post/lib_powerpc/cr.c - u-boot-mtk - Git at Google

 // SPDX-License-Identifier: GPL-2.0+
 /*
  * (C) Copyright 2002
  * Wolfgang Denk, DENX Software Engineering, wd@denx.de.
  */

 #include <common.h>

 /*
  * CPU test
  * Condition register istructions:	mtcr, mfcr, mcrxr,
  *					crand, crandc, cror, crorc, crxor,
  *					crnand, crnor, creqv, mcrf
  *
  * The mtcrf/mfcr instructions is tested by loading different
  * values into the condition register (mtcrf), moving its value
  * to a general-purpose register (mfcr) and comparing this value
  * with the expected one.
  * The mcrxr instruction is tested by loading a fixed value
  * into the XER register (mtspr), moving XER value to the
  * condition register (mcrxr), moving it to a general-purpose
  * register (mfcr) and comparing the value of this register with
  * the expected one.
  * The rest of instructions is tested by loading a fixed
  * value into the condition register (mtcrf), executing each
  * instruction several times to modify all 4-bit condition
  * fields, moving the value of the conditional register to a
  * general-purpose register (mfcr) and comparing it with the
  * expected one.
  */

 #include <post.h>
 #include "cpu_asm.h"

 #if CONFIG_POST & CONFIG_SYS_POST_CPU

 extern void cpu_post_exec_11 (ulong *code, ulong *res, ulong op1);
 extern void cpu_post_exec_21x (ulong *code, ulong *op1, ulong *op2, ulong op3);

 static ulong cpu_post_cr_table1[] =
 {
     0xaaaaaaaa,
     0x55555555,
 };
 static unsigned int cpu_post_cr_size1 = ARRAY_SIZE(cpu_post_cr_table1);

 static struct cpu_post_cr_s2 {
     ulong xer;
     ulong cr;
 } cpu_post_cr_table2[] =
 {
     {
 	0xa0000000,
 	1
     },
     {
 	0x40000000,
 	5
     },
 };
 static unsigned int cpu_post_cr_size2 = ARRAY_SIZE(cpu_post_cr_table2);

 static struct cpu_post_cr_s3 {
     ulong cr;
     ulong cs;
     ulong cd;
     ulong res;
 } cpu_post_cr_table3[] =
 {
     {
 	0x01234567,
 	0,
 	4,
 	0x01230567
     },
     {
 	0x01234567,
 	7,
 	0,
 	0x71234567
     },
 };
 static unsigned int cpu_post_cr_size3 = ARRAY_SIZE(cpu_post_cr_table3);

 static struct cpu_post_cr_s4 {
     ulong cmd;
     ulong cr;
     ulong op1;
     ulong op2;
     ulong op3;
     ulong res;
 } cpu_post_cr_table4[] =
 {
     {
 	OP_CRAND,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRAND,
 	0x0000ffff,
 	16,
 	17,
 	0,
 	0x8000ffff
     },
     {
 	OP_CRANDC,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRANDC,
 	0x0000ffff,
 	16,
 	0,
 	0,
 	0x8000ffff
     },
     {
 	OP_CROR,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x8000ffff
     },
     {
 	OP_CROR,
 	0x0000ffff,
 	0,
 	1,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRORC,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRORC,
 	0x0000ffff,
 	0,
 	0,
 	0,
 	0x8000ffff
     },
     {
 	OP_CRXOR,
 	0x0000ffff,
 	0,
 	0,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRXOR,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x8000ffff
     },
     {
 	OP_CRNAND,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x8000ffff
     },
     {
 	OP_CRNAND,
 	0x0000ffff,
 	16,
 	17,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRNOR,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x0000ffff
     },
     {
 	OP_CRNOR,
 	0x0000ffff,
 	0,
 	1,
 	0,
 	0x8000ffff
     },
     {
 	OP_CREQV,
 	0x0000ffff,
 	0,
 	0,
 	0,
 	0x8000ffff
     },
     {
 	OP_CREQV,
 	0x0000ffff,
 	0,
 	16,
 	0,
 	0x0000ffff
     },
 };
 static unsigned int cpu_post_cr_size4 = ARRAY_SIZE(cpu_post_cr_table4);

 int cpu_post_test_cr (void)
 {
     int ret = 0;
     unsigned int i;
     unsigned long cr_sav;
     int flag = disable_interrupts();

     asm ( "mfcr %0" : "=r" (cr_sav) : );

     for (i = 0; i < cpu_post_cr_size1 && ret == 0; i++)
     {
 	ulong cr = cpu_post_cr_table1[i];
 	ulong res;

 	unsigned long code[] =
 	{
 	    ASM_MTCR(3),
 	    ASM_MFCR(3),
 	    ASM_BLR,
 	};

 	cpu_post_exec_11 (code, &res, cr);

 	ret = res == cr ? 0 : -1;

