168d75effSDimitry Andric //===-- xray_interface.cpp --------------------------------------*- C++ -*-===// 268d75effSDimitry Andric // 368d75effSDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 468d75effSDimitry Andric // See https://llvm.org/LICENSE.txt for license information. 568d75effSDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 668d75effSDimitry Andric // 768d75effSDimitry Andric //===----------------------------------------------------------------------===// 868d75effSDimitry Andric // 968d75effSDimitry Andric // This file is a part of XRay, a dynamic runtime instrumentation system. 1068d75effSDimitry Andric // 1168d75effSDimitry Andric // Implementation of the API functions. 1268d75effSDimitry Andric // 1368d75effSDimitry Andric //===----------------------------------------------------------------------===// 1468d75effSDimitry Andric 1568d75effSDimitry Andric #include "xray_interface_internal.h" 1668d75effSDimitry Andric 1768d75effSDimitry Andric #include <cstdint> 1868d75effSDimitry Andric #include <cstdio> 1968d75effSDimitry Andric #include <errno.h> 2068d75effSDimitry Andric #include <limits> 2168d75effSDimitry Andric #include <string.h> 2268d75effSDimitry Andric #include <sys/mman.h> 2368d75effSDimitry Andric 2468d75effSDimitry Andric #if SANITIZER_FUCHSIA 2568d75effSDimitry Andric #include <zircon/process.h> 2668d75effSDimitry Andric #include <zircon/sanitizer.h> 2768d75effSDimitry Andric #include <zircon/status.h> 2868d75effSDimitry Andric #include <zircon/syscalls.h> 2968d75effSDimitry Andric #endif 3068d75effSDimitry Andric 3168d75effSDimitry Andric #include "sanitizer_common/sanitizer_addrhashmap.h" 3268d75effSDimitry Andric #include "sanitizer_common/sanitizer_common.h" 3368d75effSDimitry Andric 3468d75effSDimitry Andric #include "xray_defs.h" 3568d75effSDimitry Andric #include "xray_flags.h" 3668d75effSDimitry Andric 3768d75effSDimitry Andric extern __sanitizer::SpinMutex XRayInstrMapMutex; 3868d75effSDimitry Andric extern __sanitizer::atomic_uint8_t XRayInitialized; 3968d75effSDimitry Andric extern __xray::XRaySledMap XRayInstrMap; 4068d75effSDimitry Andric 4168d75effSDimitry Andric namespace __xray { 4268d75effSDimitry Andric 4368d75effSDimitry Andric #if defined(__x86_64__) 4468d75effSDimitry Andric static const int16_t cSledLength = 12; 4568d75effSDimitry Andric #elif defined(__aarch64__) 4668d75effSDimitry Andric static const int16_t cSledLength = 32; 4768d75effSDimitry Andric #elif defined(__arm__) 4868d75effSDimitry Andric static const int16_t cSledLength = 28; 4968d75effSDimitry Andric #elif SANITIZER_MIPS32 5068d75effSDimitry Andric static const int16_t cSledLength = 48; 5168d75effSDimitry Andric #elif SANITIZER_MIPS64 5268d75effSDimitry Andric static const int16_t cSledLength = 64; 5368d75effSDimitry Andric #elif defined(__powerpc64__) 5468d75effSDimitry Andric static const int16_t cSledLength = 8; 5568d75effSDimitry Andric #else 5668d75effSDimitry Andric #error "Unsupported CPU Architecture" 5768d75effSDimitry Andric #endif /* CPU architecture */ 5868d75effSDimitry Andric 5968d75effSDimitry Andric // This is the function to call when we encounter the entry or exit sleds. 6068d75effSDimitry Andric atomic_uintptr_t XRayPatchedFunction{0}; 6168d75effSDimitry Andric 6268d75effSDimitry Andric // This is the function to call from the arg1-enabled sleds/trampolines. 