// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2017, Gustavo Romero, Breno Leitao, Cyril Bur, IBM Corp. * * Force FP, VEC and VSX unavailable exception during transaction in all * possible scenarios regarding the MSR.FP and MSR.VEC state, e.g. when FP * is enable and VEC is disable, when FP is disable and VEC is enable, and * so on. Then we check if the restored state is correctly set for the * FP and VEC registers to the previous state we set just before we entered * in TM, i.e. we check if it corrupts somehow the recheckpointed FP and * VEC/Altivec registers on abortion due to an unavailable exception in TM. * N.B. In this test we do not test all the FP/Altivec/VSX registers for * corruption, but only for registers vs0 and vs32, which are respectively * representatives of FP and VEC/Altivec reg sets. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include "tm.h" #define DEBUG 0 /* Unavailable exceptions to test in HTM */ #define FP_UNA_EXCEPTION 0 #define VEC_UNA_EXCEPTION 1 #define VSX_UNA_EXCEPTION 2 #define NUM_EXCEPTIONS 3 #define err_at_line(status, errnum, format, ...) \ error_at_line(status, errnum, __FILE__, __LINE__, format ##__VA_ARGS__) #define pr_warn(code, format, ...) err_at_line(0, code, format, ##__VA_ARGS__) #define pr_err(code, format, ...) err_at_line(1, code, format, ##__VA_ARGS__) struct Flags { int touch_fp; int touch_vec; int result; int exception; } flags; bool expecting_failure(void) { if (flags.touch_fp && flags.exception == FP_UNA_EXCEPTION) return false; if (flags.touch_vec && flags.exception == VEC_UNA_EXCEPTION) return false; /* * If both FP and VEC are touched it does not mean that touching VSX * won't raise an exception. However since FP and VEC state are already * correctly loaded, the transaction is not aborted (i.e. * treclaimed/trecheckpointed) and MSR.VSX is just set as 1, so a TM * failure is not expected also in this case. */ if ((flags.touch_fp && flags.touch_vec) && flags.exception == VSX_UNA_EXCEPTION) return false; return true; } /* Check if failure occurred whilst in transaction. */ bool is_failure(uint64_t condition_reg) { /* * When failure handling occurs, CR0 is set to 0b1010 (0xa). Otherwise * transaction completes without failure and hence reaches out 'tend.' * that sets CR0 to 0b0100 (0x4). */ return ((condition_reg >> 28) & 0xa) == 0xa; } void *tm_una_ping(void *input) { /* * Expected values for vs0 and vs32 after a TM failure. They must never * change, otherwise they got corrupted. */ uint64_t high_vs0 = 0x5555555555555555; uint64_t low_vs0 = 0xffffffffffffffff; uint64_t high_vs32 = 0x5555555555555555; uint64_t low_vs32 = 0xffffffffffffffff; /* Counter for busy wait */ uint64_t counter = 0x1ff000000; /* * Variable to keep a copy of CR register content taken just after we * leave the transactional state. */ uint64_t cr_ = 0; /* * Wait a bit so thread can get its name "ping". This is not important * to reproduce the issue but it's nice to have for systemtap debugging. */ if (DEBUG) sleep(1); printf("If MSR.FP=%d MSR.VEC=%d: ", flags.touch_fp, flags.touch_vec); if (flags.exception != FP_UNA_EXCEPTION && flags.exception != VEC_UNA_EXCEPTION && flags.exception != VSX_UNA_EXCEPTION) { printf("No valid exception specified to test.