powerpc/sprs.c - kvm-unit-tests - Git at Google

 /*
  * Test Special Purpose Registers
  *
  * Copyright 2017  Thomas Huth, Red Hat Inc.
  *
  * This work is licensed under the terms of the GNU LGPL, version 2.
  *
  * The basic idea of this test is to check whether the contents of the Special
  * Purpose Registers (SPRs) are preserved correctly during migration. So we
  * fill in the SPRs with a well-known value, read the values back (since not
  * all bits might be retained in the SPRs), then wait for migration to complete
  * (if the '-w' option has been specified) so that the user has a chance to
  * migrate the VM. Alternatively, the test can also simply sleep a little bit
  * with the H_CEDE hypercall, in the hope that we'll get scheduled to another
  * host CPU and thus register contents might have changed, too (in case of
  * bugs). Finally, we read back the values from the SPRs and compare them with
  * the values before the migration. Mismatches are reported as test failures.
  * Note that we do not test all SPRs since some of the registers change their
  * content automatically, and some are only accessible with hypervisor privi-
  * leges or have bad side effects, so we have to omit those registers.
  */
 #include <libcflat.h>
 #include <util.h>
 #include <migrate.h>
 #include <alloc.h>
 #include <asm/ppc_asm.h>
 #include <asm/handlers.h>
 #include <asm/hcall.h>
 #include <asm/processor.h>
 #include <asm/time.h>
 #include <asm/barrier.h>

 /* "Indirect" mfspr/mtspr which accept a non-constant spr number */
 static uint64_t __mfspr(unsigned spr)
 {
 	uint64_t tmp;
 	uint64_t ret;

 	asm volatile(
 "	bcl	20, 31, 1f		\n"
 "1:	mflr	%0			\n"
 "	addi	%0, %0, (2f-1b)		\n"
 "	add	%0, %0, %2		\n"
 "	mtctr	%0			\n"
 "	bctr				\n"
 "2:					\n"
 ".LSPR=0				\n"
 ".rept 1024				\n"
 "	mfspr	%1, .LSPR		\n"
 "	b	3f			\n"
 "	.LSPR=.LSPR+1			\n"
 ".endr					\n"
 "3:					\n"
 	: "=&r"(tmp),
 	  "=r"(ret)
 	: "r"(spr*8) /* 8 bytes per 'mfspr ; b' block */
 	: "lr", "ctr");

 	return ret;
 }

 static void __mtspr(unsigned spr, uint64_t val)
 {
 	uint64_t tmp;

 	asm volatile(
 "	bcl	20, 31, 1f		\n"
 "1:	mflr	%0			\n"
 "	addi	%0, %0, (2f-1b)		\n"
 "	add	%0, %0, %2		\n"
 "	mtctr	%0			\n"
 "	bctr				\n"
 "2:					\n"
 ".LSPR=0				\n"
 ".rept 1024				\n"
 "	mtspr	.LSPR, %1		\n"
 "	b	3f			\n"
 "	.LSPR=.LSPR+1			\n"
 ".endr					\n"
 "3:					\n"
 	: "=&r"(tmp)
 	: "r"(val),
 	  "r"(spr*8) /* 8 bytes per 'mfspr ; b' block */
 	: "lr", "ctr", "xer");
 }

 static uint64_t before[1024], after[1024];

 #define SPR_PR_READ	0x0001
 #define SPR_PR_WRITE	0x0002
 #define SPR_OS_READ	0x0010
 #define SPR_OS_WRITE	0x0020
 #define SPR_HV_READ	0x0100
 #define SPR_HV_WRITE	0x0200

 #define RW		0x333
 #define RO		0x111
 #define WO		0x222
 #define OS_RW		0x330
 #define OS_RO		0x110
 #define OS_WO		0x220
 #define HV_RW		0x300
 #define HV_RO		0x100
 #define HV_WO		0x200

 #define SPR_ASYNC	0x1000	/* May be updated asynchronously */
 #define SPR_INT		0x2000	/* May be updated by synchronous interrupt */
 #define SPR_HARNESS	0x4000	/* Test harness uses the register */

 struct spr {
 	const char	*name;
 	uint8_t		width;
 	uint16_t	access;
 	uint16_t	type;
 };

 /* SPRs common denominator back to PowerPC Operating Environment Architecture */
 static const struct spr sprs_common[1024] = {
   [1] = { "XER",	64,	RW,		SPR_HARNESS, }, /* Used by compiler */
   [8] = { "LR", 	64,	RW,		SPR_HARNESS, }, /* Compiler, mfspr/mtspr */
   [9] = { "CTR",	64,	RW,		SPR_HARNESS, }, /* Compiler, mfspr/mtspr */
  [18] = { "DSISR",	32,	OS_RW,		SPR_INT, },
  [19] = { "DAR",	64,	OS_RW,		SPR_INT, },
  [26] = { "SRR0",	64,	OS_RW,		SPR_INT, },
  [27] = { "SRR1",	64,	OS_RW,		SPR_INT, },
 [268] = { "TB",		64,	RO	,	SPR_ASYNC, },
 [269] = { "TBU",	32,	RO,		SPR_ASYNC, },
 [272] = { "SPRG0",	64,	OS_RW,		SPR_HARNESS, }, /* Interrupt stacr */
 [273] = { "SPRG1",	64,	OS_RW,		SPR_HARNESS, }, /* Interrupt Scratch */
 [274] = { "SPRG2",	64,	OS_RW, },
 [275] = { "SPRG3",	64,	OS_RW, },
 [287] = { "PVR",	32,	OS_RO, },
 };