6368d75effSDimitry Andric atomic_uintptr_t XRayArgLogger{0}; 6468d75effSDimitry Andric 6568d75effSDimitry Andric // This is the function to call when we encounter a custom event log call. 6668d75effSDimitry Andric atomic_uintptr_t XRayPatchedCustomEvent{0}; 6768d75effSDimitry Andric 6868d75effSDimitry Andric // This is the function to call when we encounter a typed event log call. 6968d75effSDimitry Andric atomic_uintptr_t XRayPatchedTypedEvent{0}; 7068d75effSDimitry Andric 7168d75effSDimitry Andric // This is the global status to determine whether we are currently 7268d75effSDimitry Andric // patching/unpatching. 7368d75effSDimitry Andric atomic_uint8_t XRayPatching{0}; 7468d75effSDimitry Andric 7568d75effSDimitry Andric struct TypeDescription { 7668d75effSDimitry Andric uint32_t type_id; 7768d75effSDimitry Andric std::size_t description_string_length; 7868d75effSDimitry Andric }; 7968d75effSDimitry Andric 8068d75effSDimitry Andric using TypeDescriptorMapType = AddrHashMap<TypeDescription, 11>; 8168d75effSDimitry Andric // An address map from immutable descriptors to type ids. 8268d75effSDimitry Andric TypeDescriptorMapType TypeDescriptorAddressMap{}; 8368d75effSDimitry Andric 8468d75effSDimitry Andric atomic_uint32_t TypeEventDescriptorCounter{0}; 8568d75effSDimitry Andric 8668d75effSDimitry Andric // MProtectHelper is an RAII wrapper for calls to mprotect(...) that will 8768d75effSDimitry Andric // undo any successful mprotect(...) changes. This is used to make a page 8868d75effSDimitry Andric // writeable and executable, and upon destruction if it was successful in 8968d75effSDimitry Andric // doing so returns the page into a read-only and executable page. 9068d75effSDimitry Andric // 9168d75effSDimitry Andric // This is only used specifically for runtime-patching of the XRay 9268d75effSDimitry Andric // instrumentation points. This assumes that the executable pages are 9368d75effSDimitry Andric // originally read-and-execute only. 9468d75effSDimitry Andric class MProtectHelper { 9568d75effSDimitry Andric void *PageAlignedAddr; 9668d75effSDimitry Andric std::size_t MProtectLen; 9768d75effSDimitry Andric bool MustCleanup; 9868d75effSDimitry Andric 9968d75effSDimitry Andric public: 10068d75effSDimitry Andric explicit MProtectHelper(void *PageAlignedAddr, 10168d75effSDimitry Andric std::size_t MProtectLen, 10268d75effSDimitry Andric std::size_t PageSize) XRAY_NEVER_INSTRUMENT 10368d75effSDimitry Andric : PageAlignedAddr(PageAlignedAddr), 10468d75effSDimitry Andric MProtectLen(MProtectLen), 10568d75effSDimitry Andric MustCleanup(false) { 10668d75effSDimitry Andric #if SANITIZER_FUCHSIA 10768d75effSDimitry Andric MProtectLen = RoundUpTo(MProtectLen, PageSize); 10868d75effSDimitry Andric #endif 10968d75effSDimitry Andric } 11068d75effSDimitry Andric 11168d75effSDimitry Andric int MakeWriteable() XRAY_NEVER_INSTRUMENT { 11268d75effSDimitry Andric #if SANITIZER_FUCHSIA 11368d75effSDimitry Andric auto R = __sanitizer_change_code_protection( 11468d75effSDimitry Andric reinterpret_cast<uintptr_t>(PageAlignedAddr), MProtectLen, true); 11568d75effSDimitry Andric if (R != ZX_OK) { 11668d75effSDimitry Andric Report("XRay: cannot change code protection: %s\n", 11768d75effSDimitry Andric _zx_status_get_string(R)); 11868d75effSDimitry Andric return -1; 11968d75effSDimitry Andric } 12068d75effSDimitry Andric MustCleanup = true; 12168d75effSDimitry Andric return 0; 12268d75effSDimitry Andric #else 12368d75effSDimitry Andric auto R = mprotect(PageAlignedAddr, MProtectLen, 12468d75effSDimitry Andric PROT_READ | PROT_WRITE | PROT_EXEC); 12568d75effSDimitry Andric if (R != -1) 12668d75effSDimitry Andric MustCleanup = true; 12768d75effSDimitry Andric return R; 12868d75effSDimitry Andric #endif 12968d75effSDimitry Andric } 13068d75effSDimitry Andric 13168d75effSDimitry