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author | Megan Wachs <megan@sifive.com> | 2018-08-30 11:26:05 -0700 |
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committer | Megan Wachs <megan@sifive.com> | 2018-08-30 11:26:05 -0700 |
commit | 934440b80ea665ba503b4429e6b056765cc2694b (patch) | |
tree | 7dcf09db34f91caa8962a299c2f51b66af62e897 | |
parent | 34ee883aef314f45b563b28b630a2b0b81086aea (diff) | |
download | riscv-openocd-934440b80ea665ba503b4429e6b056765cc2694b.zip riscv-openocd-934440b80ea665ba503b4429e6b056765cc2694b.tar.gz riscv-openocd-934440b80ea665ba503b4429e6b056765cc2694b.tar.bz2 |
riscv-compliance: incorporate review feedback
-rw-r--r-- | src/target/riscv/riscv-013.c | 231 |
1 files changed, 108 insertions, 123 deletions
diff --git a/src/target/riscv/riscv-013.c b/src/target/riscv/riscv-013.c index cce5f47..ec7b2f1 100644 --- a/src/target/riscv/riscv-013.c +++ b/src/target/riscv/riscv-013.c @@ -3058,6 +3058,21 @@ void riscv013_clear_abstract_error(struct target *target) total_tests++; \ } +#define COMPLIANCE_MUST_PASS(b) COMPLIANCE_TEST(ERROR_OK == (b), "Regular calls must return ERROR_OK") + +#define COMPLIANCE_READ(target, addr, value) COMPLIANCE_MUST_PASS(dmi_read(target, addr, value)) +#define COMPLIANCE_WRITE(target, addr, value) COMPLIANCE_MUST_PASS(dmi_write(target, addr, value)) + +#define COMPLIANCE_CHECK_RO(target, addr) \ +{ \ + uint32_t orig; \ + uint32_t inverse; \ + COMPLIANCE_READ(target, &orig, addr); \ + COMPLIANCE_WRITE(target, addr, ~orig); \ + COMPLIANCE_READ(target, &inverse, addr); \ + COMPLIANCE_TEST(orig == inverse, "Register must be read-only"); \ +} + int riscv013_test_compliance(struct target *target) { LOG_INFO("Testing Compliance against RISC-V Debug Spec v0.13"); @@ -3077,71 +3092,48 @@ int riscv013_test_compliance(struct target *target) riscv_reg_t value; RISCV013_INFO(info); - /* TODO: Support HARTSELLHI as well */ - dmcontrol = dmcontrol_orig | DMI_DMCONTROL_HARTSELLO; - dmi_write(target, DMI_DMCONTROL, dmcontrol); - dmi_read(target, &dmcontrol, DMI_DMCONTROL); - COMPLIANCE_TEST(get_field(dmcontrol, DMI_DMCONTROL_HARTSELLO) == (uint32_t) ((1 << info->hartsellen) - 1), - "DMCONTROL.hartsello should hold all the harts allowed by its hartsellen."); - - dmcontrol = set_field(dmcontrol_orig, DMI_DMCONTROL_HARTSELLO, 0); - dmi_write(target, DMI_DMCONTROL, dmcontrol); - dmi_read(target, &dmcontrol, DMI_DMCONTROL); - COMPLIANCE_TEST(get_field(dmcontrol, DMI_DMCONTROL_HARTSELLO) == 0, - "DMCONTROL.hartsello should hold Hart ID 0"); + /* All the bits of HARTSEL is covered by the examine sequence. */ /* hartreset */ /* This field is optional. Either we can read and write it to 1/0, - or it is tied to 0. */ - dmcontrol = set_field(dmcontrol_orig, DMI_DMCONTROL_HARTRESET, 1); - dmi_write(target, DMI_DMCONTROL, dmcontrol); - dmi_read(target, &dmcontrol, DMI_DMCONTROL); - testvar = get_field(dmcontrol, DMI_DMCONTROL_HARTRESET); - dmcontrol = set_field(dmcontrol_orig, DMI_DMCONTROL_HARTRESET, 0); - dmi_write(target, DMI_DMCONTROL, dmcontrol); - dmi_read(target, &dmcontrol, DMI_DMCONTROL); - COMPLIANCE_TEST(((testvar == 0) || (get_field(dmcontrol, DMI_DMCONTROL_HARTRESET)) == 