .skip 0x1000
C_LABEL(pg1): .skip 0x1000
C_LABEL(pg2): .skip 0x1000
C_LABEL(pg3): .skip 0x1000
C_LABEL(empty_bad_page): .skip 0x1000
C_LABEL(empty_bad_page_table): .skip 0x1000
C_LABEL(empty_zero_page): .skip 0x1000
.global C_LABEL(root_flags)
.global C_LABEL(ram_flags)
.global C_LABEL(root_dev)
.global C_LABEL(ramdisk_image)
.global C_LABEL(ramdisk_size)
/* This stuff has to be in sync with SILO and other potential boot loaders
* Fields should be kept upward compatible and whenever any change is made,
* HdrS version should be incremented.
*/
.ascii "HdrS"
.word LINUX_VERSION_CODE
.half 0x0201 /* HdrS version */
C_LABEL(root_flags):
.half 1
C_LABEL(root_dev):
.half 0
C_LABEL(ram_flags):
.half 0
C_LABEL(ramdisk_image):
.word 0
C_LABEL(ramdisk_size):
.word 0
.word C_LABEL(reboot_command)
/* Cool, here we go. Pick up the romvec pointer in %o0 and stash it in
* %g7 and at prom_vector_p. And also quickly check whether we are on
* a v0, v2, or v3 prom.
*/
gokernel:
/* Ok, it's nice to know, as early as possible, if we
* are already mapped where we expect to be in virtual
* memory. The Solaris /boot elf format bootloader
* will peek into our elf header and load us where
* we want to be, otherwise we have to re-map.
*
* Some boot loaders don't place the jmp'rs address
* in %o7, so we do a pc-relative call to a local
* label, then see what %o7 has.
*/
mov %o7, %g4 ! Save %o7
/* Jump to it, and pray... */
current_pc:
call 1f
nop
1:
mov %o7, %g3
#ifndef CONFIG_AP1000
tst %o0
be no_sun4u_here
#endif
mov %g4, %o7 /* Previous %o7. */
mov %o0, %l0 ! stash away romvec
mov %o0, %g7 ! put it here too
mov %o1, %l1 ! stash away debug_vec too
/* Ok, let's check out our run time program counter. */
set current_pc, %g5
cmp %g3, %g5
be already_mapped
nop
/* %l6 will hold the offset we have to subtract
* from absolute symbols in order to access areas
* in our own image. If already mapped this is
* just plain zero, else it is KERNBASE.
*/
set KERNBASE, %l6
b copy_prom_lvl14
nop
already_mapped:
mov 0, %l6
/* Copy over the Prom's level 14 clock handler. */
copy_prom_lvl14:
#if 1
/* DJHR
* preserve our linked/calculated instructions
*/
set C_LABEL(lvl14_save), %g1
set t_irq14, %g3
sub %g1, %l6, %g1 ! translate to physical
sub %g3, %l6, %g3 ! translate to physical
ldd [%g3], %g4
std %g4, [%g1]
ldd [%g3+8], %g4
std %g4, [%g1+8]
#endif
rd %tbr, %g1
andn %g1, 0xfff, %g1 ! proms trap table base
or %g0, (0x1e<<4), %g2 ! offset to lvl14 intr
or %g1, %g2, %g2
set t_irq14, %g3
sub %g3, %l6, %g3
ldd [%g2], %g4
std %g4, [%g3]
ldd [%g2 + 0x8], %g4
std %g4, [%g3 + 0x8] ! Copy proms handler
/* Must determine whether we are on a sun4c MMU, SRMMU, or SUN4/400 MUTANT
* MMU so we can remap ourselves properly. DON'T TOUCH %l0 thru %l5 in these
* remapping routines, we need their values afterwards!
*/
/* Now check whether we are already mapped, if we
* are we can skip all this garbage coming up.