Andric ~MProtectHelper() XRAY_NEVER_INSTRUMENT { 13268d75effSDimitry Andric if (MustCleanup) { 13368d75effSDimitry Andric #if SANITIZER_FUCHSIA 13468d75effSDimitry Andric auto R = __sanitizer_change_code_protection( 13568d75effSDimitry Andric reinterpret_cast<uintptr_t>(PageAlignedAddr), MProtectLen, false); 13668d75effSDimitry Andric if (R != ZX_OK) { 13768d75effSDimitry Andric Report("XRay: cannot change code protection: %s\n", 13868d75effSDimitry Andric _zx_status_get_string(R)); 13968d75effSDimitry Andric } 14068d75effSDimitry Andric #else 14168d75effSDimitry Andric mprotect(PageAlignedAddr, MProtectLen, PROT_READ | PROT_EXEC); 14268d75effSDimitry Andric #endif 14368d75effSDimitry Andric } 14468d75effSDimitry Andric } 14568d75effSDimitry Andric }; 14668d75effSDimitry Andric 14768d75effSDimitry Andric namespace { 14868d75effSDimitry Andric 14968d75effSDimitry Andric bool patchSled(const XRaySledEntry &Sled, bool Enable, 15068d75effSDimitry Andric int32_t FuncId) XRAY_NEVER_INSTRUMENT { 15168d75effSDimitry Andric bool Success = false; 15268d75effSDimitry Andric switch (Sled.Kind) { 15368d75effSDimitry Andric case XRayEntryType::ENTRY: 15468d75effSDimitry Andric Success = patchFunctionEntry(Enable, FuncId, Sled, __xray_FunctionEntry); 15568d75effSDimitry Andric break; 15668d75effSDimitry Andric case XRayEntryType::EXIT: 15768d75effSDimitry Andric Success = patchFunctionExit(Enable, FuncId, Sled); 15868d75effSDimitry Andric break; 15968d75effSDimitry Andric case XRayEntryType::TAIL: 16068d75effSDimitry Andric Success = patchFunctionTailExit(Enable, FuncId, Sled); 16168d75effSDimitry Andric break; 16268d75effSDimitry Andric case XRayEntryType::LOG_ARGS_ENTRY: 16368d75effSDimitry Andric Success = patchFunctionEntry(Enable, FuncId, Sled, __xray_ArgLoggerEntry); 16468d75effSDimitry Andric break; 16568d75effSDimitry Andric case XRayEntryType::CUSTOM_EVENT: 16668d75effSDimitry Andric Success = patchCustomEvent(Enable, FuncId, Sled); 16768d75effSDimitry Andric break; 16868d75effSDimitry Andric case XRayEntryType::TYPED_EVENT: 16968d75effSDimitry Andric Success = patchTypedEvent(Enable, FuncId, Sled); 17068d75effSDimitry Andric break; 17168d75effSDimitry Andric default: 17268d75effSDimitry Andric Report("Unsupported sled kind '%d' @%04x\n", Sled.Address, int(Sled.Kind)); 17368d75effSDimitry Andric return false; 17468d75effSDimitry Andric } 17568d75effSDimitry Andric return Success; 17668d75effSDimitry Andric } 17768d75effSDimitry Andric 178*5ffd83dbSDimitry Andric const XRayFunctionSledIndex 179*5ffd83dbSDimitry Andric findFunctionSleds(int32_t FuncId, 180*5ffd83dbSDimitry Andric const XRaySledMap &InstrMap) XRAY_NEVER_INSTRUMENT { 181*5ffd83dbSDimitry Andric int32_t CurFn = 0; 182*5ffd83dbSDimitry Andric uint64_t LastFnAddr = 0; 183*5ffd83dbSDimitry Andric XRayFunctionSledIndex Index = {nullptr, nullptr}; 184*5ffd83dbSDimitry Andric 185*5ffd83dbSDimitry Andric for (std::size_t I = 0; I < InstrMap.Entries && CurFn <= FuncId; I++) { 186*5ffd83dbSDimitry Andric const auto &Sled = InstrMap.Sleds[I]; 187*5ffd83dbSDimitry Andric const auto Function = Sled.function(); 188*5ffd83dbSDimitry Andric if (Function != LastFnAddr) { 189*5ffd83dbSDimitry Andric CurFn++; 190*5ffd83dbSDimitry Andric LastFnAddr = Function; 191*5ffd83dbSDimitry Andric } 192*5ffd83dbSDimitry Andric 193*5ffd83dbSDimitry Andric if (CurFn == FuncId) { 194*5ffd83dbSDimitry Andric if (Index.Begin == nullptr) 195*5ffd83dbSDimitry Andric Index.Begin = &Sled; 196*5ffd83dbSDimitry Andric Index.End = &Sled; 197*5ffd83dbSDimitry Andric } 198*5ffd83dbSDimitry Andric } 199*5ffd83dbSDimitry Andric 200*5ffd83dbSDimitry Andric Index.End += 1; 201*5ffd83dbSDimitry Andric 202*5ffd83dbSDimitry Andric return Index; 203*5ffd83dbSDimitry Andric } 204*5ffd83dbSDimitry Andric 20568d75effSDimitry Andric XRayPatchingStatus patchFunction(int32_t FuncId, 20668d75effSDimitry Andric bool Enable) XRAY_NEVER_INSTRUMENT { 20768d75effSDimitry Andric if (!atomic_load(&XRayInitialized, 20868d75effSDimitry Andric memory_order_acquire)) 20968d75effSDimitry Andric return XRayPatchingStatus::NOT_INITIALIZED; // Not initialized. 