sparc64: Fix register corruption in top-most kernel stack frame during boot.
Meelis Roos reported that kernels built with gcc-4.9 do not boot, we eventually narrowed this down to only impacting machines using UltraSPARC-III and derivitive cpus. The crash happens right when the first user process is spawned: [ 54.451346] Kernel panic - not syncing: Attempted to kill init! exitcode=0x00000004 [ 54.451346] [ 54.571516] CPU: 1 PID: 1 Comm: init Not tainted 3.16.0-rc2-00211-gd7933ab #96 [ 54.666431] Call Trace: [ 54.698453] [0000000000762f8c] panic+0xb0/0x224 [ 54.759071] [000000000045cf68] do_exit+0x948/0x960 [ 54.823123] [000000000042cbc0] fault_in_user_windows+0xe0/0x100 [ 54.902036] [0000000000404ad0] __handle_user_windows+0x0/0x10 [ 54.978662] Press Stop-A (L1-A) to return to the boot prom [ 55.050713] ---[ end Kernel panic - not syncing: Attempted to kill init! exitcode=0x00000004 Further investigation showed that compiling only per_cpu_patch() with an older compiler fixes the boot. Detailed analysis showed that the function is not being miscompiled by gcc-4.9, but it is using a different register allocation ordering. With the gcc-4.9 compiled function, something during the code patching causes some of the %i* input registers to get corrupted. Perhaps we have a TLB miss path into the firmware that is deep enough to cause a register window spill and subsequent restore when we get back from the TLB miss trap. Let's plug this up by doing two things: 1) Stop using the firmware stack for client interface calls into the firmware. Just use the kernel's stack. 2) As soon as we can, call into a new function "start_early_boot()" to put a one-register-window buffer between the firmware's deepest stack frame and the top-most initial kernel one. Reported-by: Meelis Roos <mroos@linux.ee> Tested-by: Meelis Roos <mroos@linux.ee> Signed-off-by: David S. Miller <davem@davemloft.net>
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@ -62,7 +62,8 @@ struct linux_mem_p1275 {
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/* You must call prom_init() before using any of the library services,
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* preferably as early as possible. Pass it the romvec pointer.
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*/
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void prom_init(void *cif_handler, void *cif_stack);
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void prom_init(void *cif_handler);
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void prom_init_report(void);
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/* Boot argument acquisition, returns the boot command line string. */
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char *prom_getbootargs(void);
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@ -48,6 +48,8 @@ unsigned long safe_compute_effective_address(struct pt_regs *, unsigned int);
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#endif
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#ifdef CONFIG_SPARC64
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void __init start_early_boot(void);
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/* unaligned_64.c */
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int handle_ldf_stq(u32 insn, struct pt_regs *regs);
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void handle_ld_nf(u32 insn, struct pt_regs *regs);
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@ -65,13 +65,10 @@ struct pause_patch_entry {
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extern struct pause_patch_entry __pause_3insn_patch,
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__pause_3insn_patch_end;
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void __init per_cpu_patch(void);
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void sun4v_patch_1insn_range(struct sun4v_1insn_patch_entry *,
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struct sun4v_1insn_patch_entry *);
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void sun4v_patch_2insn_range(struct sun4v_2insn_patch_entry *,
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struct sun4v_2insn_patch_entry *);
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void __init sun4v_patch(void);
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void __init boot_cpu_id_too_large(int cpu);
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extern unsigned int dcache_parity_tl1_occurred;
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extern unsigned int icache_parity_tl1_occurred;
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@ -672,14 +672,12 @@ tlb_fixup_done:
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sethi %hi(init_thread_union), %g6
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or %g6, %lo(init_thread_union), %g6
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ldx [%g6 + TI_TASK], %g4
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mov %sp, %l6
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wr %g0, ASI_P, %asi
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mov 1, %g1
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sllx %g1, THREAD_SHIFT, %g1
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sub %g1, (STACKFRAME_SZ + STACK_BIAS), %g1
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add %g6, %g1, %sp
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mov 0, %fp
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/* Set per-cpu pointer initially to zero, this makes
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* the boot-cpu use the in-kernel-image per-cpu areas
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@ -706,44 +704,14 @@ tlb_fixup_done:
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nop
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#endif
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mov %l6, %o1 ! OpenPROM stack
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call prom_init
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mov %l7, %o0 ! OpenPROM cif handler
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/* Initialize current_thread_info()->cpu as early as possible.
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* In order to do that accurately we have to patch up the get_cpuid()
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* assembler sequences. And that, in turn, requires that we know
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* if we are on a Starfire box or not. While we're here, patch up
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* the sun4v sequences as well.
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/* To create a one-register-window buffer between the kernel's
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* initial stack and the last stack frame we use from the firmware,
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* do the rest of the boot from a C helper function.
