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Merge tag 'cris-for-3.14' of git://jni.nu/cris

Pull cris changes from Jesper Nilsson:
 "Mostly removal of deprecated or old code, but also a long promised
  update of the CRIS syscalls"

* tag 'cris-for-3.14' of git://jni.nu/cris:
  Drop code for CRISv10 CPU simulator
  Cleanup whitespace, remove old author tag
  CRIS: Add missing syscalls
  cris: sync_serial: remove interruptible_sleep_on
  cris: remove deprecated IRQF_DISABLED
This commit is contained in:
Linus Torvalds 2014-01-27 08:12:20 -08:00
Родитель 77d143de75 e269a86941
Коммит 562e74fefc
28 изменённых файлов: 298 добавлений и 332 удалений

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@ -122,12 +122,6 @@ config ETRAX100LX_V2
help
Support version 2 of the ETRAX 100LX.
config SVINTO_SIM
bool "ETRAX-100LX-for-xsim-simulator"
select ARCH_USES_GETTIMEOFFSET
help
Support the xsim ETRAX Simulator.
config ETRAXFS
bool "ETRAX-FS-V32"
help

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@ -838,13 +838,13 @@ static int __init gpio_init(void)
* in some tests.
*/
res = request_irq(TIMER0_IRQ_NBR, gpio_poll_timer_interrupt,
IRQF_SHARED | IRQF_DISABLED, "gpio poll", gpio_name);
IRQF_SHARED, "gpio poll", gpio_name);
if (res) {
printk(KERN_CRIT "err: timer0 irq for gpio\n");
return res;
}
res = request_irq(PA_IRQ_NBR, gpio_interrupt,
IRQF_SHARED | IRQF_DISABLED, "gpio PA", gpio_name);
IRQF_SHARED, "gpio PA", gpio_name);
if (res)
printk(KERN_CRIT "err: PA irq for gpio\n");

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@ -22,6 +22,7 @@
#include <linux/init.h>
#include <linux/mutex.h>
#include <linux/timer.h>
#include <linux/wait.h>
#include <asm/irq.h>
#include <asm/dma.h>
#include <asm/io.h>
@ -580,7 +581,7 @@ static int sync_serial_open(struct inode *inode, struct file *file)
if (port == &ports[0]) {
if (request_irq(8,
manual_interrupt,
IRQF_SHARED | IRQF_DISABLED,
IRQF_SHARED,
"synchronous serial manual irq",
&ports[0])) {
printk(KERN_CRIT "Can't alloc "
@ -590,7 +591,7 @@ static int sync_serial_open(struct inode *inode, struct file *file)
} else if (port == &ports[1]) {
if (request_irq(8,
manual_interrupt,
IRQF_SHARED | IRQF_DISABLED,
IRQF_SHARED,
"synchronous serial manual irq",
&ports[1])) {
printk(KERN_CRIT "Can't alloc "
@ -1136,7 +1137,8 @@ static ssize_t sync_serial_read(struct file *file, char *buf,
if (file->f_flags & O_NONBLOCK)
return -EAGAIN;
interruptible_sleep_on(&port->in_wait_q);
wait_event_interruptible(port->in_wait_q,
!(start == end && !port->full));
if (signal_pending(current))
return -EINTR;

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@ -1,4 +1,3 @@
# $Id: Makefile,v 1.6 2004/12/13 12:21:51 starvik Exp $
#
# Makefile for the linux kernel.
#

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@ -19,7 +19,6 @@
#include <linux/delay.h>
#include <linux/tty.h>
#include <arch/svinto.h>
#include <asm/io.h> /* Get SIMCOUT. */
extern void reset_watchdog(void);
@ -318,12 +317,6 @@ console_write(struct console *co, const char *buf, unsigned int len)
if (!port)
return;
#ifdef CONFIG_SVINTO_SIM
/* no use to simulate the serial debug output */
SIMCOUT(buf, len);
return;
#endif
console_write_direct(co, buf, len);
}