*/
copy_prom_done:
cmp %l6, 0
be go_to_highmem ! this will be a nop then
nop
set LOAD_ADDR, %g6
cmp %g7, %g6
bne remap_not_a_sun4 ! This is not a Sun4
nop
or %g0, 0x1, %g1
lduba [%g1] ASI_CONTROL, %g1 ! Only safe to try on Sun4.
subcc %g1, 0x24, %g0 ! Is this a mutant Sun4/400???
be sun4_mutant_remap ! Ugh, it is...
nop
b sun4_normal_remap ! regular sun4, 2 level mmu
nop
remap_not_a_sun4:
lda [%g0] ASI_M_MMUREGS, %g1 ! same as ASI_PTE on sun4c
and %g1, 0x1, %g1 ! Test SRMMU Enable bit ;-)
cmp %g1, 0x0
be sun4c_remap ! A sun4c MMU or normal Sun4
nop
srmmu_remap:
/* First, check for a viking (TI) module. */
set 0x40000000, %g2
rd %psr, %g3
and %g2, %g3, %g3
subcc %g3, 0x0, %g0
bz srmmu_nviking
nop
/* Figure out what kind of viking we are on.
* We need to know if we have to play with the
* AC bit and disable traps or not.
*/
/* I've only seen MicroSparc's on SparcClassics with this
* bit set.
*/
set 0x800, %g2
lda [%g0] ASI_M_MMUREGS, %g3 ! peek in the control reg
and %g2, %g3, %g3
subcc %g3, 0x0, %g0
bnz srmmu_nviking ! is in mbus mode
nop
rd %psr, %g3 ! DONT TOUCH %g3
andn %g3, PSR_ET, %g2
wr %g2, 0x0, %psr
WRITE_PAUSE
/* Get context table pointer, then convert to
* a physical address, which is 36 bits.
*/
set AC_M_CTPR, %g4
lda [%g4] ASI_M_MMUREGS, %g4
sll %g4, 0x4, %g4 ! We use this below
! DONT TOUCH %g4
/* Set the AC bit in the Viking's MMU control reg. */
lda [%g0] ASI_M_MMUREGS, %g5 ! DONT TOUCH %g5
set 0x8000, %g6 ! AC bit mask
or %g5, %g6, %g6 ! Or it in...
sta %g6, [%g0] ASI_M_MMUREGS ! Close your eyes...
/* Grrr, why does it seem like every other load/store
* on the sun4m is in some ASI space...
* Fine with me, let's get the pointer to the level 1
* page table directory and fetch its entry.
*/
lda [%g4] ASI_M_BYPASS, %o1 ! This is a level 1 ptr
srl %o1, 0x4, %o1 ! Clear low 4 bits
sll %o1, 0x8, %o1 ! Make physical
/* Ok, pull in the PTD. */
lda [%o1] ASI_M_BYPASS, %o2 ! This is the 0x0 16MB pgd
/* Calculate to KERNBASE entry.
*
* XXX Should not use empirical constant, but Gas gets an XXX
* XXX upset stomach with the bitshift I would have to use XXX
*/
add %o1, 0x3c0, %o3
/* Poke the entry into the calculated address. */
sta %o2, [%o3] ASI_M_BYPASS
/* I don't get it Sun, if you engineered all these
* boot loaders and the PROM (thank you for the debugging
* features btw) why did you not have them load kernel
* images up in high address space, since this is necessary
* for ABI compliance anyways? Does this low-mapping provide
* enhanced interoperability?
*
* "The PROM is the computer."
*/
/* Ok, restore the MMU control register we saved in %g5 */
sta %g5, [%g0] ASI_M_MMUREGS ! POW... ouch
/* Turn traps back on. We saved it in %g3 earlier. */
wr %g3, 0x0, %psr ! tick tock, tick tock
/* Now we burn precious CPU cycles due to bad engineering. */
WRITE_PAUSE
/* Wow, all that just to move a 32-bit value from one
* place to another... Jump to high memory.
*/
b go_to_highmem
nop
/* This works on viking's in Mbus mode and all
* other MBUS modules. It is virtually the same as
* the above madness sans turning traps off and flipping
* the AC bit.