 /* SPRs from PowerPC Operating Environment Architecture, Book III, Vers. 2.01 */
 static const struct spr sprs_201[1024] = {
  [22] = { "DEC",	32,	OS_RW,		SPR_ASYNC, },
  [25] = { "SDR1",	64,	HV_RW | OS_RO, },
  [29] = { "ACCR",	64,	OS_RW, },
 [136] = { "CTRL",	32,	RO, },
 [152] = { "CTRL",	32,	OS_WO, },
 [259] = { "SPRG3",	64,	RO, },
 /* ASR, EAR omitted */
 [284] = { "TBL",	32,	HV_WO, },
 [285] = { "TBU",	32,	HV_WO, },
 [310] = { "HDEC",	32,	HV_RW,		SPR_ASYNC, },
 [1013]= { "DABR",	64,	HV_RW | OS_RO, },
 [1023]= { "PIR",	32,	OS_RO,		SPR_ASYNC, }, /* Can't be virtualised, appears to be async */
 };

 static const struct spr sprs_970_pmu[1024] = {
 /* POWER4+ PMU, should confirm with PPC970 */
 [770] = { "MMCRA",	64,	RO, },
 [771] = { "PMC1",	32,	RO, },
 [772] = { "PMC2",	32,	RO, },
 [773] = { "PMC3",	32,	RO, },
 [774] = { "PMC4",	32,	RO, },
 [775] = { "PMC5",	32,	RO, },
 [776] = { "PMC6",	32,	RO, },
 [777] = { "PMC7",	32,	RO, },
 [778] = { "PMC8",	32,	RO, },
 [779] = { "MMCR0",	64,	RO, },
 [780] = { "SIAR",	64,	RO, },
 [781] = { "SDAR",	64,	RO, },
 [782] = { "MMCR1",	64,	RO, },
 [786] = { "MMCRA",	64,	OS_RW, },
 [787] = { "PMC1",	32,	OS_RW, },
 [788] = { "PMC2",	32,	OS_RW, },
 [789] = { "PMC3",	32,	OS_RW, },
 [790] = { "PMC4",	32,	OS_RW, },
 [791] = { "PMC5",	32,	OS_RW, },
 [792] = { "PMC6",	32,	OS_RW, },
 [793] = { "PMC7",	32,	OS_RW, },
 [794] = { "PMC8",	32,	OS_RW, },
 [795] = { "MMCR0",	64,	OS_RW, },
 [796] = { "SIAR",	64,	OS_RW, },
 [797] = { "SDAR",	64,	OS_RW, },
 [798] = { "MMCR1",	64,	OS_RW, },
 };

 /* These are common SPRs from 2.07S onward (POWER CPUs that support KVM HV) */
 static const struct spr sprs_power_common[1024] = {
   [3] = { "DSCR",	64,	RW, },
  [13] = { "AMR",	64,	RW, },
  [17] = { "DSCR",	64,	OS_RW, },
  [28] = { "CFAR",	64,	OS_RW,		SPR_ASYNC, }, /* Effectively async */
  [29] = { "AMR",	64,	OS_RW, },
  [61] = { "IAMR",	64,	OS_RW, },
 [136] = { "CTRL",	32,	RO, },
 [152] = { "CTRL",	32,	OS_WO, },
 [153] = { "FSCR",	64,	OS_RW, },
 [157] = { "UAMOR",	64,	OS_RW, },
 [159] = { "PSPB",	32,	OS_RW, },
 [176] = { "DPDES",	64,	HV_RW | OS_RO, },
 [180] = { "DAWR0",	64,	HV_RW, },
 [186] = { "RPR",	64,	HV_RW, },
 [187] = { "CIABR",	64,	HV_RW, },
 [188] = { "DAWRX0",	32,	HV_RW, },
 [190] = { "HFSCR",	64,	HV_RW, },
 [256] = { "VRSAVE",	32,	RW, },
 [259] = { "SPRG3",	64,	RO, },
 [284] = { "TBL",	32,	HV_WO, },
 [285] = { "TBU",	32,	HV_WO, },
 [286] = { "TBU40",	64,	HV_WO, },
 [304] = { "HSPRG0",	64,	HV_RW, },
 [305] = { "HSPRG1",	64,	HV_RW, },
 [306] = { "HDSISR",	32,	HV_RW,		SPR_INT, },
 [307] = { "HDAR",	64,	HV_RW,		SPR_INT, },
 [308] = { "SPURR",	64,	HV_RW | OS_RO,	SPR_ASYNC, },
 [309] = { "PURR",	64,	HV_RW | OS_RO,	SPR_ASYNC, },
 [313] = { "HRMOR",	64,	HV_RW, },
 [314] = { "HSRR0",	64,	HV_RW,		SPR_INT, },
 [315] = { "HSRR1",	64,	HV_RW,		SPR_INT, },
 [318] = { "LPCR",	64,	HV_RW, },
 [319] = { "LPIDR",	32,	HV_RW, },
 [336] = { "HMER",	64,	HV_RW, },
 [337] = { "HMEER",	64,	HV_RW, },
 [338] = { "PCR",	64,	HV_RW, },
 [349] = { "AMOR",	64,	HV_RW, },
 [446] = { "TIR",	64,	OS_RO, },
 [800] = { "BESCRS",	64,	RW, },
 [801] = { "BESCRSU",	32,	RW, },
 [802] = { "BESCRR",	64,	RW, },
 [803] = { "BESCRRU",	32,	RW, },
 [804] = { "EBBHR",	64,	RW, },
 [805] = { "EBBRR",	64,	RW, },
 [806] = { "BESCR",	64,	RW, },
 [815] = { "TAR",	64,	RW, },
 [848] = { "IC",		64,	HV_RW | OS_RO,	SPR_ASYNC, },
 [849] = { "VTB",	64,	HV_RW | OS_RO,	SPR_ASYNC, },
 [896] = { "PPR",	64,	RW, },
 [898] = { "PPR32",	32,	RW, },
 [1023]= { "PIR",	32,	OS_RO,		SPR_ASYNC, }, /* Can't be virtualised, appears to be async */
 };

 static const struct spr sprs_tm[1024] = {
 #if 0
 	/* XXX: leave these out until enabling TM facility (and more testing) */
 [128] = { "TFHAR",	64,	RW, },
 [129] = { "TFIAR",	64,	RW, },
 [130] = { "TEXASR",	64,	RW, },
 [131] = { "TEXASRU",	32,	RW, },
 #endif
 };