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@ -13,8 +13,8 @@
* after a timer-interrupt and after each system call.
*
* Stack layout in 'ret_from_system_call':
* ptrace needs to have all regs on the stack.
* if the order here is changed, it needs to be
* ptrace needs to have all regs on the stack.
* if the order here is changed, it needs to be
* updated in fork.c:copy_process, signal.c:do_signal,
* ptrace.c and ptrace.h
*
@ -31,7 +31,7 @@
#include <asm/pgtable.h>
;; functions exported from this file
.globl system_call
.globl ret_from_intr
.globl ret_from_fork
@ -46,10 +46,10 @@
.globl do_sigtrap
.globl gdb_handle_breakpoint
.globl sys_call_table
;; below are various parts of system_call which are not in the fast-path
#ifdef CONFIG_PREEMPT
#ifdef CONFIG_PREEMPT
; Check if preemptive kernel scheduling should be done
_resume_kernel:
di
@ -74,7 +74,7 @@ _need_resched:
nop
#else
#define _resume_kernel _Rexit
#endif
#endif
; Called at exit from fork. schedule_tail must be called to drop
; spinlock if CONFIG_PREEMPT
@ -91,16 +91,16 @@ ret_from_kernel_thread:
ba ret_from_sys_call
ret_from_intr:
;; check for resched if preemptive kernel or if we're going back to user-mode
;; check for resched if preemptive kernel or if we're going back to user-mode
;; this test matches the user_regs(regs) macro
;; we cannot simply test $dccr, because that does not necessarily
;; reflect what mode we'll return into.
move.d [$sp + PT_dccr], $r0; regs->dccr
btstq 8, $r0 ; U-flag
bpl _resume_kernel
; Note that di below is in delay slot
; Note that di below is in delay slot
_resume_userspace:
di ; so need_resched and sigpending don't change
@ -113,7 +113,7 @@ _resume_userspace:
nop
ba _Rexit
nop
;; The system_call is called by a BREAK instruction, which works like
;; an interrupt call but it stores the return PC in BRP instead of IRP.
;; Since we dont really want to have two epilogues (one for system calls
@ -123,7 +123,7 @@ _resume_userspace:
;;
;; Since we can't have system calls inside interrupts, it should not matter
;; that we don't stack IRP.
;;
;;
;; In r9 we have the wanted syscall number. Arguments come in r10,r11,r12,r13,mof,srp
;;
;; This function looks on the _surface_ like spaghetti programming, but it's
@ -140,7 +140,7 @@ system_call:
movem $r13, [$sp] ; push r0-r13
push $r10 ; push orig_r10
clear.d [$sp=$sp-4] ; frametype == 0, normal stackframe
movs.w -ENOSYS, $r0
move.d $r0, [$sp+PT_r10] ; put the default return value in r10 in the frame
@ -148,17 +148,17 @@ system_call:
movs.w -8192, $r0 ; THREAD_SIZE == 8192
and.d $sp, $r0
move.d [$r0+TI_flags], $r0
btstq TIF_SYSCALL_TRACE, $r0
bmi _syscall_trace_entry
nop
nop
_syscall_traced:
_syscall_traced:
;; check for sanity in the requested syscall number
cmpu.w NR_syscalls, $r9
cmpu.w NR_syscalls, $r9
bcc ret_from_sys_call
lslq 2, $r9 ; multiply by 4, in the delay slot
@ -166,28 +166,28 @@ _syscall_traced:
;; of the register structure itself. some syscalls need this.
push $sp
;; the parameter carrying registers r10, r11, r12 and 13 are intact.
;; the fifth and sixth parameters (if any) was in mof and srp
;; the fifth and sixth parameters (if any) was in mof and srp
;; respectively, and we need to put them on the stack.
push $srp
push $mof
jsr [$r9+sys_call_table] ; actually do the system call
addq 3*4, $sp ; pop the mof, srp and regs parameters
move.d $r10, [$sp+PT_r10] ; save the return value
moveq 1, $r9 ; "parameter" to ret_from_sys_call to show it was a sys call
;; fall through into ret_from_sys_call to return
ret_from_sys_call:
;; r9 is a parameter - if >=1 we came from a syscall, if 0, from an irq
;; get the current task-struct pointer (see top for defs)
movs.w -8192, $r0 ; THREAD_SIZE == 8192
movs.w -8192, $r0 ; THREAD_SIZE == 8192
and.d $sp, $r0
di ; make sure need_resched and sigpending don't change
@ -202,7 +202,7 @@ _Rexit:
bne _RBFexit ; was not CRIS_FRAME_NORMAL, handle otherwise
addq 4, $sp ; skip orig_r10, in delayslot
movem [$sp+], $r13 ; registers r0-r13
pop $mof ; multiply overflow register
pop $mof ; multiply overflow register
pop $dccr ; condition codes
pop $srp ; subroutine return pointer
;; now we have a 4-word SBFS frame which we do not want to restore
@ -216,14 +216,14 @@ _Rexit:
_RBFexit:
movem [$sp+], $r13 ; registers r0-r13, in delay slot
pop $mof ; multiply overflow register
pop $mof ; multiply overflow register
pop $dccr ; condition codes
pop $srp ; subroutine return pointer
rbf [$sp+] ; return by popping the CPU status
;; We get here after doing a syscall if extra work might need to be done
;; perform syscall exit tracing if needed
_syscall_exit_work:
;; $r0 contains current at this point and irq's are disabled
@ -231,22 +231,22 @@ _syscall_exit_work:
btstq TIF_SYSCALL_TRACE, $r1
bpl _work_pending
nop
ei
move.d $r9, $r1 ; preserve r9
jsr do_syscall_trace
move.d $r1, $r9
ba _resume_userspace
nop
_work_pending:
move.d [$r0+TI_flags], $r1
btstq TIF_NEED_RESCHED, $r1
bpl _work_notifysig ; was neither trace nor sched, must be signal/notify
nop
_work_resched:
move.d $r9, $r1 ; preserve r9
jsr schedule
@ -268,17 +268,17 @@ _work_notifysig:
move.d $sp, $r11 ; the regs param
move.d $r1, $r12 ; the thread_info_flags parameter
jsr do_notify_resume
ba _Rexit
nop
;; We get here as a sidetrack when we've entered a syscall with the
;; trace-bit set. We need to call do_syscall_trace and then continue
;; with the call.
_syscall_trace_entry:
;; PT_r10 in the frame contains -ENOSYS as required, at this point
jsr do_syscall_trace
;; now re-enter the syscall code to do the syscall itself
@ -292,10 +292,10 @@ _syscall_trace_entry:
move.d [$sp+PT_r13], $r13
move [$sp+PT_mof], $mof
move [$sp+PT_srp], $srp
ba _syscall_traced
nop
;; resume performs the actual task-switching, by switching stack pointers
;; input arguments: r10 = prev, r11 = next, r12 = thread offset in task struct
;; returns old current in r10
@ -303,29 +303,29 @@ _syscall_trace_entry:
;; TODO: see the i386 version. The switch_to which calls resume in our version
;; could really be an inline asm of this.
resume:
push $srp ; we keep the old/new PC on the stack
resume:
push $srp ; we keep the old/new PC on the stack
add.d $r12, $r10 ; r10 = current tasks tss
move $dccr, [$r10+THREAD_dccr]; save irq enable state
di
move $usp, [$r10+ THREAD_usp] ; save user-mode stackpointer
;; See copy_thread for the reason why register R9 is saved.
subq 10*4, $sp
movem $r9, [$sp] ; save non-scratch registers and R9.
move.d $sp, [$r10+THREAD_ksp] ; save the kernel stack pointer for the old task
move.d $sp, $r10 ; return last running task in r10
and.d -8192, $r10 ; get thread_info from stackpointer
move.d [$r10+TI_task], $r10 ; get task
move.d [$r10+TI_task], $r10 ; get task
add.d $r12, $r11 ; find the new tasks tss
move.d [$r11+THREAD_ksp], $sp ; switch into the new stackframe by restoring kernel sp
movem [$sp+], $r9 ; restore non-scratch registers and R9.
move [$r11+THREAD_usp], $usp ; restore user-mode stackpointer
move [$r11+THREAD_dccr], $dccr ; restore irq enable status
jump [$sp+] ; restore PC
@ -401,7 +401,7 @@ mmu_bus_fault:
push $r10 ; frametype == 1, BUSFAULT frame type
move.d $sp, $r10 ; pt_regs argument to handle_mmu_bus_fault
jsr handle_mmu_bus_fault ; in arch/cris/arch-v10/mm/fault.c
;; now we need to return through the normal path, we cannot just
@ -410,10 +410,10 @@ mmu_bus_fault:
;; whatever.
moveq 0, $r9 ; busfault is equivalent to an irq
ba ret_from_intr
nop
;; special handlers for breakpoint and NMI
hwbreakpoint:
push $dccr
@ -429,7 +429,7 @@ hwbreakpoint:
pop $dccr
retb
nop
IRQ1_interrupt:
;; this prologue MUST match the one in irq.h and the struct in ptregs.h!!!
move $brp,[$sp=$sp-16]; instruction pointer and room for a fake SBFS frame
@ -457,7 +457,7 @@ IRQ1_interrupt:
ba _Rexit ; Return the standard way
nop
wdog:
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#if defined(CONFIG_ETRAX_WATCHDOG)
;; Check if we're waiting for reset to happen, as signalled by
;; hard_reset_now setting cause_of_death to a magic value. If so, just
;; get stuck until reset happens.
@ -500,7 +500,7 @@ Watchdog_bite:
move.d $r10, [$r11]
#endif
;; Note that we don't do "setf m" here (or after two necessary NOPs),
;; since *not* doing that saves us from re-entrancy checks. We don't want
;; to get here again due to possible subsequent NMIs; we want the watchdog
@ -523,16 +523,16 @@ _watchdogmsg:
.ascii "Oops: bitten by watchdog\n\0"
.previous
#endif /* CONFIG_ETRAX_WATCHDOG and not CONFIG_SVINTO_SIM */
#endif /* CONFIG_ETRAX_WATCHDOG */
spurious_interrupt:
spurious_interrupt:
di
jump hard_reset_now
;; this handles the case when multiple interrupts arrive at the same time
;; we jump to the first set interrupt bit in a priority fashion
;; the hardware will call the unserved interrupts after the handler finishes
multiple_interrupt:
;; this prologue MUST match the one in irq.h and the struct in ptregs.h!!!
move $irp,[$sp=$sp-16]; instruction pointer and room for a fake SBFS frame
@ -551,7 +551,7 @@ multiple_interrupt:
jump ret_from_intr
do_sigtrap:
;;
;;
;; SIGTRAP the process that executed the break instruction.
;; Make a frame that Rexit in entry.S expects.
;;
@ -568,30 +568,30 @@ do_sigtrap:
movs.w -8192,$r9 ; THREAD_SIZE == 8192
and.d $sp, $r9
move.d [$r9+TI_task], $r10
move.d [$r10+TASK_pid], $r10 ; current->pid as arg1.
move.d [$r10+TASK_pid], $r10 ; current->pid as arg1.
moveq 5, $r11 ; SIGTRAP as arg2.
jsr sys_kill
jsr sys_kill
jump ret_from_intr ; Use the return routine for interrupts.
gdb_handle_breakpoint:
gdb_handle_breakpoint:
push $dccr
push $r0
#ifdef CONFIG_ETRAX_KGDB
move $dccr, $r0 ; U-flag not affected by previous insns.
move $dccr, $r0 ; U-flag not affected by previous insns.
btstq 8, $r0 ; Test the U-flag.
bmi _ugdb_handle_breakpoint ; Go to user mode debugging.
nop ; Empty delay slot (cannot pop r0 here).
bmi _ugdb_handle_breakpoint ; Go to user mode debugging.
nop ; Empty delay slot (cannot pop r0 here).
pop $r0 ; Restore r0.
ba kgdb_handle_breakpoint ; Go to kernel debugging.
ba kgdb_handle_breakpoint ; Go to kernel debugging.
pop $dccr ; Restore dccr in delay slot.
#endif
_ugdb_handle_breakpoint:
_ugdb_handle_breakpoint:
move $brp, $r0 ; Use r0 temporarily for calculation.
subq 2, $r0 ; Set to address of previous instruction.
move $r0, $brp
pop $r0 ; Restore r0.
ba do_sigtrap ; SIGTRAP the offending process.
pop $r0 ; Restore r0.
ba do_sigtrap ; SIGTRAP the offending process.
pop $dccr ; Restore dccr in delay slot.
.data
@ -602,7 +602,7 @@ hw_bp_trig_ptr:
.dword hw_bp_trigs
.section .rodata,"a"
sys_call_table:
sys_call_table:
.long sys_restart_syscall /* 0 - old "setup()" system call, used for restarting */
.long sys_exit
.long sys_fork
@ -713,7 +713,7 @@ sys_call_table:
.long sys_newlstat
.long sys_newfstat
.long sys_ni_syscall /* old sys_uname holder */
.long sys_ni_syscall /* sys_iopl in i386 */
.long sys_ni_syscall /* 110 */ /* sys_iopl in i386 */
.long sys_vhangup
.long sys_ni_syscall /* old "idle" system call */
.long sys_ni_syscall /* vm86old in i386 */
@ -730,7 +730,7 @@ sys_call_table:
.long sys_adjtimex
.long sys_mprotect /* 125 */
.long sys_sigprocmask
.long sys_ni_syscall /* old "create_module" */
.long sys_ni_syscall /* old "create_module" */
.long sys_init_module
.long sys_delete_module
.long sys_ni_syscall /* 130: old "get_kernel_syms" */
@ -795,7 +795,7 @@ sys_call_table:
.long sys_ni_syscall /* streams2 */
.long sys_vfork /* 190 */
.long sys_getrlimit
.long sys_mmap2
.long sys_mmap2 /* mmap_pgoff */
.long sys_truncate64
.long sys_ftruncate64
.long sys_stat64 /* 195 */
@ -861,21 +861,21 @@ sys_call_table:
.long sys_epoll_ctl /* 255 */
.long sys_epoll_wait
.long sys_remap_file_pages
.long sys_set_tid_address
.long sys_timer_create
.long sys_timer_settime /* 260 */
.long sys_timer_gettime
.long sys_timer_getoverrun
.long sys_timer_delete
.long sys_clock_settime
.long sys_clock_gettime /* 265 */
.long sys_clock_getres
.long sys_clock_nanosleep
.long sys_set_tid_address
.long sys_timer_create
.long sys_timer_settime /* 260 */
.long sys_timer_gettime
.long sys_timer_getoverrun
.long sys_timer_delete
.long sys_clock_settime
.long sys_clock_gettime /* 265 */
.long sys_clock_getres
.long sys_clock_nanosleep
.long sys_statfs64
.long sys_fstatfs64
.long sys_tgkill /* 270 */
.long sys_fstatfs64
.long sys_tgkill /* 270 */
.long sys_utimes
.long sys_fadvise64_64
.long sys_fadvise64_64
.long sys_ni_syscall /* sys_vserver */
.long sys_ni_syscall /* sys_mbind */
.long sys_ni_syscall /* 275 sys_get_mempolicy */
@ -886,7 +886,7 @@ sys_call_table:
.long sys_mq_timedreceive /* 280 */
.long sys_mq_notify
.long sys_mq_getsetattr
.long sys_ni_syscall /* reserved for kexec */
.long sys_ni_syscall
.long sys_waitid
.long sys_ni_syscall /* 285 */ /* available */
.long sys_add_key
@ -939,6 +939,22 @@ sys_call_table:
.long sys_preadv
.long sys_pwritev
.long sys_setns /* 335 */
.long sys_name_to_handle_at
.long sys_open_by_handle_at
.long sys_rt_tgsigqueueinfo
.long sys_perf_event_open
.long sys_recvmmsg /* 340 */
.long sys_accept4
.long sys_fanotify_init
.long sys_fanotify_mark
.long sys_prlimit64
.long sys_clock_adjtime /* 345 */
.long sys_syncfs
.long sys_sendmmsg
.long sys_process_vm_readv
.long sys_process_vm_writev
.long sys_kcmp /* 350 */
.long sys_finit_module
/*
* NOTE!! This doesn't have to be exact - we just have
@ -950,4 +966,4 @@ sys_call_table:
.rept NR_syscalls-(.-sys_call_table)/4
.long sys_ni_syscall
.endr