 	if (ret != 0)
 	{
 	    post_log ("Error at cr1 test %d !\n", i);
 	}
     }

     for (i = 0; i < cpu_post_cr_size2 && ret == 0; i++)
     {
 	struct cpu_post_cr_s2 *test = cpu_post_cr_table2 + i;
 	ulong res;
 	ulong xer;

 	unsigned long code[] =
 	{
 	    ASM_MTXER(3),
 	    ASM_MCRXR(test->cr),
 	    ASM_MFCR(3),
 	    ASM_MFXER(4),
 	    ASM_BLR,
 	};

 	cpu_post_exec_21x (code, &res, &xer, test->xer);

 	ret = xer == 0 && ((res << (4 * test->cr)) & 0xe0000000) == test->xer ?
 	      0 : -1;

 	if (ret != 0)
 	{
 	    post_log ("Error at cr2 test %d !\n", i);
 	}
     }

     for (i = 0; i < cpu_post_cr_size3 && ret == 0; i++)
     {
 	struct cpu_post_cr_s3 *test = cpu_post_cr_table3 + i;
 	ulong res;

 	unsigned long code[] =
 	{
 	    ASM_MTCR(3),
 	    ASM_MCRF(test->cd, test->cs),
 	    ASM_MFCR(3),
 	    ASM_BLR,
 	};

 	cpu_post_exec_11 (code, &res, test->cr);

 	ret = res == test->res ? 0 : -1;

 	if (ret != 0)
 	{
 	    post_log ("Error at cr3 test %d !\n", i);
 	}
     }

     for (i = 0; i < cpu_post_cr_size4 && ret == 0; i++)
     {
 	struct cpu_post_cr_s4 *test = cpu_post_cr_table4 + i;
 	ulong res;

 	unsigned long code[] =
 	{
 	    ASM_MTCR(3),
 	    ASM_12F(test->cmd, test->op3, test->op1, test->op2),
 	    ASM_MFCR(3),
 	    ASM_BLR,
 	};

 	cpu_post_exec_11 (code, &res, test->cr);

 	ret = res == test->res ? 0 : -1;

 	if (ret != 0)
 	{
 	    post_log ("Error at cr4 test %d !\n", i);
 	}
     }

     asm ( "mtcr %0" : : "r" (cr_sav));

     if (flag)
 	enable_interrupts();

     return ret;
 }

 #endif
	// SPDX-License-Identifier: GPL-2.0+
	/*
	* (C) Copyright 2002
	* Wolfgang Denk, DENX Software Engineering, wd@denx.de.
	*/

	#include <common.h>

	/*
	* CPU test
	* Condition register istructions: mtcr, mfcr, mcrxr,
	* crand, crandc, cror, crorc, crxor,
	* crnand, crnor, creqv, mcrf
	*
	* The mtcrf/mfcr instructions is tested by loading different
	* values into the condition register (mtcrf), moving its value
	* to a general-purpose register (mfcr) and comparing this value
	* with the expected one.
	* The mcrxr instruction is tested by loading a fixed value
	* into the XER register (mtspr), moving XER value to the
	* condition register (mcrxr), moving it to a general-purpose
	* register (mfcr) and comparing the value of this register with
	* the expected one.
	* The rest of instructions is tested by loading a fixed
	* value into the condition register (mtcrf), executing each
	* instruction several times to modify all 4-bit condition
	* fields, moving the value of the conditional register to a
	* general-purpose register (mfcr) and comparing it with the
	* expected one.
	*/

	#include <post.h>
	#include "cpu_asm.h"

	#if CONFIG_POST & CONFIG_SYS_POST_CPU

	extern void cpu_post_exec_11 (ulong code, ulong res, ulong op1);
	extern void cpu_post_exec_21x (ulong code, ulong op1, ulong *op2, ulong op3);

	static ulong cpu_post_cr_table1[] =
	{
	0xaaaaaaaa,
	0x55555555,
	};
	static unsigned int cpu_post_cr_size1 = ARRAY_SIZE(cpu_post_cr_table1);

	static struct cpu_post_cr_s2 {
	ulong xer;
	ulong cr;
	} cpu_post_cr_table2[] =
	{
	{
	0xa0000000,
	1
	},
	{
	0x40000000,
	5
	},
	};
	static unsigned int cpu_post_cr_size2 = ARRAY_SIZE(cpu_post_cr_table2);

	static struct cpu_post_cr_s3 {
	ulong cr;
	ulong cs;
	ulong cd;
	ulong res;
	} cpu_post_cr_table3[] =
	{
	{
	0x01234567,
	0,
	4,
	0x01230567
	},
	{
	0x01234567,
	7,
	0,
	0x71234567
	},
	};
	static unsigned int cpu_post_cr_size3 = ARRAY_SIZE(cpu_post_cr_table3);

