| /external/swiftshader/third_party/llvm-7.0/llvm/test/CodeGen/ARM/GlobalISel/ |
| D | arm-isel-globals-ropi-rwpi.ll | 1 …ovt,+v8m -global-isel %s -o - | FileCheck %s -check-prefixes=CHECK,RW-DEFAULT-MOVT,RW-DEFAULT,ROPI…
2 …no-movt -global-isel %s -o - | FileCheck %s -check-prefixes=CHECK,RW-DEFAULT-NOMOVT,RW-DEFAULT,ROP…
11 ; RW-DEFAULT-MOVT: movw r[[ADDR:[0-9]+]], :lower16:internal_global
12 ; RW-DEFAULT-MOVT-NEXT: movt r[[ADDR]], :upper16:internal_global
13 ; RW-DEFAULT-NOMOVT: ldr r[[ADDR:[0-9]+]], [[LABEL:.L[[:alnum:]_]+]]
14 ; RW-DEFAULT-NEXT: ldr r0, [r[[ADDR]]]
15 ; RW-DEFAULT-NEXT: bx lr
16 ; RW-DEFAULT-NOMOVT: [[LABEL]]:
17 ; RW-DEFAULT-NOMOVT-NEXT: .long internal_global
35 ; RW-DEFAULT-MOVT: movw r[[ADDR:[0-9]+]], :lower16:external_global
[all …]
|
| D | arm-select-globals-ropi-rwpi.mir | 1 …-verify-machineinstrs %s -o - | FileCheck %s -check-prefixes=CHECK,RW-DEFAULT-MOVT,RW-DEFAULT,ROPI…
2 …verify-machineinstrs %s -o - | FileCheck %s -check-prefixes=CHECK,RW-DEFAULT-NOMOVT,RW-DEFAULT,ROP…
30 # RW-DEFAULT-NOMOVT: constants:
31 # RW-DEFAULT-NOMOVT: id: 0
32 # RW-DEFAULT-NOMOVT: value: 'i32* @internal_global'
39 ; RW-DEFAULT-MOVT: [[G:%[0-9]+]]:gpr = MOVi32imm @internal_global
40 …; RW-DEFAULT-NOMOVT: [[G:%[0-9]+]]:gpr = LDRi12 %const.0, 0, 14, $noreg :: (load 4 from constant-p…
64 # RW-DEFAULT-NOMOVT: constants:
65 # RW-DEFAULT-NOMOVT: id: 0
66 # RW-DEFAULT-NOMOVT: value: 'i32* @external_global'
[all …]
|
| /external/ltp/testcases/kernel/syscalls/utimensat/ |
| D | utimensat_tests.sh | 359 run_test -RW root 400 "" "" EACCES
362 run_test -RW root 400 "" "0 n 0 n" EACCES
365 run_test -RW root 400 "" "0 o 0 o" SUCCESS n n
368 run_test -RW root 400 "" "0 n 0 o" EPERM
371 run_test -RW root 400 "" "0 o 0 n" EPERM
374 run_test -RW root 400 "" "1 1 1 1" EPERM
500 run_test -RW "" 600 "" "1 n 1 n" SUCCESS y y
503 run_test -RW "" 600 "" "1 o 1 o" SUCCESS n n
|
| /external/autotest/server/site_tests/firmware_Fingerprint/ |
| D | control.ro_can_update_rw | 10 Validates that the RO fingerprint firmware can update the RW firmware.
13 Fails if the RO fingerprint firmware cannot update the RW firmware.
24 Flashes RW firmware with a version string that ends in '.rb0'
25 (has rollback ID '0') and validates that it is running. Then flashes RW
|
| D | control.ro_only_boots_valid_rw | 10 Verify the RO fingerprint firmware only boots valid RW firmware.
13 Fails if the RO firmware boots invalid RW firmware.
25 to RW: dev, corrupted first byte, and corrupted last byte. Each of these should
27 flashes an MP-signed version, which should successfully boot to RW.
|
| D | control.obeys_rollback | 25 Flashes new RW firmware with a rollback ID of '1' and verifies that all
26 rollback state is set correctly. Then attempts to flash RW firmware with
28 (i.e., not running older version). Finally, flashes RW firmware with rollback
29 ID of '9' and validates that the RW version of '9' is running.
|
| D | control.add_entropy | 13 Fails if we can add entropy from RW or cannot add entropy from RO."
