1fa624cc2SJanosch Frank /* SPDX-License-Identifier: GPL-2.0-only */ 2559eaa1eSDavid Hildenbrand /* 3559eaa1eSDavid Hildenbrand * Emulator tests - for s390x CPU instructions that are usually interpreted 4559eaa1eSDavid Hildenbrand * by the hardware 5559eaa1eSDavid Hildenbrand * 6559eaa1eSDavid Hildenbrand * Copyright (c) 2017 Red Hat Inc 7559eaa1eSDavid Hildenbrand * 8559eaa1eSDavid Hildenbrand * Authors: 9559eaa1eSDavid Hildenbrand * David Hildenbrand <david@redhat.com> 10559eaa1eSDavid Hildenbrand */ 11559eaa1eSDavid Hildenbrand #include <libcflat.h> 1240c8f4ceSDavid Hildenbrand #include <asm/cpacf.h> 1340c8f4ceSDavid Hildenbrand #include <asm/interrupt.h> 142d0d5f41SDavid Hildenbrand #include <asm/float.h> 15c2f4799aSClaudio Imbrenda #include <linux/compiler.h> 162d0d5f41SDavid Hildenbrand 17559eaa1eSDavid Hildenbrand static inline void __test_spm_ipm(uint8_t cc, uint8_t key) 18559eaa1eSDavid Hildenbrand { 19559eaa1eSDavid Hildenbrand uint64_t in = (cc << 28) | (key << 24); 20559eaa1eSDavid Hildenbrand uint64_t out = ~0ULL; 21559eaa1eSDavid Hildenbrand 22559eaa1eSDavid Hildenbrand report_prefix_pushf("cc=%d,key=%x", cc, key); 23559eaa1eSDavid Hildenbrand 24559eaa1eSDavid Hildenbrand asm volatile ("spm %1\n" 25559eaa1eSDavid Hildenbrand "ipm %0\n" 26559eaa1eSDavid Hildenbrand : "+r"(out) : "r"(in) : "cc"); 27559eaa1eSDavid Hildenbrand 28a299895bSThomas Huth report(!(out & 0xc0000000UL), "bit 32 and 33 set to zero"); 29a299895bSThomas Huth report((out & ~0xff000000ULL) == ~0xff000000ULL, 30a299895bSThomas Huth "bit 0-31, 40-63 unchanged"); 31a299895bSThomas Huth report(!((in ^ out) & 0x3f000000UL), "cc and key applied"); 32559eaa1eSDavid Hildenbrand 33559eaa1eSDavid Hildenbrand report_prefix_pop(); 34559eaa1eSDavid Hildenbrand } 35559eaa1eSDavid Hildenbrand 36559eaa1eSDavid Hildenbrand /* Test the SET PROGRAM PARAMETER and INSERT PROGRAM PARAMETER instruction */ 37559eaa1eSDavid Hildenbrand static void test_spm_ipm(void) 38559eaa1eSDavid Hildenbrand { 39559eaa1eSDavid Hildenbrand __test_spm_ipm(0, 0xf); 40559eaa1eSDavid Hildenbrand __test_spm_ipm(1, 0x9); 41559eaa1eSDavid Hildenbrand __test_spm_ipm(2, 0x5); 42559eaa1eSDavid Hildenbrand __test_spm_ipm(3, 0x3); 43559eaa1eSDavid Hildenbrand __test_spm_ipm(0, 0); 44559eaa1eSDavid Hildenbrand } 45559eaa1eSDavid Hildenbrand 46c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf(unsigned int opcode, unsigned long func, 4740c8f4ceSDavid Hildenbrand unsigned int r1, unsigned int r2, 4840c8f4ceSDavid Hildenbrand unsigned int r3) 4940c8f4ceSDavid Hildenbrand { 5040c8f4ceSDavid Hildenbrand register unsigned long gr0 asm("0") = func; 5140c8f4ceSDavid Hildenbrand cpacf_mask_t mask; 5240c8f4ceSDavid Hildenbrand register unsigned long gr1 asm("1") = (unsigned long)&mask; 5340c8f4ceSDavid Hildenbrand 5440c8f4ceSDavid Hildenbrand asm volatile(".insn rrf,%[opc] << 16,%[r1],%[r2],%[r3],0\n" 5540c8f4ceSDavid Hildenbrand : : "d" (gr0), "d" (gr1), [opc] "i" (opcode), 5640c8f4ceSDavid Hildenbrand [r1] "i" (r1), [r2] "i" (r2), [r3] "i" (r3)); 5740c8f4ceSDavid Hildenbrand } 5840c8f4ceSDavid Hildenbrand 59c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_r1_odd(unsigned int opcode) 6040c8f4ceSDavid Hildenbrand { 6140c8f4ceSDavid Hildenbrand report_prefix_push("r1 odd"); 6240c8f4ceSDavid Hildenbrand expect_pgm_int(); 6340c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 0, 1, 4, 6); 