 /* SPRs from PowerISA 2.07 Book III-S */
 static const struct spr sprs_207[1024] = {
  [22] = { "DEC",	32,	OS_RW,		SPR_ASYNC, },
  [25] = { "SDR1",	64,	HV_RW, },
 [177] = { "DHDES",	64,	HV_RW, },
 [283] = { "CIR",	32,	OS_RO, },
 [310] = { "HDEC",	32,	HV_RW,		SPR_ASYNC, },
 [312] = { "RMOR",	64,	HV_RW, },
 [339] = { "HEIR",	32,	HV_RW,		SPR_INT, },
 };

 /* SPRs from PowerISA 3.00 Book III */
 static const struct spr sprs_300[1024] = {
  [22] = { "DEC",	64,	OS_RW,		SPR_ASYNC, },
  [48] = { "PIDR",	32,	OS_RW, },
 [144] = { "TIDR",	64,	OS_RW, },
 [283] = { "CIR",	32,	OS_RO, },
 [310] = { "HDEC",	64,	HV_RW,		SPR_ASYNC, },
 [339] = { "HEIR",	32,	HV_RW,		SPR_INT, },
 [464] = { "PTCR",	64,	HV_RW, },
 [816] = { "ASDR",	64,	HV_RW,		SPR_INT, },
 [823] = { "PSSCR",	64,	OS_RW, },
 [855] = { "PSSCR",	64,	HV_RW, },
 };

 /* SPRs from PowerISA 3.1B Book III */
 static const struct spr sprs_31[1024] = {
  [22] = { "DEC",	64,	OS_RW,		SPR_ASYNC, },
  [48] = { "PIDR",	32,	OS_RW, },
 [181] = { "DAWR1",	64,	HV_RW, },
 [189] = { "DAWRX1",	32,	HV_RW, },
 [310] = { "HDEC",	64,	HV_RW,		SPR_ASYNC, },
 [339] = { "HEIR",	64,	HV_RW,		SPR_INT, },
 [455] = { "HDEXCR",	32,	RO, },
 [464] = { "PTCR",	64,	HV_RW, },
 [468] = { "HASHKEYR",	64,	OS_RW, },
 [469] = { "HASHPKEYR",	64,	HV_RW, },
 [471] = { "HDEXCR",	64,	HV_RW, },
 [812] = { "DEXCR",	32,	RO, },
 [816] = { "ASDR",	64,	HV_RW,		SPR_INT, },
 [823] = { "PSSCR",	64,	OS_RW, },
 [828] = { "DEXCR",	64,	OS_RW, },
 [855] = { "PSSCR",	64,	HV_RW, },
 };

 /* SPRs POWER9, POWER10 User Manual */
 static const struct spr sprs_power9_10[1024] = {
 [276] = { "SPRC",	64,	HV_RW, },
 [277] = { "SPRD",	64,	HV_RW, },
 [317] = { "TFMR",	64,	HV_RW, },
 [799] = { "IMC",	64,	HV_RW, },
 [850] = { "LDBAR",	64,	HV_RO, },
 [851] = { "MMCRC",	32,	HV_RW, },
 [853] = { "PMSR",	32,	HV_RO, },
 [861] = { "L2QOSR",	64,	HV_WO, },
 [881] = { "TRIG1",	64,	OS_WO, },
 [882] = { "TRIG2",	64,	OS_WO, },
 [884] = { "PMCR",	64,	HV_RW, },
 [885] = { "RWMR",	64,	HV_RW, },
 [895] = { "WORT",	64,	OS_RW, }, /* UM says 18-bits! */
 [921] = { "TSCR",	32,	HV_RW, },
 [922] = { "TTR",	64,	HV_RW, },
 [1006]= { "TRACE",	64,	WO, },
 [1008]= { "HID",	64,	HV_RW, },
 };

 /* This covers POWER8 and POWER9 PMUs */
 static const struct spr sprs_power_common_pmu[1024] = {
 [768] = { "SIER",	64,	RO, },
 [769] = { "MMCR2",	64,	RW, },
 [770] = { "MMCRA",	64,	RW, },
 [771] = { "PMC1",	32,	RW, },
 [772] = { "PMC2",	32,	RW, },
 [773] = { "PMC3",	32,	RW, },
 [774] = { "PMC4",	32,	RW, },
 [775] = { "PMC5",	32,	RW, },
 [776] = { "PMC6",	32,	RW, },
 [779] = { "MMCR0",	64,	RW, },
 [780] = { "SIAR",	64,	RO, },
 [781] = { "SDAR",	64,	RO, },
 [782] = { "MMCR1",	64,	RO, },
 [784] = { "SIER",	64,	OS_RW, },
 [785] = { "MMCR2",	64,	OS_RW, },
 [786] = { "MMCRA",	64,	OS_RW, },
 [787] = { "PMC1",	32,	OS_RW, },
 [788] = { "PMC2",	32,	OS_RW, },
 [789] = { "PMC3",	32,	OS_RW, },
 [790] = { "PMC4",	32,	OS_RW, },
 [791] = { "PMC5",	32,	OS_RW, },
 [792] = { "PMC6",	32,	OS_RW, },
 [795] = { "MMCR0",	64,	OS_RW, },
 [796] = { "SIAR",	64,	OS_RW, },
 [797] = { "SDAR",	64,	OS_RW, },
 [798] = { "MMCR1",	64,	OS_RW, },
 };

 static const struct spr sprs_power10_pmu[1024] = {
 [736] = { "SIER2",	64,	RO, },
 [737] = { "SIER3",	64,	RO, },
 [738] = { "MMCR3",	64,	RO, },
 [752] = { "SIER2",	64,	OS_RW, },
 [753] = { "SIER3",	64,	OS_RW, },
 [754] = { "MMCR3",	64,	OS_RW, },
 };

 static struct spr sprs[1024];

 static void setup_sprs(void)
 {
 	int i;

 	for (i = 0; i < 1024; i++) {
 		if (sprs_common[i].name) {
 			memcpy(&sprs[i], &sprs_common[i], sizeof(struct spr));
 		}
 	}