21068d75effSDimitry Andric 21168d75effSDimitry Andric uint8_t NotPatching = false; 21268d75effSDimitry Andric if (!atomic_compare_exchange_strong( 21368d75effSDimitry Andric &XRayPatching, &NotPatching, true, memory_order_acq_rel)) 21468d75effSDimitry Andric return XRayPatchingStatus::ONGOING; // Already patching. 21568d75effSDimitry Andric 21668d75effSDimitry Andric // Next, we look for the function index. 21768d75effSDimitry Andric XRaySledMap InstrMap; 21868d75effSDimitry Andric { 21968d75effSDimitry Andric SpinMutexLock Guard(&XRayInstrMapMutex); 22068d75effSDimitry Andric InstrMap = XRayInstrMap; 22168d75effSDimitry Andric } 22268d75effSDimitry Andric 22368d75effSDimitry Andric // If we don't have an index, we can't patch individual functions. 22468d75effSDimitry Andric if (InstrMap.Functions == 0) 22568d75effSDimitry Andric return XRayPatchingStatus::NOT_INITIALIZED; 22668d75effSDimitry Andric 22768d75effSDimitry Andric // FuncId must be a positive number, less than the number of functions 22868d75effSDimitry Andric // instrumented. 22968d75effSDimitry Andric if (FuncId <= 0 || static_cast<size_t>(FuncId) > InstrMap.Functions) { 23068d75effSDimitry Andric Report("Invalid function id provided: %d\n", FuncId); 23168d75effSDimitry Andric return XRayPatchingStatus::FAILED; 23268d75effSDimitry Andric } 23368d75effSDimitry Andric 23468d75effSDimitry Andric // Now we patch ths sleds for this specific function. 235*5ffd83dbSDimitry Andric auto SledRange = InstrMap.SledsIndex ? InstrMap.SledsIndex[FuncId - 1] 236*5ffd83dbSDimitry Andric : findFunctionSleds(FuncId, InstrMap); 23768d75effSDimitry Andric auto *f = SledRange.Begin; 23868d75effSDimitry Andric auto *e = SledRange.End; 23968d75effSDimitry Andric bool SucceedOnce = false; 24068d75effSDimitry Andric while (f != e) 24168d75effSDimitry Andric SucceedOnce |= patchSled(*f++, Enable, FuncId); 24268d75effSDimitry Andric 24368d75effSDimitry Andric atomic_store(&XRayPatching, false, 24468d75effSDimitry Andric memory_order_release); 24568d75effSDimitry Andric 24668d75effSDimitry Andric if (!SucceedOnce) { 24768d75effSDimitry Andric Report("Failed patching any sled for function '%d'.", FuncId); 24868d75effSDimitry Andric return XRayPatchingStatus::FAILED; 24968d75effSDimitry Andric } 25068d75effSDimitry Andric 25168d75effSDimitry Andric return XRayPatchingStatus::SUCCESS; 25268d75effSDimitry Andric } 25368d75effSDimitry Andric 25468d75effSDimitry Andric // controlPatching implements the common internals of the patching/unpatching 25568d75effSDimitry Andric // implementation. |Enable| defines whether we're enabling or disabling the 25668d75effSDimitry Andric // runtime XRay instrumentation. 25768d75effSDimitry Andric XRayPatchingStatus controlPatching(bool Enable) XRAY_NEVER_INSTRUMENT { 25868d75effSDimitry Andric if (!atomic_load(&XRayInitialized, 25968d75effSDimitry Andric memory_order_acquire)) 26068d75effSDimitry Andric return XRayPatchingStatus::NOT_INITIALIZED; // Not initialized. 