\n"); return NULL; } asm ( /* Prepare to merge low and high. */ " mtvsrd 33, %[high_vs0] ;" " mtvsrd 34, %[low_vs0] ;" /* * Adjust VS0 expected value after an TM failure, * i.e. vs0 = 0x5555555555555555555FFFFFFFFFFFFFFFF */ " xxmrghd 0, 33, 34 ;" /* * Adjust VS32 expected value after an TM failure, * i.e. vs32 = 0x5555555555555555555FFFFFFFFFFFFFFFF */ " xxmrghd 32, 33, 34 ;" /* * Wait an amount of context switches so load_fp and load_vec * overflow and MSR.FP, MSR.VEC, and MSR.VSX become zero (off). */ " mtctr %[counter] ;" /* Decrement CTR branch if CTR non zero. */ "1: bdnz 1b ;" /* * Check if we want to touch FP prior to the test in order * to set MSR.FP = 1 before provoking an unavailable * exception in TM. */ " cmpldi %[touch_fp], 0 ;" " beq no_fp ;" " fadd 10, 10, 10 ;" "no_fp: ;" /* * Check if we want to touch VEC prior to the test in order * to set MSR.VEC = 1 before provoking an unavailable * exception in TM. */ " cmpldi %[touch_vec], 0 ;" " beq no_vec ;" " vaddcuw 10, 10, 10 ;" "no_vec: ;" /* * Perhaps it would be a better idea to do the * compares outside transactional context and simply * duplicate code. */ " tbegin. ;" " beq trans_fail ;" /* Do we do FP Unavailable? */ " cmpldi %[exception], %[ex_fp] ;" " bne 1f ;" " fadd 10, 10, 10 ;" " b done ;" /* Do we do VEC Unavailable? */ "1: cmpldi %[exception], %[ex_vec] ;" " bne 2f ;" " vaddcuw 10, 10, 10 ;" " b done ;" /* * Not FP or VEC, therefore VSX. Ensure this * instruction always generates a VSX Unavailable. * ISA 3.0 is tricky here. * (xxmrghd will on ISA 2.07 and ISA 3.0) */ "2: xxmrghd 10, 10, 10 ;" "done: tend. ;" "trans_fail: ;" /* Give values back to C. */ " mfvsrd %[high_vs0], 0 ;" " xxsldwi 3, 0, 0, 2 ;" " mfvsrd %[low_vs0], 3 ;" " mfvsrd %[high_vs32], 32 ;" " xxsldwi 3, 32, 32, 2 ;" " mfvsrd %[low_vs32], 3 ;" /* Give CR back to C so that it can check what happened. */ " mfcr %[cr_] ;" : [high_vs0] "+r" (high_vs0), [low_vs0] "+r" (low_vs0), [high_vs32] "=r" (high_vs32), [low_vs32] "=r" (low_vs32), [cr_] "+r" (cr_) : [touch_fp] "r" (flags.touch_fp), [touch_vec] "r" (flags.touch_vec), [exception] "r" (flags.exception), [ex_fp] "i" (FP_UNA_EXCEPTION), [ex_vec] "i" (VEC_UNA_EXCEPTION), [ex_vsx] "i" (VSX_UNA_EXCEPTION), [counter] "r" (counter) : "cr0", "ctr", "v10", "vs0", "vs10", "vs3", "vs32", "vs33", "vs34", "fr10" ); /* * Check if we were expecting a failure and it did not occur by checking * CR0 state just after we leave the transaction. Either way we check if * vs0 or vs32 got corrupted. */ if (expecting_failure() && !is_failure(cr_)) { printf("\n\tExpecting the transaction to fail, %s", "but it didn't\n\t"); flags.result++; } /* Check if we were not expecting a failure and a it occurred. */ if (!expecting_failure() && is_failure(cr_) && !failure_is_reschedule()) { printf("\n\tUnexpected transaction failure 0x%02lx\n\t", failure_code()); return (void *) -1; } /* * Check if TM failed due to the cause we were expecting. 