/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: sw=2 ts=8 et : */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "Shmem.h" #include "ProtocolUtils.h" #include "SharedMemoryBasic.h" #include "SharedMemorySysV.h" #include "mozilla/unused.h" namespace mozilla { namespace ipc { class ShmemCreated : public IPC::Message { private: typedef Shmem::id_t id_t; public: ShmemCreated(int32_t routingId, const id_t& aIPDLId, const size_t& aSize, const SharedMemoryBasic::Handle& aHandle) : IPC::Message(routingId, SHMEM_CREATED_MESSAGE_TYPE, PRIORITY_NORMAL) { IPC::WriteParam(this, aIPDLId); IPC::WriteParam(this, aSize); IPC::WriteParam(this, int32_t(SharedMemory::TYPE_BASIC)), IPC::WriteParam(this, aHandle); } // Instead of a single Read() function, we have ReadInfo() and // ReadHandle(). The reason is that the handle type is specific to // the shmem type. These functions should only be called in the // order ReadInfo(); ReadHandle();, and only once each. static bool ReadInfo(const Message* msg, void** iter, id_t* aIPDLId, size_t* aSize, SharedMemory::SharedMemoryType* aType) { if (!IPC::ReadParam(msg, iter, aIPDLId) || !IPC::ReadParam(msg, iter, aSize) || !IPC::ReadParam(msg, iter, reinterpret_cast(aType))) return false; return true; } static bool ReadHandle(const Message* msg, void** iter, SharedMemoryBasic::Handle* aHandle) { if (!IPC::ReadParam(msg, iter, aHandle)) return false; msg->EndRead(*iter); return true; } #ifdef MOZ_HAVE_SHAREDMEMORYSYSV ShmemCreated(int32_t routingId, const id_t& aIPDLId, const size_t& aSize, const SharedMemorySysV::Handle& aHandle) : IPC::Message(routingId, SHMEM_CREATED_MESSAGE_TYPE, PRIORITY_NORMAL) { IPC::WriteParam(this, aIPDLId); IPC::WriteParam(this, aSize); IPC::WriteParam(this, int32_t(SharedMemory::TYPE_SYSV)), IPC::WriteParam(this, aHandle); } static bool ReadHandle(const Message* msg, void** iter, SharedMemorySysV::Handle* aHandle) { if (!IPC::ReadParam(msg, iter, aHandle)) return false; msg->EndRead(*iter); return true; } #endif void Log(const std::string& aPrefix, FILE* aOutf) const { fputs("(special ShmemCreated msg)", aOutf); } }; class ShmemDestroyed : public IPC::Message { private: typedef Shmem::id_t id_t; public: ShmemDestroyed(int32_t routingId, const id_t& aIPDLId) : IPC::Message(routingId, SHMEM_DESTROYED_MESSAGE_TYPE, PRIORITY_NORMAL) { IPC::WriteParam(this, aIPDLId); } }; #ifdef MOZ_HAVE_SHAREDMEMORYSYSV static already_AddRefed CreateSegment(size_t aNBytes, SharedMemorySysV::Handle aHandle) { nsRefPtr segment; if (SharedMemorySysV::IsHandleValid(aHandle)) { segment = new SharedMemorySysV(aHandle); } else { segment = new SharedMemorySysV(); if (!segment->Create(aNBytes)) return nullptr; } if (!segment->Map(aNBytes)) return nullptr; return segment.forget(); } #endif static already_AddRefed CreateSegment(size_t aNBytes, SharedMemoryBasic::Handle aHandle) { nsRefPtr segment; if (SharedMemoryBasic::IsHandleValid(aHandle)) { segment = new SharedMemoryBasic(aHandle); } else { segment = new SharedMemoryBasic(); if (!segment->Create(aNBytes)) return nullptr; } if (!segment->Map(aNBytes)) return nullptr; return segment.forget(); } static void DestroySegment(SharedMemory* aSegment) { // the SharedMemory dtor closes and unmaps the actual OS shmem segment if (aSegment) aSegment->Release(); } #if defined(DEBUG) static const char sMagic[] = "This little piggy went to market.\n" "This little piggy stayed at home.\n" "This little piggy has roast beef,\n" "This little piggy had none.\n" "And this little piggy cried \"Wee! Wee! Wee!\" all the way home"; struct Header { // Don't use size_t or bool here because their size depends on the // architecture. uint32_t mSize; uint32_t mUnsafe; char mMagic[sizeof(sMagic)]; }; static void GetSections(Shmem::SharedMemory* aSegment, Header** aHeader, char** aFrontSentinel, char** aData, char** aBackSentinel) { MOZ_ASSERT(aSegment && aFrontSentinel && aData && aBackSentinel, "null param(s)"); *aFrontSentinel = reinterpret_cast(aSegment->memory()); MOZ_ASSERT(*aFrontSentinel, "null memory()"); *aHeader = reinterpret_cast(*aFrontSentinel); size_t pageSize = Shmem::SharedMemory::SystemPageSize(); *aData = *aFrontSentinel + pageSize; *aBackSentinel = *aFrontSentinel + aSegment->Size() - pageSize; } static Header* GetHeader(Shmem::SharedMemory* aSegment) { Header* header; char* dontcare; GetSections(aSegment, &header, &dontcare, &dontcare, &dontcare); return header; } static void Protect(SharedMemory* aSegment) { MOZ_ASSERT(aSegment, "null segment"); aSegment->Protect(reinterpret_cast(aSegment->memory()), aSegment->Size(), RightsNone); } static