0), - "DMCONTROL.hartreset can be 0 or RW."); + or it is tied to 0. This check doesn't really do anything, but + it does attempt to set the bit to 1 and then back to 0, which needs to + work if its implemented. */ + COMPLIANCE_WRITE(target, DMI_DMCONTROL, set_field(dmcontrol_orig, DMI_DMCONTROL_HARTRESET, 1)); + COMPLIANCE_WRITE(target, DMI_DMCONTROL, set_field(dmcontrol_orig, DMI_DMCONTROL_HARTRESET, 0)); + COMPLIANCE_READ(target, &dmcontrol, DMI_DMCONTROL); + COMPLIANCE_TEST((get_field(dmcontrol, DMI_DMCONTROL_HARTRESET) == 0), + "DMCONTROL.hartreset can be 0 or RW."); /* hasel */ - dmcontrol = set_field(dmcontrol_orig, DMI_DMCONTROL_HASEL, 1); - dmi_write(target, DMI_DMCONTROL, dmcontrol); - dmi_read(target, &dmcontrol, DMI_DMCONTROL); - testvar = get_field(dmcontrol, DMI_DMCONTROL_HASEL); - dmcontrol = set_field(dmcontrol_orig, DMI_DMCONTROL_HASEL, 0); - dmi_write(target, DMI_DMCONTROL, dmcontrol); - dmi_read(target, &dmcontrol, DMI_DMCONTROL); - COMPLIANCE_TEST(((testvar == 0) || (get_field(dmcontrol, DMI_DMCONTROL_HASEL)) == 0), + COMPLIANCE_WRITE(target, DMI_DMCONTROL, set_field(dmcontrol_orig, DMI_DMCONTROL_HASEL, 1)); + COMPLIANCE_WRITE(target, DMI_DMCONTROL, set_field(dmcontrol_orig, DMI_DMCONTROL_HASEL, 0)); + COMPLIANCE_READ(target, &dmcontrol, DMI_DMCONTROL); + COMPLIANCE_TEST((get_field(dmcontrol, DMI_DMCONTROL_HASEL) == 0), "DMCONTROL.hasel can be 0 or RW."); /* TODO: test that hamask registers exist if hasel does. */ /* haltreq */ - riscv_halt_all_harts(target); + COMPLIANCE_MUST_PASS(riscv_halt_all_harts(target)); /* This bit is not actually readable according to the spec, so nothing to check.*/ /* DMSTATUS */ - uint32_t dmstatus, dmstatus_read; - dmi_read(target, &dmstatus, DMI_DMSTATUS); - dmi_write(target, DMI_DMSTATUS, ~dmstatus); - dmi_read(target, &dmstatus_read, DMI_DMSTATUS); - COMPLIANCE_TEST(dmstatus_read == dmstatus, "DMSTATUS is R/O"); + COMPLIANCE_CHECK_RO(target, DMI_DMSTATUS); /* resumereq */ /* This bit is not actually readable according to the spec, so nothing to check.*/ - riscv_resume_all_harts(target); + COMPLIANCE_MUST_PASS(riscv_resume_all_harts(target)); /* Halt all harts again so the test can continue.*/ - riscv_halt_all_harts(target); + COMPLIANCE_MUST_PASS(riscv_halt_all_harts(target)); /* HARTINFO: Read-Only. This is per-hart, so need to adjust hartsel. */ + uint32_t hartinfo; + COMPLIANCE_READ(target, &hartinfo, DMI_HARTINFO); for (int hartsel = 0; hartsel < riscv_count_harts(target); hartsel++) { - riscv_set_current_hartid(target, hartsel); + COMPLIANCE_MUST_PASS(riscv_set_current_hartid(target, hartsel)); - uint32_t hartinfo, hartinfo_read; - dmi_read(target, &hartinfo, DMI_HARTINFO); - dmi_write(target, DMI_HARTINFO, ~hartinfo); - dmi_read(target, &hartinfo_read, DMI_HARTINFO); - COMPLIANCE_TEST((hartinfo_read == hartinfo), "DMHARTINFO should be Read-Only."); + COMPLIANCE_CHECK_RO(target, DMI_HARTINFO); /* $dscratch CSRs */ uint32_t nscratch = get_field(hartinfo, DMI_HARTINFO_NSCRATCH); @@ -3195,16 +3187,16 @@ int riscv013_test_compliance(struct target *target) for (int i = 0; i < MIN(riscv_count_harts(target), 32); i++) expected_haltsum0 |= (1 << i); - dmi_read(target, &testvar_read, DMI_HALTSUM0); + COMPLIANCE_READ(target, &testvar_read, DMI_HALTSUM0); COMPLIANCE_TEST(testvar_read == expected_haltsum0, "HALTSUM0 should report summary of up to 32 halted harts"); - dmi_write(target, DMI_HALTSUM0, 0xffffffff); - dmi_read(target, &testvar_read, DMI_HALTSUM0); + COMPLIANCE_WRITE(target, DMI_HALTSUM0, 0xffffffff); + COMPLIANCE_READ(target, &testvar_read, DMI_HALTSUM0); COMPLIANCE_TEST(testvar_read == expected_haltsum0, "HALTSUM0 should be R/O"); - dmi_write(target, DMI_HALTSUM0, 0x0); - dmi_read(target, &testvar_read, DMI_HALTSUM0); + COMPLIANCE_WRITE(target, DMI_HALTSUM0, 0x0); + COMPLIANCE_READ(target, &testvar_read, DMI_HALTSUM0); COMPLIANCE_TEST(testvar_read == expected_haltsum0, "HALTSUM0 should be R/O"); /* HALTSUM1 */ @@ -3212,16 +3204,16 @@ int riscv013_test_compliance(struct target *target) for (int i = 0; i < MIN(riscv_count_harts(target), 1024); i += 32) expected_haltsum1 |= (1 << (i/32)); - dmi_read(target, &testvar_read, DMI_HALTSUM1); + COMPLIANCE_READ(target, &testvar_read, DMI_HALTSUM1); COMPLIANCE_TEST(testvar_read == expected_haltsum1, "HALTSUM1 should report summary of up to 1024 halted harts"); - dmi_write(target, DMI_HALTSUM1, 0xffffffff); - dmi_read(target, &testvar_read, DMI_HALTSUM1); + COMPLIANCE_WRITE(target, DMI_HALTSUM1, 0xffffffff); + COMPLIANCE_READ(target, &testvar_read, DMI_HALTSUM1); COMPLIANCE_TEST(testvar_read == expected_haltsum1, "HALTSUM1 should be R/O"); - dmi_write(target, DMI_HALTSUM1, 0x0); - dmi_read(target, &testvar_read, DMI_HALTSUM1); + COMPLIANCE_WRITE(target, DMI_HALTSUM1, 0x0); + COMPLIANCE_READ(target, &testvar_read, DMI_HALTSUM1); COMPLIANCE_TEST(testvar_read == expected_haltsum1, "HALTSUM1 should be R/O"); /* TODO: HAWINDOWSEL */ @@ -3231,7 +3223,7 @@ int riscv013_test_compliance(struct target *target) /* ABSTRACTCS */ uint32_t abstractcs; - dmi_read(target, &abstractcs, DMI_ABSTRACTCS); + COMPLIANCE_READ(target, &abstractcs, DMI_ABSTRACTCS); /* Check that all reported Data Words are really R/W */ for (int invert = 0; invert < 2; invert++) { @@ -3239,13 +3231,13 @@ int riscv013_test_compliance(struct target *target) testvar = (i + 1) * 0x11111111; if (invert) testvar = ~testvar; - dmi_write(target, DMI_DATA0 + i, testvar); + COMPLIANCE_WRITE(target, DMI_DATA0 + i, testvar); } for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_DATACOUNT); i++) { testvar = (i + 1) * 0x11111111; if (invert) testvar = ~testvar; - dmi_read(target, &testvar_read, DMI_DATA0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_DATA0 + i); COMPLIANCE_TEST(testvar_read == testvar, "All reported DATA words must be R/W"); } } @@ -3256,13 +3248,13 @@ int riscv013_test_compliance(struct target *target) testvar = (i + 1) * 0x11111111; if (invert) testvar = ~testvar; - dmi_write(target, DMI_PROGBUF0 + i, testvar); + COMPLIANCE_WRITE(target, DMI_PROGBUF0 + i, testvar); } for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_PROGBUFSIZE); i++) { testvar = (i + 1) * 0x11111111; if (invert) testvar = ~testvar; - dmi_read(target, &testvar_read, DMI_PROGBUF0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_PROGBUF0 + i); COMPLIANCE_TEST(testvar_read == testvar, "All reported PROGBUF words must be R/W"); } } @@ -3272,18 +3264,17 @@ int riscv013_test_compliance(struct target *target) /* COMMAND According to the spec, this register is only W, so can't really check the read result. But at any rate, this is not legal and should cause an error. */ - dmi_write(target, DMI_COMMAND, 0xAAAAAAAA); - dmi_read(target, &testvar_read, DMI_COMMAND); - dmi_read(target, &testvar_read, DMI_ABSTRACTCS); + COMPLIANCE_WRITE(target, DMI_COMMAND, 0xAAAAAAAA); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTCS); COMPLIANCE_TEST(get_field(testvar_read, DMI_ABSTRACTCS_CMDERR) == CMDERR_NOT_SUPPORTED, \ "Illegal COMMAND should result in UNSUPPORTED"); - dmi_write(target, DMI_ABSTRACTCS, DMI_ABSTRACTCS_CMDERR); - dmi_write(target, DMI_COMMAND, 0x55555555); - dmi_read(target, &testvar_read, DMI_COMMAND); - dmi_read(target, &testvar_read, DMI_ABSTRACTCS); + COMPLIANCE_WRITE(target, DMI_ABSTRACTCS, DMI_ABSTRACTCS_CMDERR); + + COMPLIANCE_WRITE(target, DMI_COMMAND, 0x55555555); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTCS); COMPLIANCE_TEST(get_field(testvar_read, DMI_ABSTRACTCS_CMDERR) == CMDERR_NOT_SUPPORTED, \ "Illegal COMMAND should result in UNSUPPORTED"); - dmi_write(target, DMI_ABSTRACTCS, DMI_ABSTRACTCS_CMDERR); + COMPLIANCE_WRITE(target, DMI_ABSTRACTCS, DMI_ABSTRACTCS_CMDERR); /* Basic Abstract Commands */ for (unsigned int i = 1; i < 32; i = i << 1) { @@ -3291,7 +3282,7 @@ int riscv013_test_compliance(struct target *target) riscv_reg_t testval_read; COMPLIANCE_TEST(ERROR_OK == register_write_direct(target, GDB_REGNO_ZERO + i, testval), "GPR Writes should be supported."); - write_abstract_arg(target, 0, 0xDEADBEEFDEADBEEF, 64); + COMPLIANCE_MUST_PASS(write_abstract_arg(target, 0, 0xDEADBEEFDEADBEEF, 64)); COMPLIANCE_TEST(ERROR_OK == register_read_direct(target, &testval_read, GDB_REGNO_ZERO + i), "GPR Reads should be supported."); if (riscv_xlen(target) > 32) { @@ -3305,11 +3296,11 @@ int riscv013_test_compliance(struct target *target) /* ABSTRACTAUTO See which bits are actually writable */ - dmi_write(target, DMI_ABSTRACTAUTO, 0xFFFFFFFF); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0xFFFFFFFF); uint32_t abstractauto; uint32_t busy; - dmi_read(target, &abstractauto, DMI_ABSTRACTAUTO); - dmi_write(target, DMI_ABSTRACTAUTO, 0x0); + COMPLIANCE_READ(target, &abstractauto, DMI_ABSTRACTAUTO); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0x0); if (abstractauto > 0) { /* This mechanism only works when you have a reasonable sized progbuf, which is not a true compliance requirement. */ @@ -3319,22 +3310,22 @@ int riscv013_test_compliance(struct target *target) COMPLIANCE_TEST(ERROR_OK == register_write_direct(target, GDB_REGNO_S0, 0), "Need to be able to write S0 to test ABSTRACTAUTO"); struct riscv_program program; - riscv_program_init(&program, target); + COMPLIANCE_MUST_PASS(riscv_program_init(&program, target)); /* This is also testing that WFI() is a NOP during debug mode. */ - riscv_program_insert(&program, wfi()); - riscv_program_addi(&program, GDB_REGNO_S0, GDB_REGNO_S0, 1); - riscv_program_ebreak(&program); - dmi_write(target, DMI_ABSTRACTAUTO, 