6440c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 6540c8f4ceSDavid Hildenbrand report_prefix_pop(); 6640c8f4ceSDavid Hildenbrand } 6740c8f4ceSDavid Hildenbrand 68c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_r1_null(unsigned int opcode) 6940c8f4ceSDavid Hildenbrand { 7040c8f4ceSDavid Hildenbrand report_prefix_push("r1 null"); 7140c8f4ceSDavid Hildenbrand expect_pgm_int(); 7240c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 0, 0, 4, 6); 7340c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 7440c8f4ceSDavid Hildenbrand report_prefix_pop(); 7540c8f4ceSDavid Hildenbrand } 7640c8f4ceSDavid Hildenbrand 77c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_r2_odd(unsigned int opcode) 7840c8f4ceSDavid Hildenbrand { 7940c8f4ceSDavid Hildenbrand report_prefix_push("r2 odd"); 8040c8f4ceSDavid Hildenbrand expect_pgm_int(); 8140c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 0, 2, 3, 6); 8240c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 8340c8f4ceSDavid Hildenbrand report_prefix_pop(); 8440c8f4ceSDavid Hildenbrand } 8540c8f4ceSDavid Hildenbrand 86c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_r2_null(unsigned int opcode) 8740c8f4ceSDavid Hildenbrand { 8840c8f4ceSDavid Hildenbrand report_prefix_push("r2 null"); 8940c8f4ceSDavid Hildenbrand expect_pgm_int(); 9040c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 0, 2, 0, 6); 9140c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 9240c8f4ceSDavid Hildenbrand report_prefix_pop(); 9340c8f4ceSDavid Hildenbrand } 9440c8f4ceSDavid Hildenbrand 95c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_r3_odd(unsigned int opcode) 9640c8f4ceSDavid Hildenbrand { 9740c8f4ceSDavid Hildenbrand report_prefix_push("r3 odd"); 9840c8f4ceSDavid Hildenbrand expect_pgm_int(); 9940c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 0, 2, 4, 5); 10040c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 10140c8f4ceSDavid Hildenbrand report_prefix_pop(); 10240c8f4ceSDavid Hildenbrand } 10340c8f4ceSDavid Hildenbrand 104c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_r3_null(unsigned int opcode) 10540c8f4ceSDavid Hildenbrand { 10640c8f4ceSDavid Hildenbrand report_prefix_push("r3 null"); 10740c8f4ceSDavid Hildenbrand expect_pgm_int(); 10840c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 0, 2, 4, 0); 10940c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 11040c8f4ceSDavid Hildenbrand report_prefix_pop(); 11140c8f4ceSDavid Hildenbrand } 11240c8f4ceSDavid Hildenbrand 113c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_mod_bit(unsigned int opcode) 11440c8f4ceSDavid Hildenbrand { 11540c8f4ceSDavid Hildenbrand report_prefix_push("mod bit"); 11640c8f4ceSDavid Hildenbrand expect_pgm_int(); 11740c8f4ceSDavid Hildenbrand __test_cpacf(opcode, CPACF_DECRYPT, 2, 4, 6); 11840c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 11940c8f4ceSDavid Hildenbrand report_prefix_pop(); 12040c8f4ceSDavid Hildenbrand } 12140c8f4ceSDavid Hildenbrand 122c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_invalid_func(unsigned int opcode) 12340c8f4ceSDavid Hildenbrand { 12440c8f4ceSDavid Hildenbrand report_prefix_push("invalid subfunction"); 12540c8f4ceSDavid Hildenbrand expect_pgm_int(); 12640c8f4ceSDavid Hildenbrand /* 127 is unassigned for now. We don't simply use any, as HW 12740c8f4ceSDavid Hildenbrand * might simply mask valid codes in query but they might still work */ 