 	switch (mfspr(SPR_PVR) & PVR_VERSION_MASK) {
 	case PVR_VER_970:
 	case PVR_VER_970FX:
 	case PVR_VER_970MP:
 		for (i = 0; i < 1024; i++) {
 			if (sprs_201[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_201[i], sizeof(struct spr));
 			}
 			if (sprs_970_pmu[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
 			}
 		}
 		break;

 	case PVR_VER_POWER8E:
 	case PVR_VER_POWER8NVL:
 	case PVR_VER_POWER8:
 		for (i = 0; i < 1024; i++) {
 			if (sprs_power_common[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr));
 			}
 			if (sprs_207[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_207[i], sizeof(struct spr));
 			}
 			if (sprs_tm[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_tm[i], sizeof(struct spr));
 			}
 			if (sprs_power_common_pmu[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
 			}
 		}
 		break;

 	case PVR_VER_POWER9:
 		for (i = 0; i < 1024; i++) {
 			if (sprs_power_common[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr));
 			}
 			if (sprs_300[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_300[i], sizeof(struct spr));
 			}
 			if (sprs_tm[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_tm[i], sizeof(struct spr));
 			}
 			if (sprs_power9_10[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power9_10[i], sizeof(struct spr));
 			}
 			if (sprs_power_common_pmu[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
 			}
 		}
 		break;

 	case PVR_VER_POWER10:
 		for (i = 0; i < 1024; i++) {
 			if (sprs_power_common[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr));
 			}
 			if (sprs_31[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_31[i], sizeof(struct spr));
 			}
 			if (sprs_power9_10[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power9_10[i], sizeof(struct spr));
 			}
 			if (sprs_power_common_pmu[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
 			}
 			if (sprs_power10_pmu[i].name) {
 				assert(!sprs[i].name);
 				memcpy(&sprs[i], &sprs_power10_pmu[i], sizeof(struct spr));
 			}
 		}
 		break;

 	default:
 		memcpy(sprs, sprs_common, sizeof(sprs));
 		puts("Warning: Unknown processor version, falling back to common SPRs!\n");
 		break;
 	}
 }

 static void get_sprs(uint64_t *v)
 {
 	int i;

 	for (i = 0; i < 1024; i++) {
 		if (!(sprs[i].access & SPR_OS_READ))
 			continue;
 		v[i] = __mfspr(i);
 	}
 }

 static void set_sprs(uint64_t val)
 {
 	int i;

 	for (i = 0; i < 1024; i++) {
 		if (!(sprs[i].access & SPR_OS_WRITE))
 			continue;
 		if (sprs[i].type & SPR_HARNESS)
 			continue;
 		__mtspr(i, val);
 	}
 }

 int main(int argc, char **argv)
 {
 	int i;
 	bool pause = false;
 	uint64_t pat = 0xcafefacec0debabeULL;
 	const uint64_t patterns[] = {
 		0xcafefacec0debabeULL, ~0xcafefacec0debabeULL,
 		0xAAAA5555AAAA5555ULL, 0x5555AAAA5555AAAAULL,
 		0x1234567890ABCDEFULL, 0xFEDCBA0987654321ULL,
 		-1ULL,
 	};

 	for (i = 1; i < argc; i++) {
 		if (!strcmp(argv[i], "-w")) {
 			pause = true;
 		} else if (!strcmp(argv[i], "-p")) {
 			i += 1;
 			if (i >= argc || *argv[i] < '0'
 			    || *argv[i] >= '0' + ARRAY_SIZE(patterns))
 				report_abort("Error: bad value for -p");
 			pat ^= patterns[*argv[i] - '0'];
 		} else if (!strcmp(argv[i], "-t")) {
 			/* Randomize with timebase register */
 			asm volatile("mftb %0" : "=r"(i));
 			pat ^= i;
 			asm volatile("mftb %0" : "=r"(i));
 			pat ^= ~(uint64_t)i << 32;
 		} else {
 			report_abort("Warning: Unsupported argument: %s",
 			             argv[i]);
 		}
 	}

 	setup_sprs();

 	printf("Setting SPRs to 0x%lx...\n", pat);
 	set_sprs(pat);

 	memset(before, 0, sizeof(before));
 	memset(after, 0, sizeof(after));

 	get_sprs(before);

 	if (pause) {
 		migrate_once();
 		/* Reload regs changed by getchar/putchar hcalls */
 		before[SPR_SRR0] = mfspr(SPR_SRR0);
 		before[SPR_SRR1] = mfspr(SPR_SRR1);

 		/* WORT seems to go to 0 after KVM switch, perhaps CPU idle */
 		if (sprs[895].name)
 			before[895] = mfspr(895);
 	} else {
 		/*
 		 * msleep will enable MSR[EE] and take a decrementer
 		 * interrupt. Must account for changed registers and
 		 * prevent taking unhandled interrupts.
 		 */
 		/* Prevent PMU interrupt */
 		mtspr(SPR_MMCR0, (mfspr(SPR_MMCR0) | MMCR0_FC) &
 					~(MMCR0_PMAO | MMCR0_PMAE));
 		before[SPR_MMCR0] = mfspr(SPR_MMCR0);
 		before[779] = mfspr(SPR_MMCR0);
 		msleep(2000);

 		/* Reload regs changed by dec interrupt */
 		before[SPR_SRR0] = mfspr(SPR_SRR0);
 		before[SPR_SRR1] = mfspr(SPR_SRR1);
 		before[SPR_SPRG1] = mfspr(SPR_SPRG1);