0x0); - riscv_program_exec(&program, target); + COMPLIANCE_MUST_PASS(riscv_program_insert(&program, wfi())); + COMPLIANCE_MUST_PASS(riscv_program_addi(&program, GDB_REGNO_S0, GDB_REGNO_S0, 1)); + COMPLIANCE_MUST_PASS(riscv_program_ebreak(&program)); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0x0); + COMPLIANCE_MUST_PASS(riscv_program_exec(&program, target)); testvar++; - dmi_write(target, DMI_ABSTRACTAUTO, 0xFFFFFFFF); - dmi_read(target, &abstractauto, DMI_ABSTRACTAUTO); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0xFFFFFFFF); + COMPLIANCE_READ(target, &abstractauto, DMI_ABSTRACTAUTO); uint32_t autoexec_data = get_field(abstractauto, DMI_ABSTRACTAUTO_AUTOEXECDATA); uint32_t autoexec_progbuf = get_field(abstractauto, DMI_ABSTRACTAUTO_AUTOEXECPROGBUF); for (unsigned int i = 0; i < 12; i++) { - dmi_read(target, &testvar_read, DMI_DATA0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_DATA0 + i); do { - dmi_read(target, &testvar_read, DMI_ABSTRACTCS); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTCS); busy = get_field(testvar_read, DMI_ABSTRACTCS_BUSY); } while (busy); if (autoexec_data & (1 << i)) { @@ -3344,9 +3335,9 @@ int riscv013_test_compliance(struct target *target) } } for (unsigned int i = 0; i < 16; i++) { - dmi_read(target, &testvar_read, DMI_PROGBUF0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_PROGBUF0 + i); do { - dmi_read(target, &testvar_read, DMI_ABSTRACTCS); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTCS); busy = get_field(testvar_read, DMI_ABSTRACTCS_BUSY); } while (busy); if (autoexec_progbuf & (1 << i)) { @@ -3356,7 +3347,7 @@ int riscv013_test_compliance(struct target *target) } } - dmi_write(target, DMI_ABSTRACTAUTO, 0); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0); COMPLIANCE_TEST(ERROR_OK == register_read_direct(target, &value, GDB_REGNO_S0), "Need to be able to read S0 to test ABSTRACTAUTO"); @@ -3367,24 +3358,24 @@ int riscv013_test_compliance(struct target *target) /* Single-Step each hart. */ for (int hartsel = 0; hartsel < riscv_count_harts(target); hartsel++) { - riscv_set_current_hartid(target, hartsel); - riscv013_on_step(target); - riscv013_step_current_hart(target); - COMPLIANCE_TEST(riscv_halt_reason(target, hartsel) == RISCV_HALT_SINGLESTEP, + COMPLIANCE_MUST_PASS(riscv_set_current_hartid(target, hartsel)); + COMPLIANCE_MUST_PASS(riscv013_on_step(target)); + COMPLIANCE_MUST_PASS(riscv013_step_current_hart(target)); + COMPLIANCE_TEST(riscv_halt_reason(target, hartsel) == RISCV_HALT_SINGLESTEP, "Single Step should result in SINGLESTEP"); } /* Core Register Tests */ uint64_t bogus_dpc = 0xdeadbeef; for (int hartsel = 0; hartsel < riscv_count_harts(target); hartsel++) { - riscv_set_current_hartid(target, hartsel); + COMPLIANCE_MUST_PASS(riscv_set_current_hartid(target, hartsel)); /* DCSR Tests */ - register_write_direct(target, GDB_REGNO_DCSR, 0x0); - register_read_direct(target, &value, GDB_REGNO_DCSR); + COMPLIANCE_MUST_PASS(register_write_direct(target, GDB_REGNO_DCSR, 0x0)); + COMPLIANCE_MUST_PASS(register_read_direct(target, &value, GDB_REGNO_DCSR)); COMPLIANCE_TEST(value != 0, "Not all bits in DCSR are writable by Debugger"); - register_write_direct(target, GDB_REGNO_DCSR, 