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@ -1,12 +1,10 @@
/*
* Head of the kernel - alter with care
*
* Copyright (C) 2000, 2001 Axis Communications AB
* Copyright (C) 2000, 2001, 2010 Axis Communications AB
*
* Authors: Bjorn Wesen (bjornw@axis.com)
*
*/
#define ASSEMBLER_MACROS_ONLY
/* The IO_* macros use the ## token concatenation operator, so
-traditional must not be used when assembling this file. */
@ -18,15 +16,15 @@
#define START_ETHERNET_CLOCK IO_STATE(R_NETWORK_GEN_CONFIG, enable, on) |\
IO_STATE(R_NETWORK_GEN_CONFIG, phy, mii_clk)
;; exported symbols
.globl etrax_irv
.globl romfs_start
.globl romfs_length
.globl romfs_in_flash
.globl swapper_pg_dir
.text
;; This is the entry point of the kernel. We are in supervisor mode.
@ -35,10 +33,10 @@
;; put a nop (2 bytes) here first so we dont accidentally skip the di
;;
;; NOTICE! The registers r8 and r9 are used as parameters carrying
;; information from the decompressor (if the kernel was compressed).
;; information from the decompressor (if the kernel was compressed).
;; They should not be used in the code below until read.
nop
nop
di
;; First setup the kseg_c mapping from where the kernel is linked
@ -58,19 +56,19 @@
#ifdef CONFIG_CRIS_LOW_MAP
; kseg mappings, temporary map of 0xc0->0x40
move.d IO_FIELD (R_MMU_KBASE_HI, base_c, 4) \
move.d IO_FIELD (R_MMU_KBASE_HI, base_c, 4) \
| IO_FIELD (R_MMU_KBASE_HI, base_b, 0xb) \
| IO_FIELD (R_MMU_KBASE_HI, base_9, 9) \
| IO_FIELD (R_MMU_KBASE_HI, base_8, 8), $r0
move.d $r0, [R_MMU_KBASE_HI]
; temporary map of 0x40->0x40 and 0x60->0x40
move.d IO_FIELD (R_MMU_KBASE_LO, base_6, 4) \
; temporary map of 0x40->0x40 and 0x60->0x40
move.d IO_FIELD (R_MMU_KBASE_LO, base_6, 4) \
| IO_FIELD (R_MMU_KBASE_LO, base_4, 4), $r0
move.d $r0, [R_MMU_KBASE_LO]
; mmu enable, segs e,c,b,a,6,5,4,0 segment mapped
move.d IO_STATE (R_MMU_CONFIG, mmu_enable, enable) \
move.d IO_STATE (R_MMU_CONFIG, mmu_enable, enable) \
| IO_STATE (R_MMU_CONFIG, inv_excp, enable) \
| IO_STATE (R_MMU_CONFIG, acc_excp, enable) \
| IO_STATE (R_MMU_CONFIG, we_excp, enable) \
@ -93,17 +91,17 @@
move.d $r0, [R_MMU_CONFIG]
#else
; kseg mappings
move.d IO_FIELD (R_MMU_KBASE_HI, base_e, 8) \
move.d IO_FIELD (R_MMU_KBASE_HI, base_e, 8) \
| IO_FIELD (R_MMU_KBASE_HI, base_c, 4) \
| IO_FIELD (R_MMU_KBASE_HI, base_b, 0xb), $r0
move.d $r0, [R_MMU_KBASE_HI]
; temporary map of 0x40->0x40 and 0x00->0x00
; temporary map of 0x40->0x40 and 0x00->0x00
move.d IO_FIELD (R_MMU_KBASE_LO, base_4, 4), $r0
move.d $r0, [R_MMU_KBASE_LO]
; mmu enable, segs f,e,c,b,4,0 segment mapped
move.d IO_STATE (R_MMU_CONFIG, mmu_enable, enable) \
move.d IO_STATE (R_MMU_CONFIG, mmu_enable, enable) \
| IO_STATE (R_MMU_CONFIG, inv_excp, enable) \
| IO_STATE (R_MMU_CONFIG, acc_excp, enable) \
| IO_STATE (R_MMU_CONFIG, we_excp, enable) \
@ -141,12 +139,12 @@
;;
;; In both cases, we start in un-cached mode, and need to jump into a
;; cached PC after we're done fiddling around with the segments.
;;
;;
;; arch/etrax100/etrax100.ld sets some symbols that define the start
;; and end of each segment.
;; Check if we start from DRAM or FLASH by testing PC
move.d $pc,$r0
and.d 0x7fffffff,$r0 ; get rid of the non-cache bit
cmp.d 0x10000,$r0 ; arbitrary... just something above this code
@ -163,30 +161,28 @@ _inflash0:
;; after init.
.section ".init.text", "ax"
_inflash:
#ifdef CONFIG_ETRAX_ETHERNET
#ifdef CONFIG_ETRAX_ETHERNET
;; Start MII clock to make sure it is running when tranceiver is reset
move.d START_ETHERNET_CLOCK, $r0
move.d $r0, [R_NETWORK_GEN_CONFIG]
#endif
;; Set up waitstates etc according to kernel configuration.
#ifndef CONFIG_SVINTO_SIM
move.d CONFIG_ETRAX_DEF_R_WAITSTATES, $r0
move.d $r0, [R_WAITSTATES]
move.d CONFIG_ETRAX_DEF_R_BUS_CONFIG, $r0
move.d $r0, [R_BUS_CONFIG]
#endif
;; We need to initialze DRAM registers before we start using the DRAM
cmp.d RAM_INIT_MAGIC, $r8 ; Already initialized?
beq _dram_init_finished
nop
#include "../lib/dram_init.S"
_dram_init_finished:
_dram_init_finished:
;; Copy text+data to DRAM
;; This is fragile - the calculation of r4 as the image size depends
;; on that the labels below actually are the first and last positions
@ -198,7 +194,7 @@ _dram_init_finished:
;; between the physical start of the flash and the flash-image start,
;; and when run with compression, the kernel is actually unpacked to
;; DRAM and we never get here in the first place :))
moveq 0, $r0 ; source
move.d text_start, $r1 ; destination
move.d __vmlinux_end, $r2 ; end destination
@ -229,10 +225,10 @@ _dram_init_finished:
add.d 0xf0000000, $r4 ; add flash start in virtual memory (cached)
#endif
move.d $r4, [romfs_start]
1:
1:
moveq 1, $r0
move.d $r0, [romfs_in_flash]
jump _start_it ; enter code, cached this time
_inram:
@ -241,7 +237,7 @@ _inram:
moveq 0, $r0
move.d $r0, [romfs_length] ; default if there is no cramfs
;; The kernel could have been unpacked to DRAM by the loader, but
;; the cramfs image could still be in the Flash directly after the
;; compressed kernel image. The loader passes the address of the
@ -251,7 +247,7 @@ _inram:
;; (Notice that if this is not booted from the loader, r9 will be
;; garbage but we do sanity checks on it, the chance that it points
;; to a cramfs magic is small.. )
cmp.d 0x0ffffff8, $r9
bhs _no_romfs_in_flash ; r9 points outside the flash area
nop
@ -274,7 +270,7 @@ _inram:
jump _start_it ; enter code, cached this time
_no_romfs_in_flash:
;; Check if there is a cramfs (magic value).
;; Notice that we check for cramfs magic value - which is
;; the "rom fs" we'll possibly use in 2.4 if not JFFS (which does
@ -286,8 +282,8 @@ _no_romfs_in_flash:
bne 2f
nop
;; Ok. What is its size ?
;; Ok. What is its size ?
move.d [$r0 + 4], $r2 ; cramfs_super.size (again, no need to swapwb)