 		/* WORT seems to go to 0 after KVM switch, perhaps CPU idle */
 		if (sprs[895].name)
 			before[895] = mfspr(895);
 	}

 	get_sprs(after);

 	puts("Checking SPRs...\n");
 	for (i = 0; i < 1024; i++) {
 		bool pass = true;

 		if (!(sprs[i].access & SPR_OS_READ))
 			continue;

 		if (sprs[i].width == 32) {
 			if (before[i] >> 32)
 				pass = false;
 		}
 		if (!(sprs[i].type & (SPR_HARNESS|SPR_ASYNC)) && (before[i] != after[i]))
 			pass = false;

 		if (sprs[i].width == 32 && !(before[i] >> 32) && !(after[i] >> 32)) {
 			/* known failure KVM migration of CTRL */
 			report_kfail(true && i == 136,
 				"%-10s(%4d):\t        0x%08lx <==>         0x%08lx",
 				sprs[i].name, i,
 				before[i], after[i]);
 		} else {
 			report(pass, "%-10s(%4d):\t0x%016lx <==> 0x%016lx",
 				sprs[i].name, i,
 				before[i], after[i]);
 		}
 	}

 	return report_summary();
 }
	/*
	* Test Special Purpose Registers
	*
	* Copyright 2017 Thomas Huth, Red Hat Inc.
	*
	* This work is licensed under the terms of the GNU LGPL, version 2.
	*
	* The basic idea of this test is to check whether the contents of the Special
	* Purpose Registers (SPRs) are preserved correctly during migration. So we
	* fill in the SPRs with a well-known value, read the values back (since not
	* all bits might be retained in the SPRs), then wait for migration to complete
	* (if the '-w' option has been specified) so that the user has a chance to
	* migrate the VM. Alternatively, the test can also simply sleep a little bit
	* with the H_CEDE hypercall, in the hope that we'll get scheduled to another
	* host CPU and thus register contents might have changed, too (in case of
	* bugs). Finally, we read back the values from the SPRs and compare them with
	* the values before the migration. Mismatches are reported as test failures.
	* Note that we do not test all SPRs since some of the registers change their
	* content automatically, and some are only accessible with hypervisor privi-
	* leges or have bad side effects, so we have to omit those registers.
	*/
	#include <libcflat.h>
	#include <util.h>
	#include <migrate.h>
	#include <alloc.h>
	#include <asm/ppc_asm.h>
	#include <asm/handlers.h>
	#include <asm/hcall.h>
	#include <asm/processor.h>
	#include <asm/time.h>
	#include <asm/barrier.h>

	/* "Indirect" mfspr/mtspr which accept a non-constant spr number */
	static uint64_t __mfspr(unsigned spr)
	{
	uint64_t tmp;
	uint64_t ret;

	asm volatile(
	" bcl 20, 31, 1f \n"
	"1: mflr %0 \n"
	" addi %0, %0, (2f-1b) \n"
	" add %0, %0, %2 \n"
	" mtctr %0 \n"
	" bctr \n"
	"2: \n"
	".LSPR=0 \n"
	".rept 1024 \n"
	" mfspr %1, .LSPR \n"
	" b 3f \n"
	" .LSPR=.LSPR+1 \n"
	".endr \n"
	"3: \n"
	: "=&r"(tmp),
	"=r"(ret)
	: "r"(spr8) / 8 bytes per 'mfspr ; b' block */
	: "lr", "ctr");

	return ret;
	}

	static void __mtspr(unsigned spr, uint64_t val)
	{
	uint64_t tmp;

	asm volatile(
	" bcl 20, 31, 1f \n"
	"1: mflr %0 \n"
	" addi %0, %0, (2f-1b) \n"
	" add %0, %0, %2 \n"
	" mtctr %0 \n"
	" bctr \n"
	"2: \n"
	".LSPR=0 \n"
	".rept 1024 \n"
	" mtspr .LSPR, %1 \n"
	" b 3f \n"
	" .LSPR=.LSPR+1 \n"
	".endr \n"
	"3: \n"
	: "=&r"(tmp)
	: "r"(val),
	"r"(spr8) / 8 bytes per 'mfspr ; b' block */
	: "lr", "ctr", "xer");
	}

	static uint64_t before[1024], after[1024];

	#define SPR_PR_READ 0x0001
	#define SPR_PR_WRITE 0x0002
	#define SPR_OS_READ 0x0010
	#define SPR_OS_WRITE 0x0020
	#define SPR_HV_READ 0x0100
	#define SPR_HV_WRITE 0x0200

	#define RW 0x333
	#define RO 0x111
	#define WO 0x222
	#define OS_RW 0x330
	#define OS_RO 0x110
	#define OS_WO 0x220
	#define HV_RW 0x300
	#define HV_RO 0x100
	#define HV_WO 0x200

	#define SPR_ASYNC 0x1000 /* May be updated asynchronously */
	#define SPR_INT 0x2000 /* May be updated by synchronous interrupt */
	#define SPR_HARNESS 0x4000 /* Test harness uses the register */

	struct spr {
	const char *name;
	uint8_t width;
	uint16_t access;
	uint16_t type;
	};

	/* SPRs common denominator back to PowerPC Operating Environment Architecture */
	static const struct spr sprs_common[1024] = {
	[1] = { "XER", 64, RW, SPR_HARNESS, }, /* Used by compiler */
	[8] = { "LR", 64, RW, SPR_HARNESS, }, /* Compiler, mfspr/mtspr */
	[9] = { "CTR", 64, RW, SPR_HARNESS, }, /* Compiler, mfspr/mtspr */
	[18] = { "DSISR", 32, OS_RW, SPR_INT, },
	[19] = { "DAR", 64, OS_RW, SPR_INT, },
	[26] = { "SRR0", 64, OS_RW, SPR_INT, },
	[27] = { "SRR1", 64, OS_RW, SPR_INT, },
	[268] = { "TB", 64, RO , SPR_ASYNC, },
	[269] = { "TBU", 32, RO, SPR_ASYNC, },
	[272] = { "SPRG0", 64, OS_RW, SPR_HARNESS, }, /* Interrupt stacr */
	[273] = { "SPRG1", 64, OS_RW, SPR_HARNESS, }, /* Interrupt Scratch */
	[274] = { "SPRG2", 64, OS_RW, },
	[275] = { "SPRG3", 64, OS_RW, },
	[287] = { "PVR", 32, OS_RO, },
	};