0xFFFFFFFF); - register_read_direct(target, &value, GDB_REGNO_DCSR); + COMPLIANCE_MUST_PASS(register_write_direct(target, GDB_REGNO_DCSR, 0xFFFFFFFF)); + COMPLIANCE_MUST_PASS(register_read_direct(target, &value, GDB_REGNO_DCSR)); COMPLIANCE_TEST(value != 0, "At least some bits in DCSR must be 1"); /* DPC. Note that DPC is sign-extended. */ @@ -3397,12 +3388,12 @@ int riscv013_test_compliance(struct target *target) if (riscv_supports_extension(target, riscv_current_hartid(target), 'C')) dpcmask |= 0x2; - register_write_direct(target, GDB_REGNO_DPC, dpcmask); - register_read_direct(target, &dpc, GDB_REGNO_DPC); + COMPLIANCE_MUST_PASS(register_write_direct(target, GDB_REGNO_DPC, dpcmask)); + COMPLIANCE_MUST_PASS(register_read_direct(target, &dpc, GDB_REGNO_DPC)); COMPLIANCE_TEST(dpcmask == dpc, "DPC must be sign-extended to XLEN and writable to all-1s (except the least significant bits)"); - register_write_direct(target, GDB_REGNO_DPC, 0); - register_read_direct(target, &dpc, GDB_REGNO_DPC); + COMPLIANCE_MUST_PASS(register_write_direct(target, GDB_REGNO_DPC, 0)); + COMPLIANCE_MUST_PASS(register_read_direct(target, &dpc, GDB_REGNO_DPC)); COMPLIANCE_TEST(dpc == 0, "DPC must be writable to 0."); if (hartsel == 0) bogus_dpc = dpc; /* For a later test step */ @@ -3415,49 +3406,47 @@ int riscv013_test_compliance(struct target *target) */ /* Write some registers. They should not be impacted by ndmreset. */ - dmi_write(target, DMI_COMMAND, 0xFFFFFFFF); + COMPLIANCE_WRITE(target, DMI_COMMAND, 0xFFFFFFFF); for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_PROGBUFSIZE); i++) { testvar = (i + 1) * 0x11111111; - dmi_write(target, DMI_PROGBUF0 + i, testvar); + COMPLIANCE_WRITE(target, DMI_PROGBUF0 + i, testvar); } for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_DATACOUNT); i++) { testvar = (i + 1) * 0x11111111; - dmi_write(target, DMI_DATA0 + i, testvar); + COMPLIANCE_WRITE(target, DMI_DATA0 + i, testvar); } - dmi_write(target, DMI_ABSTRACTAUTO, 0xFFFFFFFF); - dmi_read(target, &abstractauto, DMI_ABSTRACTAUTO); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0xFFFFFFFF); + COMPLIANCE_READ(target, &abstractauto, DMI_ABSTRACTAUTO); /* Pulse reset. */ target->reset_halt = true; - riscv_set_current_hartid(target, 0); + COMPLIANCE_MUST_PASS(riscv_set_current_hartid(target, 0)); COMPLIANCE_TEST(ERROR_OK == assert_reset(target), "Must be able to assert NDMRESET"); COMPLIANCE_TEST(ERROR_OK == deassert_reset(target), "Must be able to deassert NDMRESET"); /* Verify that most stuff is not affected by ndmreset. */ - dmi_read(target, &testvar_read, DMI_COMMAND); - COMPLIANCE_TEST(testvar_read == 0xFFFFFFFF, "NDMRESET should not affect DMI_COMMAND"); - dmi_read(target, &testvar_read, DMI_ABSTRACTCS); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTCS); COMPLIANCE_TEST(get_field(testvar_read, DMI_ABSTRACTCS_CMDERR) == CMDERR_NOT_SUPPORTED, "NDMRESET should not affect DMI_ABSTRACTCS"); - dmi_read(target, &testvar_read, DMI_ABSTRACTAUTO); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTAUTO); COMPLIANCE_TEST(testvar_read == abstractauto, "NDMRESET should not affect DMI_ABSTRACTAUTO"); /* Clean up to