/system/libhidl/transport/memory/1.0/default/ |
H A D | AshmemMapper.cpp | 33 Return<sp<IMemory>> AshmemMapper::mapMemory(const hidl_memory& mem) { argument 34 if (mem.handle()->numFds == 0) { 42 if (mem.size() > SIZE_MAX) { 43 ALOGE("Cannot map %" PRIu64 " bytes of memory because it is too large.", mem.size()); 48 int fd = mem.handle()->data[0]; 49 void* data = mmap(0, mem.size(), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0); 56 return new AshmemMemory(mem, data);
|
H A D | AshmemMapper.h | 42 Return<sp<IMemory>> mapMemory(const hidl_memory& mem) override;
|
/system/libhidl/transport/memory/token/1.0/ |
H A D | IMemoryToken.hal | 24 * @return mem Memory referenced by this token. 26 get() generates (memory mem);
|
/system/extras/tests/pftest/ |
H A D | pftest.c | 47 char *mem = malloc((N_PAGES+1) * 4096); local 53 mem = (char *) ((intptr_t) (mem + 4096) & ~0xfff); 76 *(intptr_t *) (mem + 4096 * pageIdx + entryOffset) = 77 (intptr_t) (mem + 4096 * nextPageIdx + nextEntryOffset); 80 *(intptr_t *) (mem + 4096 * pageIdx + entryOffset) = 81 (intptr_t) &mem[0]; 89 p = (intptr_t *) &mem[0];
|
/system/libhidl/transport/memory/1.0/ |
H A D | IMapper.hal | 24 * @param mem Reference to shared memory. 28 mapMemory(memory mem) generates (IMemory mappedMemory);
|
/system/chre/platform/shared/include/chre/platform/shared/ |
H A D | memory_debug.h | 68 void *mem = nullptr; local 72 mem = allocFunc(size + kDebugOverhead); 73 if (mem != nullptr) { 75 auto *preamble = static_cast<MemoryDebugPreamble *>(mem); 78 mem = static_cast<void *>(preamble + 1); 81 uint8_t *trailer = static_cast<uint8_t *>(mem) + size; 86 return mem;
|
/system/libhidl/transport/allocator/1.0/ |
H A D | IAllocator.hal | 31 allocate(uint64_t size) generates (bool success, memory mem);
|
/system/chre/external/kiss_fft/ |
H A D | kiss_fftr.h | 21 kiss_fftr_cfg kiss_fftr_alloc(int nfft,int inverse_fft,void * mem, size_t * lenmem); 25 If you don't care to allocate space, use mem = lenmem = NULL
|
H A D | kiss_fft.h | 71 * The state can be placed in a user supplied buffer 'mem': 72 * If lenmem is not NULL and mem is not NULL and *lenmem is large enough, 73 * then the function places the cfg in mem and the size used in *lenmem 74 * and returns mem. 76 * If lenmem is not NULL and ( mem is NULL or *lenmem is not large enough), 81 kiss_fft_cfg kiss_fft_alloc(int nfft,int inverse_fft,void * mem,size_t * lenmem);
|
/system/nfc/src/nfc/tags/ |
H A D | ce_t4t.cc | 111 tCE_T4T_MEM* p_t4t = &ce_cb.mem.t4t; 155 tCE_T4T_MEM* p_t4t = &ce_cb.mem.t4t; 240 tCE_T4T_MEM* p_t4t = &ce_cb.mem.t4t; 318 tCE_T4T_MEM* p_t4t = &ce_cb.mem.t4t; 397 (ce_cb.mem.t4t.p_ndef_msg)) { 410 ce_cb.mem.t4t.selected_aid_idx = CE_T4T_MAX_REG_AID; 412 if ((ce_cb.mem.t4t.reg_aid[xx].aid_len > 0) && 413 (ce_cb.mem.t4t.reg_aid[xx].aid_len == data_len) && 414 (!(memcmp(ce_cb.mem.t4t.reg_aid[xx].aid, p_cmd, data_len)))) { 415 ce_cb.mem [all...] |
H A D | ce_t3t.cc | 74 memcpy(ce_cb.mem.t3t.local_pmm, CE_DEFAULT_LF_PMM, NCI_T3T_PMM_LEN); 75 ce_cb.mem.t3t.ndef_info.nbr = CE_T3T_DEFAULT_CHECK_MAXBLOCKS; 76 ce_cb.mem.t3t.ndef_info.nbw = CE_T3T_DEFAULT_UPDATE_MAXBLOCKS; 159 tCE_T3T_MEM* p_cb = &p_ce_cb->mem.t3t; 200 tCE_T3T_MEM* p_cb = &p_ce_cb->mem.t3t; 370 tCE_T3T_MEM* p_cb = &p_ce_cb->mem.t3t; 520 tCE_T3T_MEM* p_cb = &p_mem_cb->mem.t3t; 619 tCE_T3T_MEM* p_cb = &p_ce_cb->mem.t3t; 786 tCE_T3T_MEM* p_cb = &ce_cb.mem.t3t; 826 tCE_T3T_MEM* p_cb = &ce_cb.mem [all...] |