;; We want to copy it to the end of the BSS
@ -303,7 +299,7 @@ _no_romfs_in_flash:
add.d $r2, $r0
add.d $r2, $r1
;; Go ahead. Make my loop.
lsrq 1, $r2 ; size is in bytes, we copy words
@ -314,14 +310,14 @@ _no_romfs_in_flash:
bne 1b
nop
2:
2:
;; Dont worry that the BSS is tainted. It will be cleared later.
moveq 0, $r0
move.d $r0, [romfs_in_flash]
jump _start_it ; better skip the additional cramfs check below
_start_it:
;; Check if kernel command line is supplied
@ -348,7 +344,7 @@ no_command_line:
move.d ibr_start,$r0 ; this symbol is set by the linker script
move $r0,$ibr
move.d $r0,[etrax_irv] ; set the interrupt base register and pointer
;; Clear BSS region, from _bss_start to _end
move.d __bss_start, $r0
@ -357,7 +353,7 @@ no_command_line:
cmp.d $r1, $r0
blo 1b
nop
#ifdef CONFIG_BLK_DEV_ETRAXIDE
;; disable ATA before enabling it in genconfig below
moveq 0,$r0
@ -380,7 +376,7 @@ no_command_line:
#ifdef CONFIG_JULIETTE
;; configure external DMA channel 0 before enabling it in genconfig
moveq 0,$r0
move.d $r0,[R_EXT_DMA_0_ADDR]
; cnt enable, word size, output, stop, size 0
@ -395,7 +391,7 @@ no_command_line:
move.d $r0,[R_EXT_DMA_0_CMD]
;; reset dma4 and wait for completion
moveq IO_STATE (R_DMA_CH4_CMD, cmd, reset),$r0
move.b $r0,[R_DMA_CH4_CMD]
1: move.b [R_DMA_CH4_CMD],$r0
@ -405,7 +401,7 @@ no_command_line:
nop
;; reset dma5 and wait for completion
moveq IO_STATE (R_DMA_CH5_CMD, cmd, reset),$r0
move.b $r0,[R_DMA_CH5_CMD]
1: move.b [R_DMA_CH5_CMD],$r0
@ -413,8 +409,8 @@ no_command_line:
cmp.b IO_STATE (R_DMA_CH5_CMD, cmd, reset),$r0
beq 1b
nop
#endif
#endif
;; Etrax product HW genconfig setup
moveq 0,$r0
@ -468,7 +464,6 @@ no_command_line:
move.d $r0,[genconfig_shadow] ; init a shadow register of R_GEN_CONFIG
#ifndef CONFIG_SVINTO_SIM
move.d $r0,[R_GEN_CONFIG]
#if 0
@ -486,7 +481,7 @@ no_command_line:
beq 1b
nop
#endif
moveq IO_STATE (R_DMA_CH8_CMD, cmd, reset),$r0
move.b $r0,[R_DMA_CH8_CMD] ; reset (ser1 dma out)
move.b $r0,[R_DMA_CH9_CMD] ; reset (ser1 dma in)
@ -503,7 +498,7 @@ no_command_line:
;; setup port PA and PB default initial directions and data
;; including their shadow registers
move.b CONFIG_ETRAX_DEF_R_PORT_PA_DIR,$r0
#if defined(CONFIG_BLUETOOTH) && defined(CONFIG_BLUETOOTH_RESET_PA7)
or.b IO_STATE (R_PORT_PA_DIR, dir7, output),$r0
@ -520,7 +515,7 @@ no_command_line:
#endif
move.b $r0,[port_pa_data_shadow]
move.b $r0,[R_PORT_PA_DATA]
move.b CONFIG_ETRAX_DEF_R_PORT_PB_CONFIG,$r0
move.b $r0,[port_pb_config_shadow]
move.b $r0,[R_PORT_PB_CONFIG]
@ -562,13 +557,13 @@ no_command_line:
#endif
move.d $r0,[port_g_data_shadow]
move.d $r0,[R_PORT_G_DATA]
;; setup the serial port 0 at 115200 baud for debug purposes
moveq IO_STATE (R_SERIAL0_XOFF, tx_stop, enable) \
| IO_STATE (R_SERIAL0_XOFF, auto_xoff, disable) \
| IO_FIELD (R_SERIAL0_XOFF, xoff_char, 0),$r0
move.d $r0,[R_SERIAL0_XOFF]
move.d $r0,[R_SERIAL0_XOFF]
; 115.2kbaud for both transmit and receive
move.b IO_STATE (R_SERIAL0_BAUD, tr_baud, c115k2Hz) \
@ -584,8 +579,8 @@ no_command_line:
| IO_STATE (R_SERIAL0_REC_CTRL, rec_par, even) \
| IO_STATE (R_SERIAL0_REC_CTRL, rec_par_en, disable) \
| IO_STATE (R_SERIAL0_REC_CTRL, rec_bitnr, rec_8bit),$r0
move.b $r0,[R_SERIAL0_REC_CTRL]
move.b $r0,[R_SERIAL0_REC_CTRL]
; Set up and enable the serial0 transmitter.
move.b IO_FIELD (R_SERIAL0_TR_CTRL, txd, 0) \
| IO_STATE (R_SERIAL0_TR_CTRL, tr_enable, enable) \
@ -598,11 +593,11 @@ no_command_line:
move.b $r0,[R_SERIAL0_TR_CTRL]
;; setup the serial port 1 at 115200 baud for debug purposes
moveq IO_STATE (R_SERIAL1_XOFF, tx_stop, enable) \
| IO_STATE (R_SERIAL1_XOFF, auto_xoff, disable) \
| IO_FIELD (R_SERIAL1_XOFF, xoff_char, 0),$r0
move.d $r0,[R_SERIAL1_XOFF]
move.d $r0,[R_SERIAL1_XOFF]
; 115.2kbaud for both transmit and receive
move.b IO_STATE (R_SERIAL1_BAUD, tr_baud, c115k2Hz) \
@ -618,8 +613,8 @@ no_command_line:
| IO_STATE (R_SERIAL1_REC_CTRL, rec_par, even) \
| IO_STATE (R_SERIAL1_REC_CTRL, rec_par_en, disable) \
| IO_STATE (R_SERIAL1_REC_CTRL, rec_bitnr, rec_8bit),$r0
move.b $r0,[R_SERIAL1_REC_CTRL]
move.b $r0,[R_SERIAL1_REC_CTRL]
; Set up and enable the serial1 transmitter.
move.b IO_FIELD (R_SERIAL1_TR_CTRL, txd, 0) \
| IO_STATE (R_SERIAL1_TR_CTRL, tr_enable, enable) \
@ -666,14 +661,14 @@ no_command_line:
| IO_STATE (R_SERIAL2_TR_CTRL, tr_bitnr, tr_8bit),$r0
move.b $r0,[R_SERIAL2_TR_CTRL]
#endif
#ifdef CONFIG_ETRAX_SERIAL_PORT3
#ifdef CONFIG_ETRAX_SERIAL_PORT3
;; setup the serial port 3 at 115200 baud for debug purposes
moveq IO_STATE (R_SERIAL3_XOFF, tx_stop, enable) \
| IO_STATE (R_SERIAL3_XOFF, auto_xoff, disable) \
| IO_FIELD (R_SERIAL3_XOFF, xoff_char, 0),$r0
move.d $r0,[R_SERIAL3_XOFF]
move.d $r0,[R_SERIAL3_XOFF]
; 115.2kbaud for both transmit and receive
move.b IO_STATE (R_SERIAL3_BAUD, tr_baud, c115k2Hz) \
@ -689,8 +684,8 @@ no_command_line:
| IO_STATE (R_SERIAL3_REC_CTRL, rec_par, even) \
| IO_STATE (R_SERIAL3_REC_CTRL, rec_par_en, disable) \
| IO_STATE (R_SERIAL3_REC_CTRL, rec_bitnr, rec_8bit),$r0
move.b $r0,[R_SERIAL3_REC_CTRL]
move.b $r0,[R_SERIAL3_REC_CTRL]
; Set up and enable the serial3 transmitter.
move.b IO_FIELD (R_SERIAL3_TR_CTRL, txd, 0) \
| IO_STATE (R_SERIAL3_TR_CTRL, tr_enable, enable) \
@ -702,13 +697,11 @@ no_command_line:
| IO_STATE (R_SERIAL3_TR_CTRL, tr_bitnr, tr_8bit),$r0
move.b $r0,[R_SERIAL3_TR_CTRL]
#endif
#endif /* CONFIG_SVINTO_SIM */
jump start_kernel ; jump into the C-function start_kernel in init/main.c
.data
etrax_irv:
etrax_irv:
.dword 0
romfs_start:
.dword 0
@ -716,13 +709,13 @@ romfs_length:
.dword 0
romfs_in_flash:
.dword 0
;; put some special pages at the beginning of the kernel aligned
;; to page boundaries - the kernel cannot start until after this
#ifdef CONFIG_CRIS_LOW_MAP
swapper_pg_dir = 0x60002000
#else
#else
swapper_pg_dir = 0xc0002000
#endif