*/
srmmu_nviking:
set AC_M_CTPR, %g1
lda [%g1] ASI_M_MMUREGS, %g1 ! get ctx table ptr
sll %g1, 0x4, %g1 ! make physical addr
lda [%g1] ASI_M_BYPASS, %g1 ! ptr to level 1 pg_table
srl %g1, 0x4, %g1
sll %g1, 0x8, %g1 ! make phys addr for l1 tbl
lda [%g1] ASI_M_BYPASS, %g2 ! get level1 entry for 0x0
add %g1, 0x3c0, %g3 ! XXX AWAY WITH EMPIRICALS
sta %g2, [%g3] ASI_M_BYPASS ! place at KERNBASE entry
b go_to_highmem
nop ! wheee....
/* This remaps the kernel on Sun4/4xx machines
* that have the Sun Mutant Three Level MMU.
* It's like a platypus, Sun didn't have the
* SRMMU in conception so they kludged the three
* level logic in the regular Sun4 MMU probably.
*
* Basically, you take each entry in the top level
* directory that maps the low 3MB starting at
* address zero and put the mapping in the KERNBASE
* slots. These top level pgd's are called regmaps.
*/
sun4_mutant_remap:
or %g0, %g0, %g3 ! source base
sethi %hi(KERNBASE), %g4 ! destination base
or %g4, %lo(KERNBASE), %g4
sethi %hi(0x300000), %g5
or %g5, %lo(0x300000), %g5 ! upper bound 3MB
or %g0, 0x1, %l6
sll %l6, 24, %l6 ! Regmap mapping size
add %g3, 0x2, %g3 ! Base magic
add %g4, 0x2, %g4 ! Base magic
/* Main remapping loop on Sun4-Mutant-MMU.
* "I am not an animal..." -Famous Mutant Person
*/
sun4_mutant_loop:
lduha [%g3] ASI_REGMAP, %g2 ! Get lower entry
stha %g2, [%g4] ASI_REGMAP ! Store in high entry
add %g4, %l6, %g4 ! Move up high memory ptr
subcc %g3, %g5, %g0 ! Reached our limit?
blu sun4_mutant_loop ! Nope, loop again
add %g3, %l6, %g3 ! delay, Move up low ptr
b go_to_highmem ! Jump to high memory.
nop
/* The following is for non-4/4xx sun4 MMU's. */
sun4_normal_remap:
mov 0, %g3 ! source base
set KERNBASE, %g4 ! destination base
set 0x300000, %g5 ! upper bound 3MB
mov 1, %l6
sll %l6, 18, %l6 ! sun4 mmu segmap size
sun4_normal_loop:
lduha [%g3] ASI_SEGMAP, %g6 ! load phys_seg
stha %g6, [%g4] ASI_SEGMAP ! stort new virt mapping
add %g3, %l6, %g3 ! increment source pointer
subcc %g3, %g5, %g0 ! reached limit?
blu sun4_normal_loop ! nope, loop again
add %g4, %l6, %g4 ! delay, increment dest ptr
b go_to_highmem
nop
/* The following works for Sun4c MMU's */
sun4c_remap:
mov 0, %g3 ! source base
set KERNBASE, %g4 ! destination base
set 0x300000, %g5 ! upper bound 3MB
mov 1, %l6
sll %l6, 18, %l6 ! sun4c mmu segmap size
sun4c_remap_loop:
lda [%g3] ASI_SEGMAP, %g6 ! load phys_seg
sta %g6, [%g4] ASI_SEGMAP ! store new virt mapping
add %g3, %l6, %g3 ! Increment source ptr
subcc %g3, %g5, %g0 ! Reached limit?
bl sun4c_remap_loop ! Nope, loop again
add %g4, %l6, %g4 ! delay, Increment dest ptr
/* Now do a non-relative jump so that PC is in high-memory */
go_to_highmem:
set execute_in_high_mem, %g1
jmpl %g1, %g0
nop
/* This is to align init_task_union properly, be careful. -DaveM */
.align 8192
/* The code above should be at beginning and we have to take care about
* short jumps, as branching to .text.init section from .text is usually
* impossible */
__INIT
/* Acquire boot time privileged register values, this will help debugging.
* I figure out and store nwindows and nwindowsm1 later on.