26168d75effSDimitry Andric 26268d75effSDimitry Andric uint8_t NotPatching = false; 26368d75effSDimitry Andric if (!atomic_compare_exchange_strong( 26468d75effSDimitry Andric &XRayPatching, &NotPatching, true, memory_order_acq_rel)) 26568d75effSDimitry Andric return XRayPatchingStatus::ONGOING; // Already patching. 26668d75effSDimitry Andric 26768d75effSDimitry Andric uint8_t PatchingSuccess = false; 26868d75effSDimitry Andric auto XRayPatchingStatusResetter = 26968d75effSDimitry Andric at_scope_exit([&PatchingSuccess] { 27068d75effSDimitry Andric if (!PatchingSuccess) 27168d75effSDimitry Andric atomic_store(&XRayPatching, false, 27268d75effSDimitry Andric memory_order_release); 27368d75effSDimitry Andric }); 27468d75effSDimitry Andric 27568d75effSDimitry Andric XRaySledMap InstrMap; 27668d75effSDimitry Andric { 27768d75effSDimitry Andric SpinMutexLock Guard(&XRayInstrMapMutex); 27868d75effSDimitry Andric InstrMap = XRayInstrMap; 27968d75effSDimitry Andric } 28068d75effSDimitry Andric if (InstrMap.Entries == 0) 28168d75effSDimitry Andric return XRayPatchingStatus::NOT_INITIALIZED; 28268d75effSDimitry Andric 28368d75effSDimitry Andric uint32_t FuncId = 1; 28468d75effSDimitry Andric uint64_t CurFun = 0; 28568d75effSDimitry Andric 28668d75effSDimitry Andric // First we want to find the bounds for which we have instrumentation points, 28768d75effSDimitry Andric // and try to get as few calls to mprotect(...) as possible. We're assuming 28868d75effSDimitry Andric // that all the sleds for the instrumentation map are contiguous as a single 28968d75effSDimitry Andric // set of pages. When we do support dynamic shared object instrumentation, 29068d75effSDimitry Andric // we'll need to do this for each set of page load offsets per DSO loaded. For 29168d75effSDimitry Andric // now we're assuming we can mprotect the whole section of text between the 29268d75effSDimitry Andric // minimum sled address and the maximum sled address (+ the largest sled 29368d75effSDimitry Andric // size). 294*5ffd83dbSDimitry Andric auto *MinSled = &InstrMap.Sleds[0]; 295*5ffd83dbSDimitry Andric auto *MaxSled = &InstrMap.Sleds[InstrMap.Entries - 1]; 29668d75effSDimitry Andric for (std::size_t I = 0; I < InstrMap.Entries; I++) { 29768d75effSDimitry Andric const auto &Sled = InstrMap.Sleds[I]; 298*5ffd83dbSDimitry Andric if (Sled.address() < MinSled->address()) 299*5ffd83dbSDimitry Andric MinSled = &Sled; 300*5ffd83dbSDimitry Andric if (Sled.address() > MaxSled->address()) 301*5ffd83dbSDimitry Andric MaxSled = &Sled; 30268d75effSDimitry Andric } 30368d75effSDimitry Andric 30468d75effSDimitry Andric const size_t PageSize = flags()->xray_page_size_override > 0 30568d75effSDimitry Andric ? flags()->xray_page_size_override 30668d75effSDimitry Andric : GetPageSizeCached(); 30768d75effSDimitry Andric if ((PageSize == 0) || ((PageSize & (PageSize - 1)) != 0)) { 30868d75effSDimitry Andric Report("System page size is not a power of two: %lld\n", PageSize); 30968d75effSDimitry Andric return XRayPatchingStatus::FAILED; 31068d75effSDimitry Andric } 31168d75effSDimitry Andric 31268d75effSDimitry Andric void *PageAlignedAddr = 313*5ffd83dbSDimitry Andric reinterpret_cast<void *>(MinSled->address() & ~(PageSize - 1)); 31468d75effSDimitry Andric size_t MProtectLen = 315*5ffd83dbSDimitry Andric (MaxSled->address() - reinterpret_cast<uptr>(PageAlignedAddr)) + 316*5ffd83dbSDimitry Andric cSledLength; 31768d75effSDimitry Andric MProtectHelper Protector(PageAlignedAddr, MProtectLen, PageSize); 31868d75effSDimitry Andric if (Protector.MakeWriteable() == -1) { 31968d75effSDimitry Andric Report("Failed mprotect: %d\n", errno); 32068d75effSDimitry Andric