Просмотреть файл

@ -5,7 +5,7 @@
*
* Authors: Bjorn Wesen (bjornw@axis.com)
*
* This file contains the interrupt vectors and some
* This file contains the interrupt vectors and some
* helper functions
*
*/
@ -182,19 +182,14 @@ void do_multiple_IRQ(struct pt_regs* regs)
setting the irq vector table.
*/
void __init
init_IRQ(void)
void __init init_IRQ(void)
{
int i;
/* clear all interrupt masks */
#ifndef CONFIG_SVINTO_SIM
*R_IRQ_MASK0_CLR = 0xffffffff;
*R_IRQ_MASK1_CLR = 0xffffffff;
*R_IRQ_MASK2_CLR = 0xffffffff;
#endif
*R_VECT_MASK_CLR = 0xffffffff;
for (i = 0; i < 256; i++)
@ -211,25 +206,20 @@ init_IRQ(void)
executed by the associated break handler, rather than just a jump
address. therefore we need to setup a default breakpoint handler
for all breakpoints */
for (i = 0; i < 16; i++)
set_break_vector(i, do_sigtrap);
/* except IRQ 15 which is the multiple-IRQ handler on Etrax100 */
set_int_vector(15, multiple_interrupt);
/* 0 and 1 which are special breakpoint/NMI traps */
/* 0 and 1 which are special breakpoint/NMI traps */
set_int_vector(0, hwbreakpoint);
set_int_vector(1, IRQ1_interrupt);
/* and irq 14 which is the mmu bus fault handler */
set_int_vector(14, mmu_bus_fault);
/* setup the system-call trap, which is reached by BREAK 13 */
set_break_vector(13, system_call);
/* setup a breakpoint handler for debugging used for both user and

Просмотреть файл

@ -14,7 +14,6 @@
#include <linux/slab.h>
#include <linux/err.h>
#include <linux/fs.h>
#include <arch/svinto.h>
#include <linux/init.h>
#include <arch/system.h>
#include <linux/ptrace.h>
@ -56,14 +55,14 @@ void hard_reset_now (void)
* code to know about it than the watchdog handler in entry.S and
* this code, implementing hard reset through the watchdog.
*/
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#if defined(CONFIG_ETRAX_WATCHDOG)
extern int cause_of_death;
#endif
printk("*** HARD RESET ***\n");
local_irq_disable();
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#if defined(CONFIG_ETRAX_WATCHDOG)
cause_of_death = 0xbedead;
#else
/* Since we dont plan to keep on resetting the watchdog,