*/
execute_in_high_mem:
#if CONFIG_AP1000
/* we don't have a prom :-( */
b sun4m_init
nop
#endif
mov %l0, %o0 ! put back romvec
mov %l1, %o1 ! and debug_vec
sethi %hi( C_LABEL(prom_vector_p) ), %g1
st %o0, [%g1 + %lo( C_LABEL(prom_vector_p) )]
sethi %hi( C_LABEL(linux_dbvec) ), %g1
st %o1, [%g1 + %lo( C_LABEL(linux_dbvec) )]
ld [%o0 + 0x4], %o3
and %o3, 0x3, %o5 ! get the version
cmp %o3, 0x2 ! a v2 prom?
be found_version
nop
/* paul@sfe.com.au */
cmp %o3, 0x3 ! a v3 prom?
be found_version
nop
/* Old sun4's pass our load address into %o0 instead of the prom
* pointer. On sun4's you have to hard code the romvec pointer into
* your code. Sun probably still does that because they don't even
* trust their own "OpenBoot" specifications.
*/
set LOAD_ADDR, %g6
cmp %o0, %g6 ! an old sun4?
be no_sun4_here
nop
found_version:
/* Get the machine type via the mysterious romvec node operations. */
or %g0, %g7, %l1
add %l1, 0x1c, %l1
ld [%l1], %l0
ld [%l0], %l0
call %l0
or %g0, %g0, %o0 ! next_node(0) = first_node
or %o0, %g0, %g6
sethi %hi( C_LABEL(cputypvar) ), %o1 ! First node has cpu-arch
or %o1, %lo( C_LABEL(cputypvar) ), %o1
sethi %hi( C_LABEL(cputypval) ), %o2 ! information, the string
or %o2, %lo( C_LABEL(cputypval) ), %o2
ld [%l1], %l0 ! 'compatibility' tells
ld [%l0 + 0xc], %l0 ! that we want 'sun4x' where
call %l0 ! x is one of '', 'c', 'm',
nop ! 'd' or 'e'. %o2 holds pointer
! to a buf where above string
! will get stored by the prom.
subcc %o0, %g0, %g0
bpos got_prop ! Got the property
nop
or %g6, %g0, %o0
sethi %hi( C_LABEL(cputypvar_sun4m) ), %o1
or %o1, %lo( C_LABEL(cputypvar_sun4m) ), %o1
sethi %hi( C_LABEL(cputypval) ), %o2
or %o2, %lo( C_LABEL(cputypval) ), %o2
ld [%l1], %l0
ld [%l0 + 0xc], %l0
call %l0
nop
got_prop:
set C_LABEL(cputypval), %o2
ldub [%o2 + 0x4], %l1
cmp %l1, 'c' ! We already know we are not
be 1f ! on a plain sun4 because of
nop ! the check for 0x4000 in %o0
cmp %l1, 'm' ! at start
be 1f
nop
cmp %l1, 'e'
be no_sun4e_here ! Could be a sun4e.
nop
b no_sun4u_here ! AIEEE, a V9 sun4u...
nop
1:
set C_LABEL(cputypval), %l1
ldub [%l1 + 0x4], %l1
cmp %l1, 'm' ! Test for sun4d, sun4e ?