24 Attempts to add entropy while running RW firmware and verifies that it fails.
27 incremented by two. Finally, reboots back to RW.
|
| D | control.sw_write_protect | 14 Fails if we can disable software write protect from RO or RW."
26 protect is enabled and verifies that it fails. Then reboots to RW, attempts to
|
| /external/arm-neon-tests/ |
| D | scatter.scat | 18 D-TCM 0x230000 FIXED ; 0x40000 ; 8 Kb of D-TCM used for RW/ZI
20 * (+RW,+ZI)
23 HEAP 0x4E0000 EMPTY 0x100000 {} ; 8Kb Heap follows direcly after RW/ZI
|
| /external/swiftshader/third_party/llvm-7.0/llvm/test/tools/llvm-readobj/ |
| D | gnu-phdrs.test | 28 ELF32-NEXT: LOAD 0x000ef0 0x08049ef0 0x08049ef0 0x00128 0x00140 RW 0x1000
29 ELF32-NEXT: DYNAMIC 0x000f08 0x08049f08 0x08049f08 0x000e8 0x000e8 RW 0x4
33 ELF32-NEXT: GNU_STACK 0x000000 0x00000000 0x00000000 0x00000 0x00000 RW 0x4
59 ELF64-NEXT: LOAD 0x000db4 0x0000000000600db4 0x0000000000600db4 0x000274 0x0002a4 RW 0…
60 ELF64-NEXT: DYNAMIC 0x000dd0 0x0000000000600dd0 0x0000000000600dd0 0x000210 0x000210 RW 0…
64 ELF64-NEXT: GNU_STACK 0x000000 0x0000000000000000 0x0000000000000000 0x000000 0x000000 RW 0…
|
| /external/llvm/test/tools/llvm-readobj/ |
| D | gnu-phdrs.test | 28 ELF32-NEXT: LOAD 0x000ef0 0x08049ef0 0x08049ef0 0x00128 0x00140 RW 0x1000
29 ELF32-NEXT: DYNAMIC 0x000f08 0x08049f08 0x08049f08 0x000e8 0x000e8 RW 0x4
33 ELF32-NEXT: GNU_STACK 0x000000 0x00000000 0x00000000 0x00000 0x00000 RW 0x4
59 ELF64-NEXT: LOAD 0x000db4 0x0000000000600db4 0x0000000000600db4 0x000274 0x0002a4 RW 0…
60 ELF64-NEXT: DYNAMIC 0x000dd0 0x0000000000600dd0 0x0000000000600dd0 0x000210 0x000210 RW 0…
64 ELF64-NEXT: GNU_STACK 0x000000 0x0000000000000000 0x0000000000000000 0x000000 0x000000 RW 0…
|
| /external/compiler-rt/lib/tsan/tests/rtl/ |
| D | tsan_test_util_posix.cc | 155 else if (type_ == RW) in Init()
178 else if (type_ == RW) in Destroy()
190 else if (type_ == RW) in Lock()
202 else if (type_ == RW) in TryLock()
215 else if (type_ == RW) in Unlock()
221 CHECK(type_ == RW); in ReadLock()
227 CHECK(type_ == RW); in TryReadLock()
233 CHECK(type_ == RW); in ReadUnlock()
|
| /external/swiftshader/third_party/llvm-7.0/llvm/lib/Target/Hexagon/ |
| D | HexagonBitTracker.cpp | 95 uint16_t RW = getRegBitWidth(RegisterRef(Reg, Sub)); in mask() local
101 return IsSubLo ? BT::BitMask(0, RW-1) in mask()
102 : BT::BitMask(RW, 2*RW-1); in mask()
271 auto lo = [this] (const BT::RegisterCell &RC, uint16_t RW) in evaluate()
273 assert(RW <= RC.width()); in evaluate()
274 return eXTR(RC, 0, RW); in evaluate()
277 auto hi = [this] (const BT::RegisterCell &RC, uint16_t RW) in evaluate() argument
280 assert(RW <= W); in evaluate()
281 return eXTR(RC, W-RW, W); in evaluate()
341 uint16_t RW = W0; in evaluate() local
[all …]
|
| /external/vboot_reference/tests/futility/data/ |
| D | README | 4 bios_zgb_mp.bin RW firmware A and B are different
5 bios_link_mp.bin uses the RO_NORMAL flag to skip RW firmware validation
|
| /external/clang/test/Layout/ |
| D | ms-x86-alias-avoidance-padding.cpp | 304 struct RW { char c; }; struct
313 struct RX7 : virtual RW { RA a; };
314 struct RX8 : RA, virtual RW {};
|
| /external/swiftshader/third_party/llvm-7.0/llvm/test/CodeGen/AArch64/ |