0xda is a * TM_CAUSE_FAC_UNAV cause, otherwise it's an unexpected cause, unless * it was caused by a reschedule. */ if (is_failure(cr_) && !failure_is_unavailable() && !failure_is_reschedule()) { printf("\n\tUnexpected failure cause 0x%02lx\n\t", failure_code()); return (void *) -1; } /* 0x4 is a success and 0xa is a fail. See comment in is_failure(). */ if (DEBUG) printf("CR0: 0x%1lx ", cr_ >> 28); /* Check FP (vs0) for the expected value. */ if (high_vs0 != 0x5555555555555555 || low_vs0 != 0xFFFFFFFFFFFFFFFF) { printf("FP corrupted!"); printf(" high = %#16" PRIx64 " low = %#16" PRIx64 " ", high_vs0, low_vs0); flags.result++; } else printf("FP ok "); /* Check VEC (vs32) for the expected value. */ if (high_vs32 != 0x5555555555555555 || low_vs32 != 0xFFFFFFFFFFFFFFFF) { printf("VEC corrupted!"); printf(" high = %#16" PRIx64 " low = %#16" PRIx64, high_vs32, low_vs32); flags.result++; } else printf("VEC ok"); putchar('\n'); return NULL; } /* Thread to force context switch */ void *tm_una_pong(void *not_used) { /* Wait thread get its name "pong". */ if (DEBUG) sleep(1); /* Classed as an interactive-like thread. */ while (1) sched_yield(); } /* Function that creates a thread and launches the "ping" task. */ void test_fp_vec(int fp, int vec, pthread_attr_t *attr) { int retries = 2; void *ret_value; pthread_t t0; flags.touch_fp = fp; flags.touch_vec = vec; /* * Without luck it's possible that the transaction is aborted not due to * the unavailable exception caught in the middle as we expect but also, * for instance, due to a context switch or due to a KVM reschedule (if * it's running on a VM). Thus we try a few times before giving up, * checking if the failure cause is the one we expect. */ do { int rc; /* Bind to CPU 0, as specified in 'attr'. */ rc = pthread_create(&t0, attr, tm_una_ping, (void *) &flags); if (rc) pr_err(rc, "pthread_create()"); rc = pthread_setname_np(t0, "tm_una_ping"); if (rc) pr_warn(rc, "pthread_setname_np"); rc = pthread_join(t0, &ret_value); if (rc) pr_err(rc, "pthread_join"); retries--; } while (ret_value != NULL && retries); if (!retries) { flags.result = 1; if (DEBUG) printf("All transactions failed unexpectedly\n"); } } int tm_unavailable_test(void) { int rc, exception; /* FP = 0, VEC = 1, VSX = 2 */ pthread_t t1; pthread_attr_t attr; cpu_set_t cpuset; SKIP_IF(!have_htm()); /* Set only CPU 0 in the mask. Both threads will be bound to CPU 0. */ CPU_ZERO(&cpuset); CPU_SET(0, &cpuset); /* Init pthread attribute. */ rc = pthread_attr_init(&attr); if (rc) pr_err(rc, "pthread_attr_init()"); /* Set CPU 0 mask into the pthread attribute. */ rc = pthread_attr_setaffinity_np(&attr, sizeof(cpu_set_t), &cpuset); if (rc) pr_err(rc, "pthread_attr_setaffinity_np()"); rc = pthread_create(&t1, &attr /* Bind to CPU 0 */, tm_una_pong, NULL); if (rc) pr_err(rc, "pthread_create()"); /* Name it for systemtap convenience */ rc = pthread_setname_np(t1, "tm_una_pong"); if (rc) pr_warn(rc, "pthread_create()"); flags.result = 0; for (exception = 0; exception < NUM_EXCEPTIONS; exception++) { printf("Checking if FP/VEC registers are sane after"); if (exception == FP_UNA_EXCEPTION) printf(" a FP unavailable exception...\n"); else if (exception == VEC_UNA_EXCEPTION) printf(" a VEC unavailable exception...\n"); else printf(" a VSX unavailable exception...\n"); flags.exception = exception; test_fp_vec(0, 0, &attr); test_fp_vec(1, 0, &attr); test_fp_vec(0, 1, &attr); test_fp_vec(1, 1, &attr); } if (flags.result > 0) { printf("result: failed!\n"); exit(1); } else { printf("result: success\n"); exit(0); } } int main(int argc, char **argv) { test_harness_set_timeout(220); return test_harness(tm_unavailable_test, "tm_unavailable_test"); }