	/* SPRs from PowerPC Operating Environment Architecture, Book III, Vers. 2.01 */
	static const struct spr sprs_201[1024] = {
	[22] = { "DEC", 32, OS_RW, SPR_ASYNC, },
	[25] = { "SDR1", 64, HV_RW \| OS_RO, },
	[29] = { "ACCR", 64, OS_RW, },
	[136] = { "CTRL", 32, RO, },
	[152] = { "CTRL", 32, OS_WO, },
	[259] = { "SPRG3", 64, RO, },
	/* ASR, EAR omitted */
	[284] = { "TBL", 32, HV_WO, },
	[285] = { "TBU", 32, HV_WO, },
	[310] = { "HDEC", 32, HV_RW, SPR_ASYNC, },
	[1013]= { "DABR", 64, HV_RW \| OS_RO, },
	[1023]= { "PIR", 32, OS_RO, SPR_ASYNC, }, /* Can't be virtualised, appears to be async */
	};

	static const struct spr sprs_970_pmu[1024] = {
	/* POWER4+ PMU, should confirm with PPC970 */
	[770] = { "MMCRA", 64, RO, },
	[771] = { "PMC1", 32, RO, },
	[772] = { "PMC2", 32, RO, },
	[773] = { "PMC3", 32, RO, },
	[774] = { "PMC4", 32, RO, },
	[775] = { "PMC5", 32, RO, },
	[776] = { "PMC6", 32, RO, },
	[777] = { "PMC7", 32, RO, },
	[778] = { "PMC8", 32, RO, },
	[779] = { "MMCR0", 64, RO, },
	[780] = { "SIAR", 64, RO, },
	[781] = { "SDAR", 64, RO, },
	[782] = { "MMCR1", 64, RO, },
	[786] = { "MMCRA", 64, OS_RW, },
	[787] = { "PMC1", 32, OS_RW, },
	[788] = { "PMC2", 32, OS_RW, },
	[789] = { "PMC3", 32, OS_RW, },
	[790] = { "PMC4", 32, OS_RW, },
	[791] = { "PMC5", 32, OS_RW, },
	[792] = { "PMC6", 32, OS_RW, },
	[793] = { "PMC7", 32, OS_RW, },
	[794] = { "PMC8", 32, OS_RW, },
	[795] = { "MMCR0", 64, OS_RW, },
	[796] = { "SIAR", 64, OS_RW, },
	[797] = { "SDAR", 64, OS_RW, },
	[798] = { "MMCR1", 64, OS_RW, },
	};

	/* These are common SPRs from 2.07S onward (POWER CPUs that support KVM HV) */
	static const struct spr sprs_power_common[1024] = {
	[3] = { "DSCR", 64, RW, },
	[13] = { "AMR", 64, RW, },
	[17] = { "DSCR", 64, OS_RW, },
	[28] = { "CFAR", 64, OS_RW, SPR_ASYNC, }, /* Effectively async */
	[29] = { "AMR", 64, OS_RW, },
	[61] = { "IAMR", 64, OS_RW, },
	[136] = { "CTRL", 32, RO, },
	[152] = { "CTRL", 32, OS_WO, },
	[153] = { "FSCR", 64, OS_RW, },
	[157] = { "UAMOR", 64, OS_RW, },
	[159] = { "PSPB", 32, OS_RW, },
	[176] = { "DPDES", 64, HV_RW \| OS_RO, },
	[180] = { "DAWR0", 64, HV_RW, },
	[186] = { "RPR", 64, HV_RW, },
	[187] = { "CIABR", 64, HV_RW, },
	[188] = { "DAWRX0", 32, HV_RW, },
	[190] = { "HFSCR", 64, HV_RW, },
	[256] = { "VRSAVE", 32, RW, },
	[259] = { "SPRG3", 64, RO, },
	[284] = { "TBL", 32, HV_WO, },
	[285] = { "TBU", 32, HV_WO, },
	[286] = { "TBU40", 64, HV_WO, },
	[304] = { "HSPRG0", 64, HV_RW, },
	[305] = { "HSPRG1", 64, HV_RW, },
	[306] = { "HDSISR", 32, HV_RW, SPR_INT, },
	[307] = { "HDAR", 64, HV_RW, SPR_INT, },
	[308] = { "SPURR", 64, HV_RW \| OS_RO, SPR_ASYNC, },
	[309] = { "PURR", 64, HV_RW \| OS_RO, SPR_ASYNC, },
	[313] = { "HRMOR", 64, HV_RW, },
	[314] = { "HSRR0", 64, HV_RW, SPR_INT, },
	[315] = { "HSRR1", 64, HV_RW, SPR_INT, },
	[318] = { "LPCR", 64, HV_RW, },
	[319] = { "LPIDR", 32, HV_RW, },
	[336] = { "HMER", 64, HV_RW, },
	[337] = { "HMEER", 64, HV_RW, },
	[338] = { "PCR", 64, HV_RW, },
	[349] = { "AMOR", 64, HV_RW, },
	[446] = { "TIR", 64, OS_RO, },
	[800] = { "BESCRS", 64, RW, },
	[801] = { "BESCRSU", 32, RW, },
	[802] = { "BESCRR", 64, RW, },
	[803] = { "BESCRRU", 32, RW, },
	[804] = { "EBBHR", 64, RW, },
	[805] = { "EBBRR", 64, RW, },
	[806] = { "BESCR", 64, RW, },
	[815] = { "TAR", 64, RW, },
	[848] = { "IC", 64, HV_RW \| OS_RO, SPR_ASYNC, },
	[849] = { "VTB", 64, HV_RW \| OS_RO, SPR_ASYNC, },
	[896] = { "PPR", 64, RW, },
	[898] = { "PPR32", 32, RW, },
	[1023]= { "PIR", 32, OS_RO, SPR_ASYNC, }, /* Can't be virtualised, appears to be async */
	};

	static const struct spr sprs_tm[1024] = {
	#if 0
	/* XXX: leave these out until enabling TM facility (and more testing) */
	[128] = { "TFHAR", 64, RW, },
	[129] = { "TFIAR", 64, RW, },
	[130] = { "TEXASR", 64, RW, },
	[131] = { "TEXASRU", 32, RW, },
	#endif
	};