| D | misched-fusion-addr.ll | 43 ; CHECK: adrp [[RW:x[0-9]+]], var_32bit
44 ; CHECK-NEXT: str {{w[0-9]+}}, {{\[}}[[RW]], {{#?}}:lo12:var_32bit{{\]}}
55 ; CHECK: adrp [[RW:x[0-9]+]], var_32bit
56 ; CHECK-NEXT: ldr {{w[0-9]+}}, {{\[}}[[RW]], {{#?}}:lo12:var_32bit{{\]}}
|
| /external/llvm/lib/Target/Hexagon/ |
| D | HexagonBitTracker.cpp | 84 uint16_t RW = getRegBitWidth(RegisterRef(Reg, Sub)); in mask() local
89 return (Sub == subreg_loreg) ? BT::BitMask(0, RW-1) in mask()
90 : BT::BitMask(RW, 2*RW-1); in mask()
205 auto lo = [this] (const BT::RegisterCell &RC, uint16_t RW) in evaluate()
207 assert(RW <= RC.width()); in evaluate()
208 return eXTR(RC, 0, RW); in evaluate()
211 auto hi = [this] (const BT::RegisterCell &RC, uint16_t RW) in evaluate() argument
214 assert(RW <= W); in evaluate()
215 return eXTR(RC, W-RW, W); in evaluate()
275 uint16_t RW = W0; in evaluate() local
[all …]
|
| /external/autotest/server/site_tests/provision_FirmwareUpdate/ |
| D | control.rw_only | 8 PURPOSE = "Provision a system to the correct firmware version, update RW only."
17 reprogram only RW of both EC and AP firmware.
|
| /external/swiftshader/third_party/llvm-7.0/llvm/utils/TableGen/ |
| D | CodeGenSchedule.cpp | 339 for (Record *RW : RWs) { in collectSchedRW()
340 if (RW->isSubClassOf("SchedWrite")) in collectSchedRW()
341 scanSchedRW(RW, SWDefs, RWSet); in collectSchedRW()
343 assert(RW->isSubClassOf("SchedRead") && "Unknown SchedReadWrite"); in collectSchedRW()
344 scanSchedRW(RW, SRDefs, RWSet); in collectSchedRW()
419 CodeGenSchedRW &RW = getSchedRW(MatchDef); in collectSchedRW() local
420 if (RW.IsAlias) in collectSchedRW()
422 RW.Aliases.push_back(ADef); in collectSchedRW()
462 RWVec, [Def](const CodeGenSchedRW &RW) { return RW.TheDef == Def; }); in getSchedRWIdx() argument
572 auto I = find_if(RWVec, [Seq](CodeGenSchedRW &RW) { in findRWForSequence() argument
[all …]
|
| /external/autotest/server/site_tests/firmware_ECHash/ |
| D | control | 24 AP-RW should have requested the EC recompute the hash of EC-RW.
|
| /external/autotest/server/site_tests/firmware_CorruptFwBodyB/ |
| D | control | 24 not load and verify the RW firmware body. In the case USE_RO_NORMAL OFF,
25 the RW firwmare B corruption will result booting the firmware A.
|
| D | control.dev | 24 not load and verify the RW firmware body. In the case USE_RO_NORMAL OFF,
25 the RW firwmare B corruption will result booting the firmware A.
|
| /external/autotest/server/site_tests/firmware_CorruptFwBodyA/ |
| D | control.dev | 24 not load and verify the RW firmware body. In the case USE_RO_NORMAL OFF,
25 the RW firwmare A corruption will result booting the firmware B.
|
| D | control | 24 not load and verify the RW firmware body. In the case USE_RO_NORMAL OFF,
25 the RW firwmare A corruption will result booting the firmware B.
|
| /external/eigen/doc/ |
| D | SparseQuickReference.dox | 205 sm1.innerVector(outer); // RW
206 sm1.innerVectors(start, size); // RW
207 sm1.leftCols(size); // RW
210 sm1.middleCols(start, numCols); // RW
211 sm1.col(j); // RW
216 As stated earlier, for a read-write sub-matrix (RW), the evaluation can be done in a matrix with di…
|