return XRayPatchingStatus::FAILED; 32168d75effSDimitry Andric } 32268d75effSDimitry Andric 32368d75effSDimitry Andric for (std::size_t I = 0; I < InstrMap.Entries; ++I) { 32468d75effSDimitry Andric auto &Sled = InstrMap.Sleds[I]; 325*5ffd83dbSDimitry Andric auto F = Sled.function(); 32668d75effSDimitry Andric if (CurFun == 0) 32768d75effSDimitry Andric CurFun = F; 32868d75effSDimitry Andric if (F != CurFun) { 32968d75effSDimitry Andric ++FuncId; 33068d75effSDimitry Andric CurFun = F; 33168d75effSDimitry Andric } 33268d75effSDimitry Andric patchSled(Sled, Enable, FuncId); 33368d75effSDimitry Andric } 33468d75effSDimitry Andric atomic_store(&XRayPatching, false, 33568d75effSDimitry Andric memory_order_release); 33668d75effSDimitry Andric PatchingSuccess = true; 33768d75effSDimitry Andric return XRayPatchingStatus::SUCCESS; 33868d75effSDimitry Andric } 33968d75effSDimitry Andric 34068d75effSDimitry Andric XRayPatchingStatus mprotectAndPatchFunction(int32_t FuncId, 34168d75effSDimitry Andric bool Enable) XRAY_NEVER_INSTRUMENT { 34268d75effSDimitry Andric XRaySledMap InstrMap; 34368d75effSDimitry Andric { 34468d75effSDimitry Andric SpinMutexLock Guard(&XRayInstrMapMutex); 34568d75effSDimitry Andric InstrMap = XRayInstrMap; 34668d75effSDimitry Andric } 34768d75effSDimitry Andric 34868d75effSDimitry Andric // FuncId must be a positive number, less than the number of functions 34968d75effSDimitry Andric // instrumented. 35068d75effSDimitry Andric if (FuncId <= 0 || static_cast<size_t>(FuncId) > InstrMap.Functions) { 35168d75effSDimitry Andric Report("Invalid function id provided: %d\n", FuncId); 35268d75effSDimitry Andric return XRayPatchingStatus::FAILED; 35368d75effSDimitry Andric } 35468d75effSDimitry Andric 35568d75effSDimitry Andric const size_t PageSize = flags()->xray_page_size_override > 0 35668d75effSDimitry Andric ? flags()->xray_page_size_override 35768d75effSDimitry Andric : GetPageSizeCached(); 35868d75effSDimitry Andric if ((PageSize == 0) || ((PageSize & (PageSize - 1)) != 0)) { 35968d75effSDimitry Andric Report("Provided page size is not a power of two: %lld\n", PageSize); 36068d75effSDimitry Andric return XRayPatchingStatus::FAILED; 36168d75effSDimitry Andric } 36268d75effSDimitry Andric 36368d75effSDimitry Andric // Here we compute the minumum sled and maximum sled associated with a 36468d75effSDimitry Andric // particular function ID. 365*5ffd83dbSDimitry Andric auto SledRange = InstrMap.SledsIndex ? InstrMap.SledsIndex[FuncId - 1] 366*5ffd83dbSDimitry Andric : findFunctionSleds(FuncId, InstrMap); 36768d75effSDimitry Andric auto *f = SledRange.Begin; 36868d75effSDimitry Andric auto *e = SledRange.End; 369*5ffd83dbSDimitry Andric auto *MinSled = f; 370*5ffd83dbSDimitry Andric auto *MaxSled = (SledRange.End - 1); 37168d75effSDimitry Andric while (f != e) { 372*5ffd83dbSDimitry Andric if (f->address() < MinSled->address()) 373*5ffd83dbSDimitry Andric MinSled = f; 374*5ffd83dbSDimitry Andric if (f->address() > MaxSled->address()) 375*5ffd83dbSDimitry Andric MaxSled = f; 37668d75effSDimitry Andric ++f; 37768d75effSDimitry Andric } 37868d75effSDimitry Andric 37968d75effSDimitry Andric void *PageAlignedAddr = 380*5ffd83dbSDimitry Andric reinterpret_cast<void *>(MinSled->address() & ~(PageSize - 1)); 38168d75effSDimitry Andric size_t MProtectLen = 382*5ffd83dbSDimitry Andric (MaxSled->address() - reinterpret_cast<uptr>(PageAlignedAddr)) + 383*5ffd83dbSDimitry Andric cSledLength; 38468d75effSDimitry Andric MProtectHelper Protector(PageAlignedAddr, MProtectLen, PageSize); 38568d75effSDimitry Andric if (Protector.MakeWriteable() == -1) { 