avoid future test failures */ - dmi_write(target, DMI_ABSTRACTCS, DMI_ABSTRACTCS_CMDERR); - dmi_write(target, DMI_ABSTRACTAUTO, 0); + COMPLIANCE_WRITE(target, DMI_ABSTRACTCS, DMI_ABSTRACTCS_CMDERR); + COMPLIANCE_WRITE(target, DMI_ABSTRACTAUTO, 0); for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_PROGBUFSIZE); i++) { testvar = (i + 1) * 0x11111111; - dmi_read(target, &testvar_read, DMI_PROGBUF0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_PROGBUF0 + i); COMPLIANCE_TEST(testvar_read == testvar, "PROGBUF words must not be affected by NDMRESET"); } for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_DATACOUNT); i++) { testvar = (i + 1) * 0x11111111; - dmi_read(target, &testvar_read, DMI_DATA0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_DATA0 + i); COMPLIANCE_TEST(testvar_read == testvar, "DATA words must not be affected by NDMRESET"); } @@ -3465,7 +3454,7 @@ int riscv013_test_compliance(struct target *target) just verify that at least it's not the bogus value anymore. */ COMPLIANCE_TEST(bogus_dpc != 0xdeadbeef, "BOGUS DPC should have been set somehow (bug in compliance test)"); - register_read_direct(target, &value, GDB_REGNO_DPC); + COMPLIANCE_MUST_PASS(register_read_direct(target, &value, GDB_REGNO_DPC)); COMPLIANCE_TEST(bogus_dpc != value, "NDMRESET should move DPC to reset value."); COMPLIANCE_TEST(riscv_halt_reason(target, 0) == RISCV_HALT_INTERRUPT, @@ -3474,24 +3463,20 @@ int riscv013_test_compliance(struct target *target) /* DMACTIVE -- deasserting DMACTIVE should reset all the above values. */ /* Toggle dmactive */ - dmi_write(target, DMI_DMCONTROL, 0); - dmi_write(target, DMI_DMCONTROL, DMI_DMCONTROL_DMACTIVE); - dmi_read(target, &testvar_read, DMI_COMMAND); - COMPLIANCE_TEST(testvar_read == 0, "DMI_COMMAND should reset to 0"); - dmi_read(target, &testvar_read, DMI_ABSTRACTCS); + COMPLIANCE_WRITE(target, DMI_DMCONTROL, 0); + COMPLIANCE_WRITE(target, DMI_DMCONTROL, DMI_DMCONTROL_DMACTIVE); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTCS); COMPLIANCE_TEST(get_field(testvar_read, DMI_ABSTRACTCS_CMDERR) == 0, "ABSTRACTCS.cmderr should reset to 0"); - dmi_read(target, &testvar_read, DMI_ABSTRACTAUTO); + COMPLIANCE_READ(target, &testvar_read, DMI_ABSTRACTAUTO); COMPLIANCE_TEST(testvar_read == 0, "ABSTRACTAUTO should reset to 0"); for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_PROGBUFSIZE); i++) { - testvar = (i + 1) * 0x11111111; - dmi_read(target, &testvar_read, DMI_PROGBUF0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_PROGBUF0 + i); COMPLIANCE_TEST(testvar_read == 0, "PROGBUF words should reset to 0"); } for (unsigned int i = 0; i < get_field(abstractcs, DMI_ABSTRACTCS_DATACOUNT); i++) { - testvar = (i + 1) * 0x11111111; - dmi_read(target, &testvar_read, DMI_DATA0 + i); + COMPLIANCE_READ(target, &testvar_read, DMI_DATA0 + i); COMPLIANCE_TEST(testvar_read == 0, "DATA words should reset to 0"); } @@ -3505,7 +3490,7 @@ int riscv013_test_compliance(struct target *target) */ /* Halt every hart for any follow-up tests*/ - riscv_halt_all_harts(target); + COMPLIANCE_MUST_PASS(riscv_halt_all_harts(target)); LOG_INFO("PASSED %d of %d TESTS\n", passed_tests, total_tests); |