H A D | rw_t1t_ndef.cc | 110 memcpy(p_t1t->mem, (uint8_t*)(p_data + T1T_ADD_LEN), T1T_SEGMENT_SIZE); 250 if (((p_t1t->mem[T1T_CC_NMN_BYTE] == T1T_CC_NMN) || 251 (p_t1t->mem[T1T_CC_NMN_BYTE] == 0)) && 252 ((p_t1t->mem[T1T_CC_VNO_BYTE] == T1T_CC_VNO) || 253 (p_t1t->mem[T1T_CC_VNO_BYTE] == T1T_CC_LEGACY_VNO)) && 254 ((p_t1t->mem[T1T_CC_RWA_BYTE] == T1T_CC_RWA_RW) || 255 (p_t1t->mem[T1T_CC_RWA_BYTE] == T1T_CC_RWA_RO))) { 258 if (p_t1t->mem[T1T_CC_RWA_BYTE] == T1T_CC_RWA_RO) { 261 } else if (p_t1t->mem[T1T_CC_RWA_BYTE] == T1T_CC_RWA_RW) { 297 p_t1t->lockbyte[num_locks].lock_byte = p_t1t->mem[offse [all...] |
/system/chre/apps/chqts/src/shared/ |
H A D | nano_string.h | 25 void memset(void *mem, int val, size_t count);
|
H A D | nano_string.cc | 35 void memset(void *mem, int val, size_t count) { argument 36 uint8_t *bytes = static_cast<uint8_t*>(mem);
|
/system/nvram/core/ |
H A D | crypto_boringssl.cpp | 22 #include <openssl/mem.h>
|
/system/libhidl/libhidlcache/ |
H A D | libhidlcache_test.cpp | 54 sp<HidlMemory> mem; local 57 mem = HidlMemory::getInstance(_mem); 60 sp<IMemoryToken> token = new HidlMemoryToken(mem); 64 mtoken->get([&](const hidl_memory& mem) { sp<IMemory> memory = mapMemory(mem); }); 122 EXPECT_OK(ashmemAllocator->allocate(2048, [&m1](bool success, const hidl_memory& mem) { 124 m1 = HidlMemory::getInstance(mem); 127 EXPECT_OK(ashmemAllocator->allocate(4096, [&m2](bool success, const hidl_memory& mem) { 129 m2 = HidlMemory::getInstance(mem);
|
H A D | MemoryDealer.cpp | 293 sp<HidlMemoryDealer> HidlMemoryDealer::getInstance(const hidl_memory& mem) { argument 295 if (mem.size() & msk || !(mem.size() & ~msk)) { 299 sp<IMemory> heap = mapMemory(mem); 304 return new HidlMemoryDealer(heap, mem); 307 HidlMemoryDealer::HidlMemoryDealer(sp<IMemory> heap, const hidl_memory& mem) argument 310 mToken(new HidlMemoryToken(HidlMemory::getInstance(mem))) {}
|
H A D | HidlCache.h | 120 sp<Value> mem = cache.promote(); local 121 if (mem != nullptr) { 122 return mem;
|
H A D | HidlMemoryCache.cpp | 105 [&](const hidl_memory& mem) { memory = new IMemoryCacheable(mapMemory(mem), key); });
|
/system/extras/procrank/ |
H A D | procrank.cpp | 76 void get_mem_info(uint64_t mem[]) { argument 142 mem[i] = atoll(num); 209 uint64_t mem[MEMINFO_COUNT] = { }; local 238 get_mem_info(mem); 239 p_swap = pm_memusage_pswap_create(mem[MEMINFO_SWAP_TOTAL] * 1024); 306 mem[MEMINFO_ZRAM_TOTAL] = zram_mem_used/1024; 307 zram_cr = (float) mem[MEMINFO_ZRAM_TOTAL] / 308 (mem[MEMINFO_SWAP_TOTAL] - mem[MEMINFO_SWAP_FREE]); 492 mem[MEMINFO_ZRAM_TOTA [all...] |
/system/extras/kexec_tools/ |
H A D | kexecload.c | 143 segment[0].mem = (void *) ((uintptr_t) start_address + KEXEC_ARM_ZIMAGE_OFFSET); 148 segment[1].mem = (void *) ((uintptr_t) start_address + KEXEC_ARM_ATAGS_OFFSET);
|
/system/libhidl/base/ |
H A D | HidlSupport.cpp | 276 sp<HidlMemory> HidlMemory::getInstance(const hidl_memory& mem) { argument 278 instance->hidl_memory::operator=(mem); 282 sp<HidlMemory> HidlMemory::getInstance(hidl_memory&& mem) { argument 284 instance->hidl_memory::operator=(std::move(mem));
|
/system/core/libmemunreachable/ |
H A D | Allocator.cpp | 216 void* mem = MapAligned(kChunkSize, kChunkSize); variable 217 if (!mem) { 221 return mem; 308 void* mem = MapAligned(kPageSize, kPageSize); 309 if (!mem) { 314 return mem;
|
/system/keymaster/km_openssl/ |
H A D | hmac.cpp | 23 #include <openssl/mem.h>
|
/system/nfc/src/nfc/include/ |
H A D | ce_int.h | 127 tCE_MEM mem; member in struct:__anon2430
|