38668d75effSDimitry Andric Report("Failed mprotect: %d\n", errno); 38768d75effSDimitry Andric return XRayPatchingStatus::FAILED; 38868d75effSDimitry Andric } 38968d75effSDimitry Andric return patchFunction(FuncId, Enable); 39068d75effSDimitry Andric } 39168d75effSDimitry Andric 39268d75effSDimitry Andric } // namespace 39368d75effSDimitry Andric 39468d75effSDimitry Andric } // namespace __xray 39568d75effSDimitry Andric 39668d75effSDimitry Andric using namespace __xray; 39768d75effSDimitry Andric 39868d75effSDimitry Andric // The following functions are declared `extern "C" {...}` in the header, hence 39968d75effSDimitry Andric // they're defined in the global namespace. 40068d75effSDimitry Andric 40168d75effSDimitry Andric int __xray_set_handler(void (*entry)(int32_t, 40268d75effSDimitry Andric XRayEntryType)) XRAY_NEVER_INSTRUMENT { 40368d75effSDimitry Andric if (atomic_load(&XRayInitialized, 40468d75effSDimitry Andric memory_order_acquire)) { 40568d75effSDimitry Andric 40668d75effSDimitry Andric atomic_store(&__xray::XRayPatchedFunction, 40768d75effSDimitry Andric reinterpret_cast<uintptr_t>(entry), 40868d75effSDimitry Andric memory_order_release); 40968d75effSDimitry Andric return 1; 41068d75effSDimitry Andric } 41168d75effSDimitry Andric return 0; 41268d75effSDimitry Andric } 41368d75effSDimitry Andric 41468d75effSDimitry Andric int __xray_set_customevent_handler(void (*entry)(void *, size_t)) 41568d75effSDimitry Andric XRAY_NEVER_INSTRUMENT { 41668d75effSDimitry Andric if (atomic_load(&XRayInitialized, 41768d75effSDimitry Andric memory_order_acquire)) { 41868d75effSDimitry Andric atomic_store(&__xray::XRayPatchedCustomEvent, 41968d75effSDimitry Andric reinterpret_cast<uintptr_t>(entry), 42068d75effSDimitry Andric memory_order_release); 42168d75effSDimitry Andric return 1; 42268d75effSDimitry Andric } 42368d75effSDimitry Andric return 0; 42468d75effSDimitry Andric } 42568d75effSDimitry Andric 42668d75effSDimitry Andric int __xray_set_typedevent_handler(void (*entry)( 42768d75effSDimitry Andric uint16_t, const void *, size_t)) XRAY_NEVER_INSTRUMENT { 42868d75effSDimitry Andric if (atomic_load(&XRayInitialized, 42968d75effSDimitry Andric memory_order_acquire)) { 43068d75effSDimitry Andric atomic_store(&__xray::XRayPatchedTypedEvent, 43168d75effSDimitry Andric reinterpret_cast<uintptr_t>(entry), 43268d75effSDimitry Andric memory_order_release); 43368d75effSDimitry Andric return 1; 43468d75effSDimitry Andric } 43568d75effSDimitry Andric return 0; 43668d75effSDimitry Andric } 43768d75effSDimitry Andric 43868d75effSDimitry Andric int __xray_remove_handler() XRAY_NEVER_INSTRUMENT { 43968d75effSDimitry Andric return __xray_set_handler(nullptr); 44068d75effSDimitry Andric } 44168d75effSDimitry Andric 44268d75effSDimitry Andric int __xray_remove_customevent_handler() XRAY_NEVER_INSTRUMENT { 44368d75effSDimitry Andric return __xray_set_customevent_handler(nullptr); 44468d75effSDimitry Andric } 44568d75effSDimitry Andric 44668d75effSDimitry Andric int __xray_remove_typedevent_handler() XRAY_NEVER_INSTRUMENT { 44768d75effSDimitry Andric return __xray_set_typedevent_handler(nullptr); 44868d75effSDimitry Andric } 44968d75effSDimitry Andric 45068d75effSDimitry Andric uint16_t __xray_register_event_type( 45168d75effSDimitry Andric const char *const event_type) XRAY_NEVER_INSTRUMENT { 45268d75effSDimitry Andric TypeDescriptorMapType::Handle h(&TypeDescriptorAddressMap, (uptr)event_type); 45368d75effSDimitry Andric if (h.created()) { 45468d75effSDimitry Andric h->type_id = atomic_fetch_add( 45568d75effSDimitry Andric &TypeEventDescriptorCounter, 1, memory_order_acq_rel); 45668d75effSDimitry Andric h->description_string_length = strnlen(event_type, 1024); 45768d75effSDimitry Andric } 45868d75effSDimitry Andric return h->type_id; 45968d75effSDimitry Andric } 46068d75effSDimitry Andric 46168d75effSDimitry Andric XRayPatchingStatus __xray_patch() XRAY_NEVER_INSTRUMENT { 46268d75effSDimitry Andric return controlPatching(true); 46368d75effSDimitry Andric } 46468d75effSDimitry Andric 46568d75effSDimitry Andric XRayPatchingStatus __xray_unpatch() XRAY_NEVER_INSTRUMENT { 46668d75effSDimitry Andric return controlPatching(false); 46768d75effSDimitry Andric } 46868d75effSDimitry Andric 46968d75effSDimitry Andric XRayPatchingStatus __xray_patch_function(int32_t FuncId) XRAY_NEVER_INSTRUMENT { 47068d75effSDimitry Andric return mprotectAndPatchFunction(FuncId, true); 47168d75effSDimitry Andric } 47268d75effSDimitry Andric 47368d75effSDimitry Andric XRayPatchingStatus 47468d75effSDimitry Andric __xray_unpatch_function(int32_t FuncId) XRAY_NEVER_INSTRUMENT { 47568d75effSDimitry Andric return mprotectAndPatchFunction(FuncId, false); 47668d75effSDimitry Andric } 47768d75effSDimitry Andric 47868d75effSDimitry Andric int __xray_set_handler_arg1(void (*entry)(int32_t, XRayEntryType, uint64_t)) { 47968d75effSDimitry Andric if (!atomic_load(&XRayInitialized, 48068d75effSDimitry Andric memory_order_acquire)) 48168d75effSDimitry Andric return 0; 48268d75effSDimitry Andric 48368d75effSDimitry Andric // A relaxed write might not be visible even if the current thread gets 48468d75effSDimitry Andric // scheduled on a different CPU/NUMA node. We need to wait for everyone to 48568d75effSDimitry Andric // have this handler installed for consistency of collected data across CPUs. 48668d75effSDimitry Andric atomic_store(&XRayArgLogger, reinterpret_cast<uint64_t>(entry), 48768d75effSDimitry Andric memory_order_release); 48868d75effSDimitry Andric return 1; 48968d75effSDimitry Andric } 49068d75effSDimitry Andric 49168d75effSDimitry Andric int __xray_remove_handler_arg1() { return __xray_set_handler_arg1(nullptr); } 49268d75effSDimitry Andric 49368d75effSDimitry Andric uintptr_t __xray_function_address(int32_t FuncId) XRAY_NEVER_INSTRUMENT { 494*5ffd83dbSDimitry Andric XRaySledMap InstrMap; 495*5ffd83dbSDimitry Andric { 49668d75effSDimitry Andric SpinMutexLock Guard(&XRayInstrMapMutex); 497*5ffd83dbSDimitry Andric InstrMap = XRayInstrMap; 498*5ffd83dbSDimitry Andric } 499*5ffd83dbSDimitry Andric 500*5ffd83dbSDimitry Andric if (FuncId <= 0 || static_cast<size_t>(FuncId) > InstrMap.Functions) 50168d75effSDimitry Andric return 0; 502*5ffd83dbSDimitry Andric const XRaySledEntry *Sled = InstrMap.SledsIndex 503*5ffd83dbSDimitry Andric ? InstrMap.SledsIndex[FuncId - 1].Begin 504*5ffd83dbSDimitry Andric : findFunctionSleds(FuncId, InstrMap).Begin; 505*5ffd83dbSDimitry Andric return Sled->function() 50668d75effSDimitry Andric // On PPC, function entries are always aligned to 16 bytes. The beginning of a 50768d75effSDimitry Andric // sled might be a local entry, which is always +8 based on the global entry. 50868d75effSDimitry Andric // Always return the global entry. 50968d75effSDimitry Andric #ifdef __PPC__ 51068d75effSDimitry Andric & ~0xf 51168d75effSDimitry Andric #endif 51268d75effSDimitry Andric ; 51368d75effSDimitry Andric } 51468d75effSDimitry Andric 51568d75effSDimitry Andric size_t __xray_max_function_id() XRAY_NEVER_INSTRUMENT { 51668d75effSDimitry Andric SpinMutexLock Guard(&XRayInstrMapMutex); 51768d75effSDimitry Andric return XRayInstrMap.Functions; 51868d75effSDimitry Andric } 519