	static struct cpu_post_cr_s4 {
	ulong cmd;
	ulong cr;
	ulong op1;
	ulong op2;
	ulong op3;
	ulong res;
	} cpu_post_cr_table4[] =
	{
	{
	OP_CRAND,
	0x0000ffff,
	0,
	16,
	0,
	0x0000ffff
	},
	{
	OP_CRAND,
	0x0000ffff,
	16,
	17,
	0,
	0x8000ffff
	},
	{
	OP_CRANDC,
	0x0000ffff,
	0,
	16,
	0,
	0x0000ffff
	},
	{
	OP_CRANDC,
	0x0000ffff,
	16,
	0,
	0,
	0x8000ffff
	},
	{
	OP_CROR,
	0x0000ffff,
	0,
	16,
	0,
	0x8000ffff
	},
	{
	OP_CROR,
	0x0000ffff,
	0,
	1,
	0,
	0x0000ffff
	},
	{
	OP_CRORC,
	0x0000ffff,
	0,
	16,
	0,
	0x0000ffff
	},
	{
	OP_CRORC,
	0x0000ffff,
	0,
	0,
	0,
	0x8000ffff
	},
	{
	OP_CRXOR,
	0x0000ffff,
	0,
	0,
	0,
	0x0000ffff
	},
	{
	OP_CRXOR,
	0x0000ffff,
	0,
	16,
	0,
	0x8000ffff
	},
	{
	OP_CRNAND,
	0x0000ffff,
	0,
	16,
	0,
	0x8000ffff
	},
	{
	OP_CRNAND,
	0x0000ffff,
	16,
	17,
	0,
	0x0000ffff
	},
	{
	OP_CRNOR,
	0x0000ffff,
	0,
	16,
	0,
	0x0000ffff
	},
	{
	OP_CRNOR,
	0x0000ffff,
	0,
	1,
	0,
	0x8000ffff
	},
	{
	OP_CREQV,
	0x0000ffff,
	0,
	0,
	0,
	0x8000ffff
	},
	{
	OP_CREQV,
	0x0000ffff,
	0,
	16,
	0,
	0x0000ffff
	},
	};
	static unsigned int cpu_post_cr_size4 = ARRAY_SIZE(cpu_post_cr_table4);

	int cpu_post_test_cr (void)
	{
	int ret = 0;
	unsigned int i;
	unsigned long cr_sav;
	int flag = disable_interrupts();

	asm ( "mfcr %0" : "=r" (cr_sav) : );

	for (i = 0; i < cpu_post_cr_size1 && ret == 0; i++)
	{
	ulong cr = cpu_post_cr_table1[i];
	ulong res;

	unsigned long code[] =
	{
	ASM_MTCR(3),
	ASM_MFCR(3),
	ASM_BLR,
	};

	cpu_post_exec_11 (code, &res, cr);

	ret = res == cr ? 0 : -1;

	if (ret != 0)
	{
	post_log ("Error at cr1 test %d !\n", i);
	}
	}

	for (i = 0; i < cpu_post_cr_size2 && ret == 0; i++)
	{
	struct cpu_post_cr_s2 *test = cpu_post_cr_table2 + i;
	ulong res;
	ulong xer;

	unsigned long code[] =
	{
	ASM_MTXER(3),
	ASM_MCRXR(test->cr),
	ASM_MFCR(3),
	ASM_MFXER(4),
	ASM_BLR,
	};

	cpu_post_exec_21x (code, &res, &xer, test->xer);

	ret = xer == 0 && ((res << (4 * test->cr)) & 0xe0000000) == test->xer ?
	0 : -1;

	if (ret != 0)
	{
	post_log ("Error at cr2 test %d !\n", i);
	}
	}

	for (i = 0; i < cpu_post_cr_size3 && ret == 0; i++)
	{
	struct cpu_post_cr_s3 *test = cpu_post_cr_table3 + i;
	ulong res;

	unsigned long code[] =
	{
	ASM_MTCR(3),
	ASM_MCRF(test->cd, test->cs),
	ASM_MFCR(3),
	ASM_BLR,
	};

	cpu_post_exec_11 (code, &res, test->cr);

	ret = res == test->res ? 0 : -1;

	if (ret != 0)
	{
	post_log ("Error at cr3 test %d !\n", i);
	}
	}

	for (i = 0; i < cpu_post_cr_size4 && ret == 0; i++)
	{
	struct cpu_post_cr_s4 *test = cpu_post_cr_table4 + i;
	ulong res;

	unsigned long code[] =
	{
	ASM_MTCR(3),
	ASM_12F(test->cmd, test->op3, test->op1, test->op2),
	ASM_MFCR(3),
	ASM_BLR,
	};

	cpu_post_exec_11 (code, &res, test->cr);

	ret = res == test->res ? 0 : -1;

	if (ret != 0)
	{
	post_log ("Error at cr4 test %d !\n", i);
	}
	}

	asm ( "mtcr %0" : : "r" (cr_sav));

	if (flag)
	enable_interrupts();

	return ret;
	}

	#endif