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*/
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call check_if_starfire
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nop
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call per_cpu_patch
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nop
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call sun4v_patch
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nop
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#ifdef CONFIG_SMP
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call hard_smp_processor_id
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nop
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cmp %o0, NR_CPUS
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blu,pt %xcc, 1f
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nop
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call boot_cpu_id_too_large
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nop
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/* Not reached... */
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1:
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#else
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mov 0, %o0
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#endif
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sth %o0, [%g6 + TI_CPU]
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call prom_init_report
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nop
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/* Off we go.... */
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call start_kernel
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call start_early_boot
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nop
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/* Not reached... */
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@ -109,7 +109,6 @@ hv_cpu_startup:
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sllx %g5, THREAD_SHIFT, %g5
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sub %g5, (STACKFRAME_SZ + STACK_BIAS), %g5
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add %g6, %g5, %sp
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mov 0, %fp
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call init_irqwork_curcpu
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nop
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@ -30,6 +30,7 @@
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#include <linux/cpu.h>
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#include <linux/initrd.h>
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#include <linux/module.h>
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#include <linux/start_kernel.h>
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#include <asm/io.h>
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#include <asm/processor.h>
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@ -162,7 +163,7 @@ char reboot_command[COMMAND_LINE_SIZE];
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static struct pt_regs fake_swapper_regs = { { 0, }, 0, 0, 0, 0 };
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void __init per_cpu_patch(void)
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static void __init per_cpu_patch(void)
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{
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struct cpuid_patch_entry *p;
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unsigned long ver;
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@ -254,7 +255,7 @@ void sun4v_patch_2insn_range(struct sun4v_2insn_patch_entry *start,
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}
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}
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void __init sun4v_patch(void)
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static void __init sun4v_patch(void)
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{
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extern void sun4v_hvapi_init(void);
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@ -323,14 +324,25 @@ static void __init pause_patch(void)
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}
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}
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#ifdef CONFIG_SMP
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void __init boot_cpu_id_too_large(int cpu)
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void __init start_early_boot(void)
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{
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prom_printf("Serious problem, boot cpu id (%d) >= NR_CPUS (%d)\n",
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cpu, NR_CPUS);
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prom_halt();
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int cpu;
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check_if_starfire();
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per_cpu_patch();
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sun4v_patch();
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cpu = hard_smp_processor_id();
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if (cpu >= NR_CPUS) {
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prom_printf("Serious problem, boot cpu id (%d) >= NR_CPUS (%d)\n",
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cpu, NR_CPUS);
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prom_halt();
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}
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current_thread_info()->cpu = cpu;
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prom_init_report();
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start_kernel();
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}
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#endif
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/* On Ultra, we support all of the v8 capabilities. */
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unsigned long sparc64_elf_hwcap = (HWCAP_SPARC_FLUSH | HWCAP_SPARC_STBAR |
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@ -109,10 +109,13 @@ startup_continue:
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brnz,pn %g1, 1b
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nop
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sethi %hi(p1275buf), %g2
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or %g2, %lo(p1275buf), %g2
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ldx [%g2 + 0x10], %l2
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add %l2, -(192 + 128), %sp
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/* Get onto temporary stack which will be in the locked
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* kernel image.
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*/
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sethi %hi(tramp_stack), %g1
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or %g1, %lo(tramp_stack), %g1
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add %g1, TRAMP_STACK_SIZE, %g1
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sub %g1, STACKFRAME_SZ + STACK_BIAS + 256, %sp
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flushw
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/* Setup the loop variables:
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@ -394,7 +397,6 @@ after_lock_tlb:
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sllx %g5, THREAD_SHIFT, %g5
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sub %g5, (STACKFRAME_SZ + STACK_BIAS), %g5
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add %g6, %g5, %sp
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mov 0, %fp
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rdpr %pstate, %o1
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or %o1, PSTATE_IE, %o1
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@ -11,11 +11,10 @@
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.text
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.globl prom_cif_direct
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prom_cif_direct:
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save %sp, -192, %sp
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sethi %hi(p1275buf), %o1
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or %o1, %lo(p1275buf), %o1
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ldx [%o1 + 0x0010], %o2 ! prom_cif_stack
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save %o2, -192, %sp
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ldx [%i1 + 0x0008], %l2 ! prom_cif_handler
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ldx [%o1 + 0x0008], %l2 ! prom_cif_handler
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mov %g4, %l0
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mov %g5, %l1
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mov %g6, %l3
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@ -26,13 +26,13 @@ phandle prom_chosen_node;
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* It gets passed the pointer to the PROM vector.
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*/
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extern void prom_cif_init(void *, void *);
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extern void prom_cif_init(void *);
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void __init prom_init(void *cif_handler, void *cif_stack)
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void __init prom_init(void *cif_handler)
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{
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phandle node;
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prom_cif_init(cif_handler, cif_stack);
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prom_cif_init(cif_handler);
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prom_chosen_node = prom_finddevice(prom_chosen_path);
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if (!prom_chosen_node || (s32)prom_chosen_node == -1)
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struct {
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long prom_callback; /* 0x00 */
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void (*prom_cif_handler)(long *); /* 0x08 */
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unsigned long prom_cif_stack; /* 0x10 */
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} p1275buf;
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extern void prom_world(int);
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@ -52,5 +51,4 @@ void p1275_cmd_direct(unsigned long *args)
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void prom_cif_init(void *cif_handler, void *cif_stack)
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{
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p1275buf.prom_cif_handler = (void (*)(long *))cif_handler;
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p1275buf.prom_cif_stack = (unsigned long)cif_stack;
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}
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