	/* SPRs from PowerISA 2.07 Book III-S */
	static const struct spr sprs_207[1024] = {
	[22] = { "DEC", 32, OS_RW, SPR_ASYNC, },
	[25] = { "SDR1", 64, HV_RW, },
	[177] = { "DHDES", 64, HV_RW, },
	[283] = { "CIR", 32, OS_RO, },
	[310] = { "HDEC", 32, HV_RW, SPR_ASYNC, },
	[312] = { "RMOR", 64, HV_RW, },
	[339] = { "HEIR", 32, HV_RW, SPR_INT, },
	};

	/* SPRs from PowerISA 3.00 Book III */
	static const struct spr sprs_300[1024] = {
	[22] = { "DEC", 64, OS_RW, SPR_ASYNC, },
	[48] = { "PIDR", 32, OS_RW, },
	[144] = { "TIDR", 64, OS_RW, },
	[283] = { "CIR", 32, OS_RO, },
	[310] = { "HDEC", 64, HV_RW, SPR_ASYNC, },
	[339] = { "HEIR", 32, HV_RW, SPR_INT, },
	[464] = { "PTCR", 64, HV_RW, },
	[816] = { "ASDR", 64, HV_RW, SPR_INT, },
	[823] = { "PSSCR", 64, OS_RW, },
	[855] = { "PSSCR", 64, HV_RW, },
	};

	/* SPRs from PowerISA 3.1B Book III */
	static const struct spr sprs_31[1024] = {
	[22] = { "DEC", 64, OS_RW, SPR_ASYNC, },
	[48] = { "PIDR", 32, OS_RW, },
	[181] = { "DAWR1", 64, HV_RW, },
	[189] = { "DAWRX1", 32, HV_RW, },
	[310] = { "HDEC", 64, HV_RW, SPR_ASYNC, },
	[339] = { "HEIR", 64, HV_RW, SPR_INT, },
	[455] = { "HDEXCR", 32, RO, },
	[464] = { "PTCR", 64, HV_RW, },
	[468] = { "HASHKEYR", 64, OS_RW, },
	[469] = { "HASHPKEYR", 64, HV_RW, },
	[471] = { "HDEXCR", 64, HV_RW, },
	[812] = { "DEXCR", 32, RO, },
	[816] = { "ASDR", 64, HV_RW, SPR_INT, },
	[823] = { "PSSCR", 64, OS_RW, },
	[828] = { "DEXCR", 64, OS_RW, },
	[855] = { "PSSCR", 64, HV_RW, },
	};

	/* SPRs POWER9, POWER10 User Manual */
	static const struct spr sprs_power9_10[1024] = {
	[276] = { "SPRC", 64, HV_RW, },
	[277] = { "SPRD", 64, HV_RW, },
	[317] = { "TFMR", 64, HV_RW, },
	[799] = { "IMC", 64, HV_RW, },
	[850] = { "LDBAR", 64, HV_RO, },
	[851] = { "MMCRC", 32, HV_RW, },
	[853] = { "PMSR", 32, HV_RO, },
	[861] = { "L2QOSR", 64, HV_WO, },
	[881] = { "TRIG1", 64, OS_WO, },
	[882] = { "TRIG2", 64, OS_WO, },
	[884] = { "PMCR", 64, HV_RW, },
	[885] = { "RWMR", 64, HV_RW, },
	[895] = { "WORT", 64, OS_RW, }, /* UM says 18-bits! */
	[921] = { "TSCR", 32, HV_RW, },
	[922] = { "TTR", 64, HV_RW, },
	[1006]= { "TRACE", 64, WO, },
	[1008]= { "HID", 64, HV_RW, },
	};

	/* This covers POWER8 and POWER9 PMUs */
	static const struct spr sprs_power_common_pmu[1024] = {
	[768] = { "SIER", 64, RO, },
	[769] = { "MMCR2", 64, RW, },
	[770] = { "MMCRA", 64, RW, },
	[771] = { "PMC1", 32, RW, },
	[772] = { "PMC2", 32, RW, },
	[773] = { "PMC3", 32, RW, },
	[774] = { "PMC4", 32, RW, },
	[775] = { "PMC5", 32, RW, },
	[776] = { "PMC6", 32, RW, },
	[779] = { "MMCR0", 64, RW, },
	[780] = { "SIAR", 64, RO, },
	[781] = { "SDAR", 64, RO, },
	[782] = { "MMCR1", 64, RO, },
	[784] = { "SIER", 64, OS_RW, },
	[785] = { "MMCR2", 64, OS_RW, },
	[786] = { "MMCRA", 64, OS_RW, },
	[787] = { "PMC1", 32, OS_RW, },
	[788] = { "PMC2", 32, OS_RW, },
	[789] = { "PMC3", 32, OS_RW, },
	[790] = { "PMC4", 32, OS_RW, },
	[791] = { "PMC5", 32, OS_RW, },
	[792] = { "PMC6", 32, OS_RW, },
	[795] = { "MMCR0", 64, OS_RW, },
	[796] = { "SIAR", 64, OS_RW, },
	[797] = { "SDAR", 64, OS_RW, },
	[798] = { "MMCR1", 64, OS_RW, },
	};

	static const struct spr sprs_power10_pmu[1024] = {
	[736] = { "SIER2", 64, RO, },
	[737] = { "SIER3", 64, RO, },
	[738] = { "MMCR3", 64, RO, },
	[752] = { "SIER2", 64, OS_RW, },
	[753] = { "SIER3", 64, OS_RW, },
	[754] = { "MMCR3", 64, OS_RW, },
	};

	static struct spr sprs[1024];

	static void setup_sprs(void)
	{
	int i;

	for (i = 0; i < 1024; i++) {
	if (sprs_common[i].name) {
	memcpy(&sprs[i], &sprs_common[i], sizeof(struct spr));
	}
	}

	switch (mfspr(SPR_PVR) & PVR_VERSION_MASK) {
	case PVR_VER_970:
	case PVR_VER_970FX:
	case PVR_VER_970MP:
	for (i = 0; i < 1024; i++) {
	if (sprs_201[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_201[i], sizeof(struct spr));
	}
	if (sprs_970_pmu[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
	}
	}
	break;