12840c8f4ceSDavid Hildenbrand if (cpacf_query_func(opcode, 127)) { 12940c8f4ceSDavid Hildenbrand report_skip("127 not invalid"); 13040c8f4ceSDavid Hildenbrand } else { 13140c8f4ceSDavid Hildenbrand __test_cpacf(opcode, 127, 2, 4, 6); 13240c8f4ceSDavid Hildenbrand } 13340c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_SPECIFICATION); 13440c8f4ceSDavid Hildenbrand report_prefix_pop(); 13540c8f4ceSDavid Hildenbrand } 13640c8f4ceSDavid Hildenbrand 137c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_invalid_parm(unsigned int opcode) 13840c8f4ceSDavid Hildenbrand { 13940c8f4ceSDavid Hildenbrand report_prefix_push("invalid parm address"); 14040c8f4ceSDavid Hildenbrand expect_pgm_int(); 14140c8f4ceSDavid Hildenbrand __cpacf_query(opcode, (void *) -1); 14240c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_ADDRESSING); 14340c8f4ceSDavid Hildenbrand report_prefix_pop(); 14440c8f4ceSDavid Hildenbrand } 14540c8f4ceSDavid Hildenbrand 146c2f4799aSClaudio Imbrenda static __always_inline void __test_cpacf_protected_parm(unsigned int opcode) 14740c8f4ceSDavid Hildenbrand { 14840c8f4ceSDavid Hildenbrand report_prefix_push("protected parm address"); 14940c8f4ceSDavid Hildenbrand expect_pgm_int(); 15040c8f4ceSDavid Hildenbrand low_prot_enable(); 15140c8f4ceSDavid Hildenbrand __cpacf_query(opcode, (void *) 8); 15240c8f4ceSDavid Hildenbrand low_prot_disable(); 15340c8f4ceSDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_PROTECTION); 15440c8f4ceSDavid Hildenbrand report_prefix_pop(); 15540c8f4ceSDavid Hildenbrand } 15640c8f4ceSDavid Hildenbrand 157c2f4799aSClaudio Imbrenda static __always_inline void __test_basic_cpacf_opcode(unsigned int opcode) 15840c8f4ceSDavid Hildenbrand { 15940c8f4ceSDavid Hildenbrand bool mod_bit_allowed = false; 16040c8f4ceSDavid Hildenbrand 16140c8f4ceSDavid Hildenbrand if (!__cpacf_check_opcode(opcode)) { 16240c8f4ceSDavid Hildenbrand report_skip("not available"); 16340c8f4ceSDavid Hildenbrand return; 16440c8f4ceSDavid Hildenbrand } 165a299895bSThomas Huth report(cpacf_query_func(opcode, 0), "query indicated in query"); 16640c8f4ceSDavid Hildenbrand 16740c8f4ceSDavid Hildenbrand switch (opcode) { 16840c8f4ceSDavid Hildenbrand case CPACF_KMCTR: 16940c8f4ceSDavid Hildenbrand __test_cpacf_r3_odd(opcode); 17040c8f4ceSDavid Hildenbrand __test_cpacf_r3_null(opcode); 17140c8f4ceSDavid Hildenbrand /* FALL THROUGH */ 17240c8f4ceSDavid Hildenbrand case CPACF_PRNO: 17340c8f4ceSDavid Hildenbrand case CPACF_KMF: 17440c8f4ceSDavid Hildenbrand case CPACF_KMC: 17540c8f4ceSDavid Hildenbrand case CPACF_KMO: 17640c8f4ceSDavid Hildenbrand case CPACF_KM: 17740c8f4ceSDavid Hildenbrand __test_cpacf_r1_odd(opcode); 17840c8f4ceSDavid Hildenbrand __test_cpacf_r1_null(opcode); 17940c8f4ceSDavid Hildenbrand mod_bit_allowed = true; 18040c8f4ceSDavid Hildenbrand /* FALL THROUGH */ 18140c8f4ceSDavid Hildenbrand case CPACF_KMAC: 18240c8f4ceSDavid Hildenbrand case CPACF_KIMD: 18340c8f4ceSDavid Hildenbrand case CPACF_KLMD: 18440c8f4ceSDavid Hildenbrand __test_cpacf_r2_odd(opcode); 18540c8f4ceSDavid Hildenbrand __test_cpacf_r2_null(opcode); 18640c8f4ceSDavid Hildenbrand break; 18740c8f4ceSDavid Hildenbrand } 18840c8f4ceSDavid Hildenbrand if (!mod_bit_allowed) 18940c8f4ceSDavid Hildenbrand __test_cpacf_mod_bit(opcode); 19040c8f4ceSDavid Hildenbrand __test_cpacf_invalid_func(opcode); 19140c8f4ceSDavid Hildenbrand __test_cpacf_invalid_parm(opcode); 