Просмотреть файл

@ -14,7 +14,6 @@
#include <linux/sched.h>
#include <linux/init.h>
#include <linux/mm.h>
#include <arch/svinto.h>
#include <asm/types.h>
#include <asm/signal.h>
#include <asm/io.h>
@ -34,7 +33,7 @@ unsigned long get_ns_in_jiffie(void)
local_irq_save(flags);
timer_count = *R_TIMER0_DATA;
presc_count = *R_TIM_PRESC_STATUS;
presc_count = *R_TIM_PRESC_STATUS;
/* presc_count might be wrapped */
t1 = *R_TIMER0_DATA;
@ -50,7 +49,7 @@ unsigned long get_ns_in_jiffie(void)
presc_count = PRESCALE_VALUE - presc_count - PRESCALE_VALUE/2;
}
ns = ( (TIMER0_DIV - timer_count) * ((1000000000/HZ)/TIMER0_DIV )) +
ns = ( (TIMER0_DIV - timer_count) * ((1000000000/HZ)/TIMER0_DIV )) +
( (presc_count) * (1000000000/PRESCALE_FREQ));
return ns;
}
@ -80,7 +79,7 @@ static u32 cris_v10_gettimeoffset(void)
* by the R_WATCHDOG register. The R_WATCHDOG register contains an enable bit
* and a 3-bit key value. The effect of writing to the R_WATCHDOG register is
* described in the table below:
*
*
* Watchdog Value written:
* state: To enable: To key: Operation:
* -------- ---------- ------- ----------
@ -89,15 +88,15 @@ static u32 cris_v10_gettimeoffset(void)
* started 0 ~key Stop watchdog
* started 1 ~key Restart watchdog with key = ~key.
* started X new_key_val Change key to new_key_val.
*
*
* Note: '~' is the bitwise NOT operator.
*
*
*/
/* right now, starting the watchdog is the same as resetting it */
#define start_watchdog reset_watchdog
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#ifdef CONFIG_ETRAX_WATCHDOG
static int watchdog_key = 0; /* arbitrary number */
#endif
@ -107,10 +106,9 @@ static int watchdog_key = 0; /* arbitrary number */
#define WATCHDOG_MIN_FREE_PAGES 8
void
reset_watchdog(void)
void reset_watchdog(void)
{
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#if defined(CONFIG_ETRAX_WATCHDOG)
/* only keep watchdog happy as long as we have memory left! */
if(nr_free_pages() > WATCHDOG_MIN_FREE_PAGES) {
/* reset the watchdog with the inverse of the old key */
@ -123,28 +121,23 @@ reset_watchdog(void)
/* stop the watchdog - we still need the correct key */
void
stop_watchdog(void)
void stop_watchdog(void)
{
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#ifdef CONFIG_ETRAX_WATCHDOG
watchdog_key ^= 0x7; /* invert key, which is 3 bits */
*R_WATCHDOG = IO_FIELD(R_WATCHDOG, key, watchdog_key) |
IO_STATE(R_WATCHDOG, enable, stop);
#endif
#endif
}
extern void cris_do_profile(struct pt_regs *regs);
/*
* timer_interrupt() needs to keep up the real-time clock,
* as well as call the "xtime_update()" routine every clocktick
*/
//static unsigned short myjiff; /* used by our debug routine print_timestamp */
extern void cris_do_profile(struct pt_regs *regs);
static inline irqreturn_t
timer_interrupt(int irq, void *dev_id)
static inline irqreturn_t timer_interrupt(int irq, void *dev_id)
{
struct pt_regs *regs = get_irq_regs();
/* acknowledge the timer irq */
@ -160,44 +153,39 @@ timer_interrupt(int irq, void *dev_id)
IO_STATE( R_TIMER_CTRL, tm0, run) |
IO_STATE( R_TIMER_CTRL, clksel0, c6250kHz);
#else
*R_TIMER_CTRL = r_timer_ctrl_shadow |
IO_STATE(R_TIMER_CTRL, i0, clr);
*R_TIMER_CTRL = r_timer_ctrl_shadow | IO_STATE(R_TIMER_CTRL, i0, clr);
#endif
/* reset watchdog otherwise it resets us! */
reset_watchdog();
/* Update statistics. */
update_process_times(user_mode(regs));
/* call the real timer interrupt handler */
xtime_update(1);
cris_do_profile(regs); /* Save profiling information */
return IRQ_HANDLED;
}
/* timer is IRQF_SHARED so drivers can add stuff to the timer irq chain
* it needs to be IRQF_DISABLED to make the jiffies update work properly
*/
/* timer is IRQF_SHARED so drivers can add stuff to the timer irq chain */
static struct irqaction irq2 = {
.handler = timer_interrupt,
.flags = IRQF_SHARED | IRQF_DISABLED,
.flags = IRQF_SHARED,
.name = "timer",
};
void __init
time_init(void)
{
void __init time_init(void)
{
arch_gettimeoffset = cris_v10_gettimeoffset;
/* probe for the RTC and read it if it exists
* Before the RTC can be probed the loops_per_usec variable needs
* to be initialized to make usleep work. A better value for
* loops_per_usec is calculated by the kernel later once the
* clock has started.
/* probe for the RTC and read it if it exists
* Before the RTC can be probed the loops_per_usec variable needs
* to be initialized to make usleep work. A better value for
* loops_per_usec is calculated by the kernel later once the
* clock has started.
*/
loops_per_usec = 50;
@ -208,7 +196,7 @@ time_init(void)
* Remember that linux/timex.h contains #defines that rely on the
* timer settings below (hz and divide factor) !!!
*/
#ifdef USE_CASCADE_TIMERS
*R_TIMER_CTRL =
IO_FIELD( R_TIMER_CTRL, timerdiv1, 0) |
@ -219,8 +207,8 @@ time_init(void)
IO_STATE( R_TIMER_CTRL, i0, nop) |
IO_STATE( R_TIMER_CTRL, tm0, stop_ld) |
IO_STATE( R_TIMER_CTRL, clksel0, c6250kHz);
*R_TIMER_CTRL = r_timer_ctrl_shadow =
*R_TIMER_CTRL = r_timer_ctrl_shadow =
IO_FIELD( R_TIMER_CTRL, timerdiv1, 0) |
IO_FIELD( R_TIMER_CTRL, timerdiv0, 0) |
IO_STATE( R_TIMER_CTRL, i1, nop) |
@ -230,18 +218,18 @@ time_init(void)
IO_STATE( R_TIMER_CTRL, tm0, run) |
IO_STATE( R_TIMER_CTRL, clksel0, c6250kHz);
#else
*R_TIMER_CTRL =
IO_FIELD(R_TIMER_CTRL, timerdiv1, 192) |
*R_TIMER_CTRL =
IO_FIELD(R_TIMER_CTRL, timerdiv1, 192) |
IO_FIELD(R_TIMER_CTRL, timerdiv0, TIMER0_DIV) |
IO_STATE(R_TIMER_CTRL, i1, nop) |
IO_STATE(R_TIMER_CTRL, i1, nop) |
IO_STATE(R_TIMER_CTRL, tm1, stop_ld) |
IO_STATE(R_TIMER_CTRL, clksel1, c19k2Hz) |
IO_STATE(R_TIMER_CTRL, i0, nop) |
IO_STATE(R_TIMER_CTRL, tm0, stop_ld) |
IO_STATE(R_TIMER_CTRL, clksel0, flexible);
*R_TIMER_CTRL = r_timer_ctrl_shadow =
IO_FIELD(R_TIMER_CTRL, timerdiv1, 192) |
IO_FIELD(R_TIMER_CTRL, timerdiv1, 192) |
IO_FIELD(R_TIMER_CTRL, timerdiv0, TIMER0_DIV) |
IO_STATE(R_TIMER_CTRL, i1, nop) |
IO_STATE(R_TIMER_CTRL, tm1, run) |
@ -253,16 +241,14 @@ time_init(void)
*R_TIMER_PRESCALE = PRESCALE_VALUE;
#endif
*R_IRQ_MASK0_SET =
IO_STATE(R_IRQ_MASK0_SET, timer0, set); /* unmask the timer irq */
/* now actually register the timer irq handler that calls timer_interrupt() */
/* unmask the timer irq */
*R_IRQ_MASK0_SET = IO_STATE(R_IRQ_MASK0_SET, timer0, set);
/* now actually register the irq handler that calls timer_interrupt() */
setup_irq(2, &irq2); /* irq 2 is the timer0 irq in etrax */
/* enable watchdog if we should use one */
#if defined(CONFIG_ETRAX_WATCHDOG) && !defined(CONFIG_SVINTO_SIM)
#if defined(CONFIG_ETRAX_WATCHDOG)
printk("Enabling watchdog...\n");
start_watchdog();
@ -275,9 +261,7 @@ time_init(void)
driver or infrastructure support yet. */
asm ("setf m");
*R_IRQ_MASK0_SET =
IO_STATE(R_IRQ_MASK0_SET, watchdog_nmi, set);
*R_VECT_MASK_SET =
IO_STATE(R_VECT_MASK_SET, nmi, set);
*R_IRQ_MASK0_SET = IO_STATE(R_IRQ_MASK0_SET, watchdog_nmi, set);
*R_VECT_MASK_SET = IO_STATE(R_VECT_MASK_SET, nmi, set);
#endif
}

