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d2397817f1
We've got a handy dandy macro already for calculating the number of elements in an array, so use it. Signed-off-by: Mike Frysinger <vapier@gentoo.org>
225 lines
4.2 KiB
C
225 lines
4.2 KiB
C
/*
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* (C) Copyright 2002
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* Wolfgang Denk, DENX Software Engineering, wd@denx.de.
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*
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* See file CREDITS for list of people who contributed to this
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* project.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of
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* the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
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* MA 02111-1307 USA
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*/
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#include <common.h>
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/*
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* CPU test
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* Ternary instructions instr rA,rS,rB
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*
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* Logic instructions: or, orc, xor, nand, nor, eqv
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* Shift instructions: slw, srw, sraw
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*
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* The test contains a pre-built table of instructions, operands and
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* expected results. For each table entry, the test will cyclically use
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* different sets of operand registers and result registers.
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*/
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#include <post.h>
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#include "cpu_asm.h"
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#if CONFIG_POST & CONFIG_SYS_POST_CPU
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extern void cpu_post_exec_22 (ulong *code, ulong *cr, ulong *res, ulong op1,
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ulong op2);
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extern ulong cpu_post_makecr (long v);
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static struct cpu_post_threex_s
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{
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ulong cmd;
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ulong op1;
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ulong op2;
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ulong res;
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} cpu_post_threex_table[] =
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{
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{
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OP_OR,
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0x1234,
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0x5678,
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0x1234 | 0x5678
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},
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{
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OP_ORC,
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0x1234,
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0x5678,
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0x1234 | ~0x5678
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},
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{
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OP_XOR,
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0x1234,
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0x5678,
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0x1234 ^ 0x5678
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},
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{
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OP_NAND,
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0x1234,
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0x5678,
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~(0x1234 & 0x5678)
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},
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{
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OP_NOR,
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0x1234,
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0x5678,
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~(0x1234 | 0x5678)
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},
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{
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OP_EQV,
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0x1234,
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0x5678,
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~(0x1234 ^ 0x5678)
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},
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{
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OP_SLW,
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0x80,
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16,
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0x800000
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},
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{
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OP_SLW,
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0x80,
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32,
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0
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},
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{
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OP_SRW,
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0x800000,
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16,
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0x80
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},
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{
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OP_SRW,
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0x800000,
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32,
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0
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},
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{
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OP_SRAW,
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0x80000000,
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3,
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0xf0000000
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},
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{
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OP_SRAW,
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0x8000,
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3,
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0x1000
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},
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};
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static unsigned int cpu_post_threex_size = ARRAY_SIZE(cpu_post_threex_table);
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int cpu_post_test_threex (void)
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{
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int ret = 0;
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unsigned int i, reg;
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int flag = disable_interrupts();
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for (i = 0; i < cpu_post_threex_size && ret == 0; i++)
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{
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struct cpu_post_threex_s *test = cpu_post_threex_table + i;
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for (reg = 0; reg < 32 && ret == 0; reg++)
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{
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unsigned int reg0 = (reg + 0) % 32;
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unsigned int reg1 = (reg + 1) % 32;
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unsigned int reg2 = (reg + 2) % 32;
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unsigned int stk = reg < 16 ? 31 : 15;
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unsigned long code[] =
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{
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ASM_STW(stk, 1, -4),
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ASM_ADDI(stk, 1, -24),
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ASM_STW(3, stk, 12),
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ASM_STW(4, stk, 16),
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ASM_STW(reg0, stk, 8),
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ASM_STW(reg1, stk, 4),
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ASM_STW(reg2, stk, 0),
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ASM_LWZ(reg1, stk, 12),
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ASM_LWZ(reg0, stk, 16),
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ASM_12X(test->cmd, reg2, reg1, reg0),
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ASM_STW(reg2, stk, 12),
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ASM_LWZ(reg2, stk, 0),
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ASM_LWZ(reg1, stk, 4),
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ASM_LWZ(reg0, stk, 8),
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ASM_LWZ(3, stk, 12),
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ASM_ADDI(1, stk, 24),
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ASM_LWZ(stk, 1, -4),
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ASM_BLR,
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};
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unsigned long codecr[] =
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{
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ASM_STW(stk, 1, -4),
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ASM_ADDI(stk, 1, -24),
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ASM_STW(3, stk, 12),
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ASM_STW(4, stk, 16),
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ASM_STW(reg0, stk, 8),
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ASM_STW(reg1, stk, 4),
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ASM_STW(reg2, stk, 0),
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ASM_LWZ(reg1, stk, 12),
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ASM_LWZ(reg0, stk, 16),
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ASM_12X(test->cmd, reg2, reg1, reg0) | BIT_C,
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ASM_STW(reg2, stk, 12),
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ASM_LWZ(reg2, stk, 0),
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ASM_LWZ(reg1, stk, 4),
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ASM_LWZ(reg0, stk, 8),
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ASM_LWZ(3, stk, 12),
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ASM_ADDI(1, stk, 24),
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ASM_LWZ(stk, 1, -4),
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ASM_BLR,
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};
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ulong res;
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ulong cr;
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if (ret == 0)
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{
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cr = 0;
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cpu_post_exec_22 (code, & cr, & res, test->op1, test->op2);
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ret = res == test->res && cr == 0 ? 0 : -1;
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if (ret != 0)
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{
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post_log ("Error at threex test %d !\n", i);
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}
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}
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if (ret == 0)
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{
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cpu_post_exec_22 (codecr, & cr, & res, test->op1, test->op2);
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ret = res == test->res &&
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(cr & 0xe0000000) == cpu_post_makecr (res) ? 0 : -1;
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if (ret != 0)
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{
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post_log ("Error at threex test %d !\n", i);
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}
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}
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}
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}
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if (flag)
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enable_interrupts();
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return ret;
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}
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#endif
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