19240c8f4ceSDavid Hildenbrand __test_cpacf_protected_parm(opcode); 19340c8f4ceSDavid Hildenbrand } 19440c8f4ceSDavid Hildenbrand 19540c8f4ceSDavid Hildenbrand /* COMPUTE MESSAGE AUTHENTICATION CODE */ 19640c8f4ceSDavid Hildenbrand static void test_kmac(void) 19740c8f4ceSDavid Hildenbrand { 19840c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KMAC); 19940c8f4ceSDavid Hildenbrand } 20040c8f4ceSDavid Hildenbrand 20140c8f4ceSDavid Hildenbrand /* CIPHER MESSAGE */ 20240c8f4ceSDavid Hildenbrand static void test_km(void) 20340c8f4ceSDavid Hildenbrand { 20440c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KM); 20540c8f4ceSDavid Hildenbrand } 20640c8f4ceSDavid Hildenbrand /* CIPHER MESSAGE WITH CHAINING */ 20740c8f4ceSDavid Hildenbrand static void test_kmc(void) 20840c8f4ceSDavid Hildenbrand { 20940c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KMC); 21040c8f4ceSDavid Hildenbrand } 21140c8f4ceSDavid Hildenbrand 21240c8f4ceSDavid Hildenbrand /* COMPUTE INTERMEDIATE MESSAGE DIGEST */ 21340c8f4ceSDavid Hildenbrand static void test_kimd(void) 21440c8f4ceSDavid Hildenbrand { 21540c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KIMD); 21640c8f4ceSDavid Hildenbrand } 21740c8f4ceSDavid Hildenbrand 21840c8f4ceSDavid Hildenbrand /* COMPUTE LAST MESSAGE DIGEST */ 21940c8f4ceSDavid Hildenbrand static void test_klmd(void) 22040c8f4ceSDavid Hildenbrand { 22140c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KLMD); 22240c8f4ceSDavid Hildenbrand } 22340c8f4ceSDavid Hildenbrand 22440c8f4ceSDavid Hildenbrand /* PERFORM CRYPTOGRAPHIC KEY MANAGEMENT OPERATION */ 22540c8f4ceSDavid Hildenbrand static void test_pckmo(void) 22640c8f4ceSDavid Hildenbrand { 22740c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_PCKMO); 22840c8f4ceSDavid Hildenbrand } 22940c8f4ceSDavid Hildenbrand 23040c8f4ceSDavid Hildenbrand /* CIPHER MESSAGE WITH CIPHER FEEDBACK */ 23140c8f4ceSDavid Hildenbrand static void test_kmf(void) 23240c8f4ceSDavid Hildenbrand { 23340c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KMF); 23440c8f4ceSDavid Hildenbrand } 23540c8f4ceSDavid Hildenbrand 23640c8f4ceSDavid Hildenbrand /* PERFORM CRYPTOGRAPHIC KEY MANAGEMENT OPERATION */ 23740c8f4ceSDavid Hildenbrand static void test_kmo(void) 23840c8f4ceSDavid Hildenbrand { 23940c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KMO); 24040c8f4ceSDavid Hildenbrand } 24140c8f4ceSDavid Hildenbrand 24240c8f4ceSDavid Hildenbrand /* PERFORM CRYPTOGRAPHIC COMPUTATION */ 24340c8f4ceSDavid Hildenbrand static void test_pcc(void) 24440c8f4ceSDavid Hildenbrand { 24540c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_PCC); 24640c8f4ceSDavid Hildenbrand } 24740c8f4ceSDavid Hildenbrand 24840c8f4ceSDavid Hildenbrand /* CIPHER MESSAGE WITH COUNTER */ 24940c8f4ceSDavid Hildenbrand static void test_kmctr(void) 25040c8f4ceSDavid Hildenbrand { 25140c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_KMCTR); 25240c8f4ceSDavid Hildenbrand } 25340c8f4ceSDavid Hildenbrand 25440c8f4ceSDavid Hildenbrand /* PERFORM RANDOM NUMBER OPERATION (formerly PPNO) */ 25540c8f4ceSDavid Hildenbrand static void test_prno(void) 25640c8f4ceSDavid Hildenbrand { 25740c8f4ceSDavid Hildenbrand __test_basic_cpacf_opcode(CPACF_PRNO); 25840c8f4ceSDavid Hildenbrand } 25940c8f4ceSDavid Hildenbrand 2602d0d5f41SDavid Hildenbrand static void test_dxc(void) 2612d0d5f41SDavid Hildenbrand { 2622d0d5f41SDavid Hildenbrand /* DXC (0xff) is to be stored in LC and FPC on a trap (CRT) with AFP */ 263*cd719531SJanis Schoetterl-Glausch lowcore.dxc_vxc = 0x12345678; 2642d0d5f41SDavid Hildenbrand set_fpc_dxc(0); 2652d0d5f41SDavid Hildenbrand 26699ee877dSJanosch Frank report_prefix_push("afp"); 2672d0d5f41SDavid Hildenbrand expect_pgm_int(); 2682d0d5f41SDavid Hildenbrand asm volatile(" .insn rrf,0xb9600000,%0,%0,8,0\n" 2692d0d5f41SDavid Hildenbrand : : "r"(0) : "memory"); 2702d0d5f41SDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_DATA); 2712d0d5f41SDavid Hildenbrand 272*cd719531SJanis Schoetterl-Glausch report(lowcore.dxc_vxc == 0xff, "dxc in LC"); 273a299895bSThomas Huth report(get_fpc_dxc() == 0xff, "dxc in FPC"); 27499ee877dSJanosch Frank report_prefix_pop(); 2752d0d5f41SDavid Hildenbrand 2762d0d5f41SDavid Hildenbrand /* DXC (0xff) is to be stored in LC only on a trap (CRT) without AFP */ 277*cd719531SJanis Schoetterl-Glausch lowcore.dxc_vxc = 0x12345678; 2782d0d5f41SDavid Hildenbrand set_fpc_dxc(0); 2792d0d5f41SDavid Hildenbrand 28099ee877dSJanosch Frank report_prefix_push("no-afp"); 2812d0d5f41SDavid Hildenbrand expect_pgm_int(); 2822d0d5f41SDavid Hildenbrand /* temporarily disable AFP */ 2832d0d5f41SDavid Hildenbrand afp_disable(); 2842d0d5f41SDavid Hildenbrand asm volatile(" .insn rrf,0xb9600000,%0,%0,8,0\n" 2852d0d5f41SDavid Hildenbrand : : "r"(0) : "memory"); 2862d0d5f41SDavid Hildenbrand afp_enable(); 2872d0d5f41SDavid Hildenbrand check_pgm_int_code(PGM_INT_CODE_DATA); 2882d0d5f41SDavid Hildenbrand 289*cd719531SJanis Schoetterl-Glausch report(lowcore.dxc_vxc == 0xff, "dxc in LC"); 290a299895bSThomas Huth report(get_fpc_dxc() == 0, "dxc not in FPC"); 29199ee877dSJanosch Frank report_prefix_pop(); 2922d0d5f41SDavid Hildenbrand } 2932d0d5f41SDavid Hildenbrand 294559eaa1eSDavid Hildenbrand static struct { 295559eaa1eSDavid Hildenbrand const char *name; 296559eaa1eSDavid Hildenbrand void (*func)(void); 297559eaa1eSDavid Hildenbrand } tests[] = { 298559eaa1eSDavid Hildenbrand { "spm/ipm", test_spm_ipm }, 29940c8f4ceSDavid Hildenbrand { "kmac", test_kmac }, 30040c8f4ceSDavid Hildenbrand { "km", test_km }, 30140c8f4ceSDavid Hildenbrand { "kmc", test_kmc }, 30240c8f4ceSDavid Hildenbrand { "kimd", test_kimd }, 30340c8f4ceSDavid Hildenbrand { "klmd", test_klmd }, 30440c8f4ceSDavid Hildenbrand { "pckmo", test_pckmo }, 30540c8f4ceSDavid Hildenbrand { "kmf", test_kmf }, 30640c8f4ceSDavid Hildenbrand { "kmo", test_kmo }, 30740c8f4ceSDavid Hildenbrand { "pcc", test_pcc }, 30840c8f4ceSDavid Hildenbrand { "kmctr", test_kmctr }, 30940c8f4ceSDavid Hildenbrand { "prno", test_prno }, 3102d0d5f41SDavid Hildenbrand { "dxc", test_dxc }, 311559eaa1eSDavid Hildenbrand { NULL, NULL } 312559eaa1eSDavid Hildenbrand }; 313559eaa1eSDavid Hildenbrand 314559eaa1eSDavid Hildenbrand int main(int argc, char**argv) 315559eaa1eSDavid Hildenbrand { 316559eaa1eSDavid Hildenbrand int i; 317559eaa1eSDavid Hildenbrand 318559eaa1eSDavid Hildenbrand report_prefix_push("emulator"); 319559eaa1eSDavid Hildenbrand for (i = 0; tests[i].name; i++) { 320559eaa1eSDavid Hildenbrand report_prefix_push(tests[i].name); 321559eaa1eSDavid Hildenbrand tests[i].func(); 322559eaa1eSDavid Hildenbrand report_prefix_pop(); 323559eaa1eSDavid Hildenbrand } 324559eaa1eSDavid Hildenbrand report_prefix_pop(); 325559eaa1eSDavid Hildenbrand 326559eaa1eSDavid Hildenbrand return report_summary(); 327559eaa1eSDavid Hildenbrand } 328