Просмотреть файл

@ -5,9 +5,7 @@
* Note: This file may not modify r9 because r9 is used to carry
* information from the decompresser to the kernel
*
* Copyright (C) 2000, 2001 Axis Communications AB
*
* Authors: Mikael Starvik (starvik@axis.com)
* Copyright (C) 2000-2012 Axis Communications AB
*
*/
@ -18,16 +16,15 @@
;; WARNING! The registers r8 and r9 are used as parameters carrying
;; information from the decompressor (if the kernel was compressed).
;; information from the decompressor (if the kernel was compressed).
;; They should not be used in the code below.
#ifndef CONFIG_SVINTO_SIM
move.d CONFIG_ETRAX_DEF_R_WAITSTATES, $r0
move.d $r0, [R_WAITSTATES]
move.d CONFIG_ETRAX_DEF_R_BUS_CONFIG, $r0
move.d $r0, [R_BUS_CONFIG]
#ifndef CONFIG_ETRAX_SDRAM
move.d CONFIG_ETRAX_DEF_R_DRAM_CONFIG, $r0
move.d $r0, [R_DRAM_CONFIG]
@ -38,14 +35,14 @@
;; Samsung SDRAMs seem to require to be initialized twice to work properly.
moveq 2, $r6
_sdram_init:
; Refer to ETRAX 100LX Designers Reference for a description of SDRAM initialization
; Bank configuration
move.d CONFIG_ETRAX_DEF_R_SDRAM_CONFIG, $r0
move.d $r0, [R_SDRAM_CONFIG]
; Calculate value of mrs_data
; Calculate value of mrs_data
; CAS latency = 2 && bus_width = 32 => 0x40
; CAS latency = 3 && bus_width = 32 => 0x60
; CAS latency = 2 && bus_width = 16 => 0x20
@ -56,22 +53,22 @@ _sdram_init:
and.d 0x00ff0000, $r2
bne _set_timing
lsrq 16, $r2
move.d 0x40, $r2 ; Assume 32 bits and CAS latency = 2
move.d CONFIG_ETRAX_DEF_R_SDRAM_TIMING, $r1
move.d $r1, $r3
and.d 0x03, $r1 ; Get CAS latency
and.d 0x03, $r1 ; Get CAS latency
and.d 0x1000, $r3 ; 50 or 100 MHz?
beq _speed_50
nop
_speed_100:
_speed_100:
cmp.d 0x00, $r1 ; CAS latency = 2?
beq _bw_check
nop
or.d 0x20, $r2 ; CAS latency = 3
or.d 0x20, $r2 ; CAS latency = 3
ba _bw_check
nop
_speed_50:
_speed_50:
cmp.d 0x01, $r1 ; CAS latency = 2?
beq _bw_check
nop
@ -86,19 +83,19 @@ _bw_check:
; Set timing parameters. Starts master clock
_set_timing:
move.d CONFIG_ETRAX_DEF_R_SDRAM_TIMING, $r1
and.d 0x8000f9ff, $r1 ; Make sure mrs data and command is 0
and.d 0x8000f9ff, $r1 ; Make sure mrs data and command is 0
or.d 0x80000000, $r1 ; Make sure sdram enable bit is set
move.d $r1, $r5
or.d 0x0000c000, $r1 ; ref = disable
lslq 16, $r2 ; mrs data starts at bit 16
or.d $r2, $r1
move.d $r1, [R_SDRAM_TIMING]
or.d $r2, $r1
move.d $r1, [R_SDRAM_TIMING]
; Wait 200us
move.d 10000, $r2
1: bne 1b
subq 1, $r2
; Issue initialization command sequence
move.d _sdram_commands_start, $r2
and.d 0x000fffff, $r2 ; Make sure commands are read from flash
@ -144,7 +141,6 @@ _sdram_commands_start:
.byte 2 ; refresh
.byte 0 ; nop
.byte 1 ; mrs
.byte 0 ; nop
_sdram_commands_end:
#endif
.byte 0 ; nop
_sdram_commands_end:
#endif

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@ -978,7 +978,7 @@ static int __init gpio_init(void)
CRIS_LED_DISK_WRITE(0);
int res2 = request_irq(GIO_INTR_VECT, gpio_interrupt,
IRQF_SHARED | IRQF_DISABLED, "gpio", &alarmlist);
IRQF_SHARED, "gpio", &alarmlist);
if (res2) {
printk(KERN_ERR "err: irq for gpio\n");
return res2;

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@ -964,11 +964,11 @@ gpio_init(void)
* in some tests.
*/
if (request_irq(TIMER0_INTR_VECT, gpio_poll_timer_interrupt,
IRQF_SHARED | IRQF_DISABLED, "gpio poll", &alarmlist))
IRQF_SHARED, "gpio poll", &alarmlist))
printk(KERN_ERR "timer0 irq for gpio\n");
if (request_irq(GIO_INTR_VECT, gpio_pa_interrupt,
IRQF_SHARED | IRQF_DISABLED, "gpio PA", &alarmlist))
IRQF_SHARED, "gpio PA", &alarmlist))
printk(KERN_ERR "PA irq for gpio\n");
#ifdef CONFIG_ETRAX_VIRTUAL_GPIO

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@ -19,6 +19,7 @@
#include <linux/init.h>
#include <linux/timer.h>
#include <linux/spinlock.h>
#include <linux/wait.h>
#include <asm/io.h>
#include <dma.h>
@ -1144,7 +1145,8 @@ static ssize_t sync_serial_read(struct file * file, char * buf,
if (file->f_flags & O_NONBLOCK)
return -EAGAIN;
interruptible_sleep_on(&port->in_wait_q);
wait_event_interruptible(port->in_wait_q,
!(start == end && !port->full));
if (signal_pending(current))
return -EINTR;

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@ -424,7 +424,7 @@ nmi_interrupt:
bpl 1f
nop
jsr handle_watchdog_bite ; In time.c.
move.d $sp, $r10 ; Pointer to registers
move.d $sp, $r10 ; Pointer to registers
1: btstq REG_BIT(intr_vect, r_nmi, ext), $r0
bpl 1f
nop
@ -452,7 +452,7 @@ spurious_interrupt:
nop
;; This handles the case when multiple interrupts arrive at the same
;; time. Jump to the first set interrupt bit in a priotiry fashion. The
;; time. Jump to the first set interrupt bit in a priority fashion. The
;; hardware will call the unserved interrupts after the handler
;; finishes.
.type multiple_interrupt, @function
@ -885,13 +885,29 @@ sys_call_table:
.long sys_preadv
.long sys_pwritev
.long sys_setns /* 335 */
.long sys_name_to_handle_at
.long sys_open_by_handle_at
.long sys_rt_tgsigqueueinfo
.long sys_perf_event_open
.long sys_recvmmsg /* 340 */
.long sys_accept4
.long sys_fanotify_init
.long sys_fanotify_mark
.long sys_prlimit64
.long sys_clock_adjtime /* 345 */
.long sys_syncfs
.long sys_sendmmsg
.long sys_process_vm_readv
.long sys_process_vm_writev
.long sys_kcmp /* 350 */
.long sys_finit_module
/*
* NOTE!! This doesn't have to be exact - we just have
* to make sure we have _enough_ of the "sys_ni_syscall"
* entries. Don't panic if you notice that this hasn't
* been shrunk every time we add a new system call.
*/
/*
* NOTE!! This doesn't have to be exact - we just have
* to make sure we have _enough_ of the "sys_ni_syscall"
* entries. Don't panic if you notice that this hasn't
* been shrunk every time we add a new system call.
*/
.rept NR_syscalls - (.-sys_call_table) / 4
.long sys_ni_syscall

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@ -786,7 +786,7 @@ int fast_timer_init(void)
proc_create("fasttimer", 0, NULL, &proc_fasttimer_fops);
#endif /* PROC_FS */
if (request_irq(TIMER0_INTR_VECT, timer_trig_interrupt,
IRQF_SHARED | IRQF_DISABLED,
IRQF_SHARED,
"fast timer int", &fast_timer_list))
printk(KERN_ERR "err: fasttimer irq\n");
fast_timer_is_init = 1;