be sun4m_init
cmp %l1, 'd' ! Let us see how the beast will die
be sun4m_init
nop
/* Jump into mmu context zero. */
set AC_CONTEXT, %g1
stba %g0, [%g1] ASI_CONTROL
b sun4c_continue_boot
nop
sun4m_init:
/* XXX Fucking Cypress... */
lda [%g0] ASI_M_MMUREGS, %g5
srl %g5, 28, %g4
cmp %g4, 1
bne 1f
srl %g5, 24, %g4
and %g4, 0xf, %g4
cmp %g4, 7 /* This would be a HyperSparc. */
bne 2f
nop
1:
#define PATCH_IT(dst, src) \
set (dst), %g5; \
set (src), %g4; \
ld [%g4], %g3; \
st %g3, [%g5]; \
ld [%g4+0x4], %g3; \
st %g3, [%g5+0x4];
/* Signed multiply. */
PATCH_IT(.mul, .mul_patch)
PATCH_IT(.mul+0x08, .mul_patch+0x08)
/* Signed remainder. */
PATCH_IT(.rem, .rem_patch)
PATCH_IT(.rem+0x08, .rem_patch+0x08)
PATCH_IT(.rem+0x10, .rem_patch+0x10)
PATCH_IT(.rem+0x18, .rem_patch+0x18)
PATCH_IT(.rem+0x20, .rem_patch+0x20)
PATCH_IT(.rem+0x28, .rem_patch+0x28)
/* Signed division. */
PATCH_IT(.div, .div_patch)
PATCH_IT(.div+0x08, .div_patch+0x08)
PATCH_IT(.div+0x10, .div_patch+0x10)
PATCH_IT(.div+0x18, .div_patch+0x18)
PATCH_IT(.div+0x20, .div_patch+0x20)
/* Unsigned multiply. */
PATCH_IT(.umul, .umul_patch)
PATCH_IT(.umul+0x08, .umul_patch+0x08)
/* Unsigned remainder. */
PATCH_IT(.urem, .urem_patch)
PATCH_IT(.urem+0x08, .urem_patch+0x08)
PATCH_IT(.urem+0x10, .urem_patch+0x10)
PATCH_IT(.urem+0x18, .urem_patch+0x18)
/* Unsigned division. */
PATCH_IT(.udiv, .udiv_patch)
PATCH_IT(.udiv+0x08, .udiv_patch+0x08)
PATCH_IT(.udiv+0x10, .udiv_patch+0x10)
#undef PATCH_IT
/* Ok, the PROM could have done funny things and apple cider could still
* be sitting in the fault status/address registers. Read them all to
* clear them so we don't get magic faults later on.
*/
/* This sucks, apparently this makes Vikings call prom panic, will fix later */
2:
rd %psr, %o1
srl %o1, 28, %o1 ! Get a type of the CPU
subcc %o1, 4, %g0 ! TI: Viking or MicroSPARC
be sun4c_continue_boot
nop
set AC_M_SFSR, %o0
lda [%o0] ASI_M_MMUREGS, %g0
set AC_M_SFAR, %o0
lda [%o0] ASI_M_MMUREGS, %g0
/* Fujitsu MicroSPARC-II has no asynchronous flavors of FARs */
subcc %o1, 0, %g0
be sun4c_continue_boot
nop
set AC_M_AFSR, %o0
lda [%o0] ASI_M_MMUREGS, %g0
set AC_M_AFAR, %o0
lda [%o0] ASI_M_MMUREGS, %g0
nop
sun4c_continue_boot:
/* Aieee, now set PC and nPC, enable traps, give ourselves a stack and it's
* show-time!
*/
sethi %hi( C_LABEL(cputyp) ), %o0
st %g4, [%o0 + %lo( C_LABEL(cputyp) )]
/* Turn on Supervisor, EnableFloating, and all the PIL bits.
* Also puts us in register window zero with traps off.
*/
set (PSR_PS | PSR_S | PSR_PIL | PSR_EF), %g2
wr %g2, 0x0, %psr
WRITE_PAUSE
/* I want a kernel stack NOW! */
set C_LABEL(bootup_user_stack), %g1
add %g1, (PAGE_SIZE - REGWIN_SZ), %sp
mov 0, %fp /* And for good luck */
/* Zero out our BSS section. */
set C_LABEL(__bss_start) , %o0 ! First address of BSS
set C_LABEL(end) , %o1 ! Last address of BSS
add %o0, 0x1, %o0
1:
stb %g0, [%o0]
subcc %o0, %o1, %g0
bl 1b
add %o0, 0x1, %o0
/* Initialize the umask value for init_task just in case.
* But first make current_set[0] point to something useful.
*/
set C_LABEL(init_task_union), %g6
set C_LABEL(current_set), %g2
st %g6, [%g2]
st %g0, [%g6 + AOFF_task_tss + AOFF_thread_uwinmask]
/* Compute NWINDOWS and stash it away. Now uses %wim trick explained
* in the V8 manual. Ok, this method seems to work, Sparc is cool...
* No, it doesn't work, have to play the save/readCWP/restore trick.