	case PVR_VER_POWER8E:
	case PVR_VER_POWER8NVL:
	case PVR_VER_POWER8:
	for (i = 0; i < 1024; i++) {
	if (sprs_power_common[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr));
	}
	if (sprs_207[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_207[i], sizeof(struct spr));
	}
	if (sprs_tm[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_tm[i], sizeof(struct spr));
	}
	if (sprs_power_common_pmu[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
	}
	}
	break;

	case PVR_VER_POWER9:
	for (i = 0; i < 1024; i++) {
	if (sprs_power_common[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr));
	}
	if (sprs_300[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_300[i], sizeof(struct spr));
	}
	if (sprs_tm[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_tm[i], sizeof(struct spr));
	}
	if (sprs_power9_10[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power9_10[i], sizeof(struct spr));
	}
	if (sprs_power_common_pmu[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
	}
	}
	break;

	case PVR_VER_POWER10:
	for (i = 0; i < 1024; i++) {
	if (sprs_power_common[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common[i], sizeof(struct spr));
	}
	if (sprs_31[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_31[i], sizeof(struct spr));
	}
	if (sprs_power9_10[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power9_10[i], sizeof(struct spr));
	}
	if (sprs_power_common_pmu[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power_common_pmu[i], sizeof(struct spr));
	}
	if (sprs_power10_pmu[i].name) {
	assert(!sprs[i].name);
	memcpy(&sprs[i], &sprs_power10_pmu[i], sizeof(struct spr));
	}
	}
	break;

	default:
	memcpy(sprs, sprs_common, sizeof(sprs));
	puts("Warning: Unknown processor version, falling back to common SPRs!\n");
	break;
	}
	}

	static void get_sprs(uint64_t *v)
	{
	int i;

	for (i = 0; i < 1024; i++) {
	if (!(sprs[i].access & SPR_OS_READ))
	continue;
	v[i] = __mfspr(i);
	}
	}

	static void set_sprs(uint64_t val)
	{
	int i;

	for (i = 0; i < 1024; i++) {
	if (!(sprs[i].access & SPR_OS_WRITE))
	continue;
	if (sprs[i].type & SPR_HARNESS)
	continue;
	__mtspr(i, val);
	}
	}

	int main(int argc, char **argv)
	{
	int i;
	bool pause = false;
	uint64_t pat = 0xcafefacec0debabeULL;
	const uint64_t patterns[] = {
	0xcafefacec0debabeULL, ~0xcafefacec0debabeULL,
	0xAAAA5555AAAA5555ULL, 0x5555AAAA5555AAAAULL,
	0x1234567890ABCDEFULL, 0xFEDCBA0987654321ULL,
	-1ULL,
	};

	for (i = 1; i < argc; i++) {
	if (!strcmp(argv[i], "-w")) {
	pause = true;
	} else if (!strcmp(argv[i], "-p")) {
	i += 1;
	if (i >= argc \|\| *argv[i] < '0'
	\|\| *argv[i] >= '0' + ARRAY_SIZE(patterns))
	report_abort("Error: bad value for -p");
	pat ^= patterns[*argv[i] - '0'];
	} else if (!strcmp(argv[i], "-t")) {
	/* Randomize with timebase register */
	asm volatile("mftb %0" : "=r"(i));
	pat ^= i;
	asm volatile("mftb %0" : "=r"(i));
	pat ^= ~(uint64_t)i << 32;
	} else {
	report_abort("Warning: Unsupported argument: %s",
	argv[i]);
	}
	}

	setup_sprs();

	printf("Setting SPRs to 0x%lx...\n", pat);
	set_sprs(pat);

	memset(before, 0, sizeof(before));
	memset(after, 0, sizeof(after));

	get_sprs(before);

	if (pause) {
	migrate_once();
	/* Reload regs changed by getchar/putchar hcalls */
	before[SPR_SRR0] = mfspr(SPR_SRR0);
	before[SPR_SRR1] = mfspr(SPR_SRR1);

	/* WORT seems to go to 0 after KVM switch, perhaps CPU idle */
	if (sprs[895].name)
	before[895] = mfspr(895);
	} else {
	/*
	* msleep will enable MSR[EE] and take a decrementer
	* interrupt. Must account for changed registers and
	* prevent taking unhandled interrupts.
	*/
	/* Prevent PMU interrupt */
	mtspr(SPR_MMCR0, (mfspr(SPR_MMCR0) \| MMCR0_FC) &
	~(MMCR0_PMAO \| MMCR0_PMAE));
	before[SPR_MMCR0] = mfspr(SPR_MMCR0);
	before[779] = mfspr(SPR_MMCR0);
	msleep(2000);

	/* Reload regs changed by dec interrupt */
	before[SPR_SRR0] = mfspr(SPR_SRR0);
	before[SPR_SRR1] = mfspr(SPR_SRR1);
	before[SPR_SPRG1] = mfspr(SPR_SPRG1);

	/* WORT seems to go to 0 after KVM switch, perhaps CPU idle */
	if (sprs[895].name)
	before[895] = mfspr(895);
	}

	get_sprs(after);

	puts("Checking SPRs...\n");
	for (i = 0; i < 1024; i++) {
	bool pass = true;

	if (!(sprs[i].access & SPR_OS_READ))
	continue;

	if (sprs[i].width == 32) {
	if (before[i] >> 32)
	pass = false;
	}
	if (!(sprs[i].type & (SPR_HARNESS\|SPR_ASYNC)) && (before[i] != after[i]))
	pass = false;

	if (sprs[i].width == 32 && !(before[i] >> 32) && !(after[i] >> 32)) {
	/* known failure KVM migration of CTRL */
	report_kfail(true && i == 136,
	"%-10s(%4d):\t 0x%08lx <==> 0x%08lx",
	sprs[i].name, i,
	before[i], after[i]);
	} else {
	report(pass, "%-10s(%4d):\t0x%016lx <==> 0x%016lx",
	sprs[i].name, i,
	before[i], after[i]);
	}
	}

	return report_summary();
	}