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@ -331,11 +331,11 @@ extern void do_IRQ(int irq, struct pt_regs * regs);
void
crisv32_do_IRQ(int irq, int block, struct pt_regs* regs)
{
/* Interrupts that may not be moved to another CPU and
* are IRQF_DISABLED may skip blocking. This is currently
* only valid for the timer IRQ and the IPI and is used
* for the timer interrupt to avoid watchdog starvation.
*/
/* Interrupts that may not be moved to another CPU may
* skip blocking. This is currently only valid for the
* timer IRQ and the IPI and is used for the timer
* interrupt to avoid watchdog starvation.
*/
if (!block) {
do_IRQ(irq, regs);
return;

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@ -64,7 +64,7 @@ static irqreturn_t crisv32_ipi_interrupt(int irq, void *dev_id);
static int send_ipi(int vector, int wait, cpumask_t cpu_mask);
static struct irqaction irq_ipi = {
.handler = crisv32_ipi_interrupt,
.flags = IRQF_DISABLED,
.flags = 0,
.name = "ipi",
};

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@ -216,12 +216,10 @@ static inline irqreturn_t timer_interrupt(int irq, void *dev_id)
return IRQ_HANDLED;
}
/* Timer is IRQF_SHARED so drivers can add stuff to the timer irq chain.
* It needs to be IRQF_DISABLED to make the jiffies update work properly.
*/
/* Timer is IRQF_SHARED so drivers can add stuff to the timer irq chain. */
static struct irqaction irq_timer = {
.handler = timer_interrupt,
.flags = IRQF_SHARED | IRQF_DISABLED,
.flags = IRQF_SHARED,
.name = "timer"
};

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@ -256,11 +256,11 @@ static void crisv32_arbiter_init(void)
crisv32_arbiter_config(1, EXT_REGION, 0);
if (request_irq(MEMARB_FOO_INTR_VECT, crisv32_foo_arbiter_irq,
IRQF_DISABLED, "arbiter", NULL))
0, "arbiter", NULL))
printk(KERN_ERR "Couldn't allocate arbiter IRQ\n");
if (request_irq(MEMARB_BAR_INTR_VECT, crisv32_bar_arbiter_irq,
IRQF_DISABLED, "arbiter", NULL))
0, "arbiter", NULL))
printk(KERN_ERR "Couldn't allocate arbiter IRQ\n");
#ifndef CONFIG_ETRAX_KGDB

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@ -184,7 +184,7 @@ static void crisv32_arbiter_init(void)
crisv32_arbiter_config(EXT_REGION, 0);
crisv32_arbiter_config(INT_REGION, 0);
if (request_irq(MEMARB_INTR_VECT, crisv32_arbiter_irq, IRQF_DISABLED,
if (request_irq(MEMARB_INTR_VECT, crisv32_arbiter_irq, 0,
"arbiter", NULL))
printk(KERN_ERR "Couldn't allocate arbiter IRQ\n");

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@ -50,7 +50,6 @@
nop
di
#ifndef CONFIG_SVINTO_SIM
;; setup port PA and PB default initial directions and data
;; (so we can flash LEDs, and so that DTR and others are set)
@ -67,7 +66,6 @@
;; We need to setup the bus registers before we start using the DRAM
#include "../../lib/dram_init.S"
#endif
;; Setup the stack to a suitably high address.
;; We assume 8 MB is the minimum DRAM in an eLinux
;; product and put the sp at the top for now.

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@ -1,8 +1,6 @@
#ifndef _ASM_ARCH_CRIS_IO_H
#define _ASM_ARCH_CRIS_IO_H
#include <arch/svinto.h>
/* Etrax shadow registers - which live in arch/cris/kernel/shadows.c */
extern unsigned long gen_config_ii_shadow;
@ -34,7 +32,7 @@ extern volatile unsigned long *port_csp4_addr;
/* The LED's on various Etrax-based products are set differently. */
#if defined(CONFIG_ETRAX_NO_LEDS) || defined(CONFIG_SVINTO_SIM)
#if defined(CONFIG_ETRAX_NO_LEDS)
#undef CONFIG_ETRAX_PA_LEDS
#undef CONFIG_ETRAX_PB_LEDS
#undef CONFIG_ETRAX_CSP0_LEDS
@ -171,29 +169,4 @@ extern volatile unsigned long *port_csp4_addr;
#define SOFT_SHUTDOWN()
#endif
/* Console I/O for simulated etrax100. Use #ifdef so erroneous
use will be evident. */
#ifdef CONFIG_SVINTO_SIM
/* Let's use the ucsim interface since it lets us do write(2, ...) */
#define SIMCOUT(s,len) \
asm ("moveq 4,$r9 \n\t" \
"moveq 2,$r10 \n\t" \
"move.d %0,$r11 \n\t" \
"move.d %1,$r12 \n\t" \
"push $irp \n\t" \
"move 0f,$irp \n\t" \
"jump -6809 \n" \
"0: \n\t" \
"pop $irp" \
: : "rm" (s), "rm" (len) : "r9","r10","r11","r12","memory")
#define TRACE_ON() __extension__ \
({ int _Foofoo; __asm__ volatile ("bmod [%0],%0" : "=r" (_Foofoo) : "0" \
(255)); _Foofoo; })
#define TRACE_OFF() do { __asm__ volatile ("bmod [%0],%0" :: "r" (254)); } while (0)
#define SIM_END() do { __asm__ volatile ("bmod [%0],%0" :: "r" (28)); } while (0)
#define CRIS_CYCLES() __extension__ \
({ unsigned long c; asm ("bmod [%1],%0" : "=r" (c) : "r" (27)); c;})
#endif /* ! defined CONFIG_SVINTO_SIM */
#endif

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@ -141,9 +141,9 @@ __asm__ ( \
* handler is run and it prioritizes the timer interrupt. However if we had BLOCK'ed
* it here, we would not get the multiple_irq at all.
*
* The non-blocking here is based on the knowledge that the timer interrupt is
* registered as a fast interrupt (IRQF_DISABLED) so that we _know_ there will not
* be an sti() before the timer irq handler is run to acknowledge the interrupt.
* The non-blocking here is based on the knowledge that the timer interrupt runs
* with interrupts disabled, and therefore there will not be an sti() before the
* timer irq handler is run to acknowledge the interrupt.
*/
#define BUILD_TIMER_IRQ(nr,mask) \

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@ -102,9 +102,9 @@ __asm__ ( \
* multiple_irq handler is run and it prioritizes the timer interrupt. However
* if we had BLOCK'edit here, we would not get the multiple_irq at all.
*
* The non-blocking here is based on the knowledge that the timer interrupt is
* registered as a fast interrupt (IRQF_DISABLED) so that we _know_ there will not
* be an sti() before the timer irq handler is run to acknowledge the interrupt.
* The non-blocking here is based on the knowledge that the timer interrupt runs
* with interrupts disabled, and therefore there will not be an sti() before the
* timer irq handler is run to acknowledge the interrupt.
*/
#define BUILD_TIMER_IRQ(nr, mask) \
void IRQ_NAME(nr); \

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@ -4,7 +4,7 @@
#include <uapi/asm/unistd.h>
#define NR_syscalls 336
#define NR_syscalls 360
#include <arch/unistd.h>

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@ -340,5 +340,21 @@
#define __NR_preadv 333
#define __NR_pwritev 334
#define __NR_setns 335
#define __NR_name_to_handle_at 336
#define __NR_open_by_handle_at 337
#define __NR_rt_tgsigqueueinfo 338
#define __NR_perf_event_open 339
#define __NR_recvmmsg 340
#define __NR_accept4 341
#define __NR_fanotify_init 342
#define __NR_fanotify_mark 343
#define __NR_prlimit64 344
#define __NR_clock_adjtime 345
#define __NR_syncfs 346
#define __NR_sendmmsg 347
#define __NR_process_vm_readv 348
#define __NR_process_vm_writev 349
#define __NR_kcmp 350
#define __NR_finit_module 351
#endif /* _UAPI_ASM_CRIS_UNISTD_H_ */

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@ -40,9 +40,6 @@
/* called by the assembler IRQ entry functions defined in irq.h
* to dispatch the interrupts to registered handlers
* interrupts are disabled upon entry - depending on if the
* interrupt was registered with IRQF_DISABLED or not, interrupts
* are re-enabled or not.
*/
asmlinkage void do_IRQ(int irq, struct pt_regs * regs)