*/
wr %g0, 0x0, %wim ! so we dont get a trap
WRITE_PAUSE
save
rd %psr, %g3
restore
and %g3, 0x1f, %g3
add %g3, 0x1, %g3
mov 2, %g1
wr %g1, 0x0, %wim ! make window 1 invalid
WRITE_PAUSE
cmp %g3, 0x7
bne 2f
nop
/* Adjust our window handling routines to
* do things correctly on 7 window Sparcs.
*/
#define PATCH_INSN(src, dest) \
set src, %g5; \
set dest, %g2; \
ld [%g5], %g4; \
st %g4, [%g2];
/* Patch for window spills... */
PATCH_INSN(spnwin_patch1_7win, spnwin_patch1)
PATCH_INSN(spnwin_patch2_7win, spnwin_patch2)
PATCH_INSN(spnwin_patch3_7win, spnwin_patch3)
/* Patch for window fills... */
PATCH_INSN(fnwin_patch1_7win, fnwin_patch1)
PATCH_INSN(fnwin_patch2_7win, fnwin_patch2)
/* Patch for trap entry setup... */
PATCH_INSN(tsetup_7win_patch1, tsetup_patch1)
PATCH_INSN(tsetup_7win_patch2, tsetup_patch2)
PATCH_INSN(tsetup_7win_patch3, tsetup_patch3)
PATCH_INSN(tsetup_7win_patch4, tsetup_patch4)
PATCH_INSN(tsetup_7win_patch5, tsetup_patch5)
PATCH_INSN(tsetup_7win_patch6, tsetup_patch6)
/* Patch for returning from traps... */
PATCH_INSN(rtrap_7win_patch1, rtrap_patch1)
PATCH_INSN(rtrap_7win_patch2, rtrap_patch2)
PATCH_INSN(rtrap_7win_patch3, rtrap_patch3)
PATCH_INSN(rtrap_7win_patch4, rtrap_patch4)
PATCH_INSN(rtrap_7win_patch5, rtrap_patch5)
/* Patch for killing user windows from the register file. */
PATCH_INSN(kuw_patch1_7win, kuw_patch1)
/* Now patch the kernel window flush sequences.
* This saves 2 traps on every switch and fork.
*/
set 0x01000000, %g4
set flush_patch_one, %g5
st %g4, [%g5 + 0x18]
st %g4, [%g5 + 0x1c]
set flush_patch_two, %g5
st %g4, [%g5 + 0x18]
st %g4, [%g5 + 0x1c]
set flush_patch_three, %g5
st %g4, [%g5 + 0x18]
st %g4, [%g5 + 0x1c]
set flush_patch_exception, %g5
st %g4, [%g5 + 0x18]
st %g4, [%g5 + 0x1c]
set flush_patch_switch, %g5
st %g4, [%g5 + 0x18]
st %g4, [%g5 + 0x1c]
2:
sethi %hi( C_LABEL(nwindows) ), %g4
st %g3, [%g4 + %lo( C_LABEL(nwindows) )] ! store final value
sub %g3, 0x1, %g3
sethi %hi( C_LABEL(nwindowsm1) ), %g4
st %g3, [%g4 + %lo( C_LABEL(nwindowsm1) )]
/* Here we go, start using Linux's trap table... */
set C_LABEL(trapbase), %g3
wr %g3, 0x0, %tbr
WRITE_PAUSE
/* Finally, turn on traps so that we can call c-code. */
rd %psr, %g3
wr %g3, 0x0, %psr
WRITE_PAUSE
wr %g3, PSR_ET, %psr
WRITE_PAUSE
/* First we call prom_init() to set up PROMLIB, then
* off to start_kernel().
*/
sethi %hi( C_LABEL(prom_vector_p) ), %g5
ld [%g5 + %lo( C_LABEL(prom_vector_p) )], %o0
call C_LABEL(prom_init)
nop
call C_LABEL(start_kernel)
nop
/* We should not get here. */
call halt_me
nop
/* There, happy now Adrian? */
/* XXX Fix this... XXX */
no_sun4_here:
sethi %hi(SUN4_PROM_VECTOR+SUN4_PRINTF), %o1
ld [%o1 + %lo(SUN4_PROM_VECTOR+SUN4_PRINTF)], %o1
set sun4_notsup, %o0
call %o1
nop
1:
ba 1b ! Cannot exit into KMON
nop
no_sun4e_here:
ld [%g7 + 0x68], %o1
set sun4e_notsup, %o0
call %o1
nop
b halt_me
nop
__INITDATA
sun4u_1:
.asciz "finddevice"
.align 4
sun4u_2:
.asciz "/chosen"
.align 4
sun4u_3:
.asciz "getprop"
.align 4
sun4u_4:
.asciz "stdout"
.align 4
sun4u_5:
.asciz "write"
.align 4
sun4u_6:
.asciz "\n\rOn sun4u you have to use UltraLinux (64bit) kernel\n\rand not a 32bit sun4[cdem] version\n\r\n\r"
sun4u_6e:
.align 4
sun4u_7:
.asciz "exit"
.align 8
sun4u_a1:
.word 0, sun4u_1, 0, 1, 0, 1, 0, sun4u_2, 0
sun4u_r1:
.word 0
sun4u_a2:
.word 0, sun4u_3, 0, 4, 0, 1, 0
sun4u_i2:
.word 0, 0, sun4u_4, 0, sun4u_1, 0, 8, 0
sun4u_r2:
.word 0
sun4u_a3:
.word 0, sun4u_5, 0, 3, 0, 1, 0
sun4u_i3:
.word 0, 0, sun4u_6, 0, sun4u_6e - sun4u_6 - 1, 0
sun4u_r3:
.word 0
sun4u_a4:
.word 0, sun4u_7, 0, 0, 0, 0
sun4u_r4:
__INIT
no_sun4u_here:
set sun4u_a1, %o0
set current_pc, %l2
cmp %l2, %g3
be 1f
mov %o4, %l0
sub %g3, %l2, %l6
add %o0, %l6, %o0
mov %o0, %l4
mov sun4u_r4 - sun4u_a1, %l3
ld [%l4], %l5
2:
add %l4, 4, %l4
cmp %l5, %l2
add %l5, %l6, %l5
bgeu,a 3f
st %l5, [%l4 - 4]
3:
subcc %l3, 4, %l3
bne 2b
ld [%l4], %l5
1:
call %l0
mov %o0, %l1
ld [%l1 + (sun4u_r1 - sun4u_a1)], %o1
add %l1, (sun4u_a2 - sun4u_a1), %o0
call %l0
st %o1, [%o0 + (sun4u_i2 - sun4u_a2)]
ld [%l1 + (sun4u_1 - sun4u_a1)], %o1
add %l1, (sun4u_a3 - sun4u_a1), %o0
call %l0
st %o1, [%o0 + (sun4u_i3 - sun4u_a3)]
call %l0
add %l1, (sun4u_a4 - sun4u_a1), %o0
/* Not reached */
halt_me:
ld [%g7 + 0x74], %o0
call %o0 ! Get us out of here...
nop ! Apparently Solaris is better.
/* Ok, now we continue in the .data/.text sections */
.data
.align 4
/*
* Fill up the prom vector, note in particular the kind first element,
* no joke. I don't need all of them in here as the entire prom vector
* gets initialized in c-code so all routines can use it.
*/
.globl C_LABEL(prom_vector_p)
C_LABEL(prom_vector_p):
.word 0
/* We calculate the following at boot time, window fills/spills and trap entry
* code uses these to keep track of the register windows.
*/
.align 4
.globl C_LABEL(nwindows)
.globl C_LABEL(nwindowsm1)
C_LABEL(nwindows):
.word 8
C_LABEL(nwindowsm1):
.word 7
/* Boot time debugger vector value. We need this later on. */
.align 4
.globl C_LABEL(linux_dbvec)
C_LABEL(linux_dbvec):
.word 0
.word 0
.align 8
.globl C_LABEL(lvl14_save)
C_LABEL(lvl14_save):
.word 0
.word 0
.word 0
.word 0
.word t_irq14
.section ".fixup",#alloc,#execinstr
.globl __ret_efault
__ret_efault:
ret
restore %g0, -EFAULT, %o0
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