void Unprotect(SharedMemory* aSegment) { MOZ_ASSERT(aSegment, "null segment"); aSegment->Protect(reinterpret_cast(aSegment->memory()), aSegment->Size(), RightsRead | RightsWrite); } // // In debug builds, we specially allocate shmem segments. The layout // is as follows // // Page 0: "front sentinel" // size of mapping // magic bytes // Page 1 through n-1: // user data // Page n: "back sentinel" // [nothing] // // The mapping can be in one of the following states, wrt to the // current process. // // State "unmapped": all pages are mapped with no access rights. // // State "mapping": all pages are mapped with read/write access. // // State "mapped": the front and back sentinels are mapped with no // access rights, and all the other pages are mapped with // read/write access. // // When a SharedMemory segment is first allocated, it starts out in // the "mapping" state for the process that allocates the segment, and // in the "unmapped" state for the other process. The allocating // process will then create a Shmem, which takes the segment into the // "mapped" state, where it can be accessed by clients. // // When a Shmem is sent to another process in an IPDL message, the // segment transitions into the "unmapped" state for the sending // process, and into the "mapping" state for the receiving process. // The receiving process will then create a Shmem from the underlying // segment, and take the segment into the "mapped" state. // // In the "mapping" state, we use the front sentinel to verify the // integrity of the shmem segment. If valid, it has a size_t // containing the number of bytes the user allocated followed by the // magic bytes above. // // In the "mapped" state, the front and back sentinels have no access // rights. They act as guards against buffer overflows and underflows // in client code; if clients touch a sentinel, they die with SIGSEGV. // // The "unmapped" state is used to enforce single-owner semantics of // the shmem segment. If a process other than the current owner tries // to touch the segment, it dies with SIGSEGV. // Shmem::Shmem(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, SharedMemory* aSegment, id_t aId) : mSegment(aSegment), mData(nullptr), mSize(0) { MOZ_ASSERT(mSegment, "null segment"); MOZ_ASSERT(aId != 0, "invalid ID"); Unprotect(mSegment); Header* header; char* frontSentinel; char* data; char* backSentinel; GetSections(aSegment, &header, &frontSentinel, &data, &backSentinel); // do a quick validity check to avoid weird-looking crashes in libc char check = *frontSentinel; (void)check; MOZ_ASSERT(!strncmp(header->mMagic, sMagic, sizeof(sMagic)), "invalid segment"); mSize = static_cast(header->mSize); size_t pageSize = SharedMemory::SystemPageSize(); // transition into the "mapped" state by protecting the front and // back sentinels (which guard against buffer under/overflows) mSegment->Protect(frontSentinel, pageSize, RightsNone); mSegment->Protect(backSentinel, pageSize, RightsNone); // don't set these until we know they're valid mData = data; mId = aId; } void Shmem::AssertInvariants() const { MOZ_ASSERT(mSegment, "null segment"); MOZ_ASSERT(mData, "null data pointer"); MOZ_ASSERT(mSize > 0, "invalid size"); // if the segment isn't owned by the current process, these will // trigger SIGSEGV char checkMappingFront = *reinterpret_cast(mData); char checkMappingBack = *(reinterpret_cast(mData) + mSize - 1); // avoid "unused" warnings for these variables: unused << checkMappingFront; unused << checkMappingBack; } void Shmem::RevokeRights(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead) { AssertInvariants(); size_t pageSize = SharedMemory::SystemPageSize(); Header* header = GetHeader(mSegment); // Open this up for reading temporarily mSegment->Protect(reinterpret_cast(header), pageSize, RightsRead); if (!header->mUnsafe) { Protect(mSegment); } else { mSegment->Protect(reinterpret_cast(header), pageSize, RightsNone); } } // static already_AddRefed Shmem::Alloc(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, size_t aNBytes, SharedMemoryType aType, bool aUnsafe, bool aProtect) { NS_ASSERTION(aNBytes <= UINT32_MAX, "Will truncate shmem segment size!"); MOZ_ASSERT(!aProtect || !aUnsafe, "protect => !unsafe"); size_t pageSize = SharedMemory::SystemPageSize(); nsRefPtr segment; // |2*pageSize| is for the front and back sentinel size_t segmentSize = SharedMemory::PageAlignedSize(aNBytes + 2*pageSize); if (aType == SharedMemory::TYPE_BASIC) segment = CreateSegment(segmentSize, SharedMemoryBasic::NULLHandle()); #ifdef MOZ_HAVE_SHAREDMEMORYSYSV else if (aType == SharedMemory::TYPE_SYSV) segment = CreateSegment(segmentSize, SharedMemorySysV::NULLHandle()); #endif else { NS_ERROR("unknown shmem type"); return nullptr; } if (!segment) return nullptr; Header* header; char *frontSentinel; char *data; char *backSentinel; GetSections(segment, &header, &frontSentinel, &data, &backSentinel); // initialize the segment with Shmem-internal information // NB: this can't be a static assert because technically pageSize // isn't known at compile time, event though in practice it's always // going to be 4KiB MOZ_ASSERT(sizeof(Header) <= pageSize, "Shmem::Header has gotten too big"); memcpy(header->mMagic, sMagic, sizeof(sMagic)); header->mSize = static_cast(aNBytes); header->mUnsafe = aUnsafe; if (aProtect) Protect(segment); return segment.forget(); } // static already_AddRefed Shmem::OpenExisting(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, const IPC::Message& aDescriptor, id_t* aId, bool aProtect) { if (SHMEM_CREATED_MESSAGE_TYPE != aDescriptor.type()) { NS_ERROR("expected 'shmem created' message"); return nullptr; } void* iter = nullptr; SharedMemory::SharedMemoryType type; size_t size; if (!ShmemCreated::ReadInfo(&aDescriptor, &iter, aId, &size, &type)) return nullptr; nsRefPtr segment; size_t pageSize = SharedMemory::SystemPageSize(); // |2*pageSize| is for the front and back sentinels size_t segmentSize = SharedMemory::PageAlignedSize(size + 2*pageSize); if (SharedMemory::TYPE_BASIC == type) { SharedMemoryBasic::Handle handle; if (!ShmemCreated::ReadHandle(&aDescriptor, &iter, &handle)) return nullptr; if (!SharedMemoryBasic::IsHandleValid(handle)) { NS_ERROR("trying to open invalid handle"); return nullptr; } segment = CreateSegment(segmentSize, handle); } #ifdef MOZ_HAVE_SHAREDMEMORYSYSV else if (SharedMemory::TYPE_SYSV == type) { SharedMemorySysV::Handle handle; if (!ShmemCreated::ReadHandle(&aDescriptor, &iter, &handle)) return nullptr; if (!SharedMemorySysV::IsHandleValid(handle)) { NS_ERROR("trying to open invalid handle"); return nullptr; } segment = CreateSegment(segmentSize, handle); } #endif else { NS_ERROR("unknown shmem type"); return nullptr; } if (!segment) return nullptr; Header* header = GetHeader(segment); if (size != header->mSize) { NS_ERROR("Wrong size for this Shmem!"); return nullptr; } // The caller of this function may not know whether the segment is // unsafe or not if (!header->mUnsafe && aProtect) Protect(segment); return segment.forget(); } // static void Shmem::Dealloc(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, SharedMemory* aSegment) { if (!aSegment) return; size_t pageSize = SharedMemory::SystemPageSize(); Header* header; char *frontSentinel; char *data; char *backSentinel; GetSections(aSegment, &header, &frontSentinel, &data, &backSentinel); aSegment->Protect(frontSentinel, pageSize, RightsWrite | RightsRead); memset(header->mMagic, 0, sizeof(sMagic)); header->mSize = 0; header->mUnsafe = false; // make it "safe" so as to catch errors DestroySegment(aSegment); } #else // !defined(DEBUG) // static already_AddRefed Shmem::Alloc(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, size_t aNBytes, SharedMemoryType aType, bool /*unused*/, bool /*unused*/) { nsRefPtr segment; if (aType == SharedMemory::TYPE_BASIC) segment = CreateSegment(SharedMemory::PageAlignedSize(aNBytes + sizeof(uint32_t)), SharedMemoryBasic::NULLHandle()); #ifdef MOZ_HAVE_SHAREDMEMORYSYSV else if (aType == SharedMemory::TYPE_SYSV) segment = CreateSegment(SharedMemory::PageAlignedSize(aNBytes + sizeof(uint32_t)), SharedMemorySysV::NULLHandle()); #endif else { return nullptr; } if (!segment) return nullptr; *PtrToSize(segment) = static_cast(aNBytes); return segment.forget(); } // static already_AddRefed Shmem::OpenExisting(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, const IPC::Message& aDescriptor, id_t* aId, bool /*unused*/) { if (SHMEM_CREATED_MESSAGE_TYPE != aDescriptor.type()) { return nullptr; } SharedMemory::SharedMemoryType type; void* iter = nullptr; size_t size; if (!ShmemCreated::ReadInfo(&aDescriptor, &iter, aId, &size, &type)) return nullptr; nsRefPtr segment; size_t segmentSize = SharedMemory::PageAlignedSize(size + sizeof(uint32_t)); if (SharedMemory::TYPE_BASIC == type) { SharedMemoryBasic::Handle handle; if (!ShmemCreated::ReadHandle(&aDescriptor, &iter, &handle)) return nullptr; if (!SharedMemoryBasic::IsHandleValid(handle)) { return nullptr; } segment = CreateSegment(segmentSize, handle); } #ifdef MOZ_HAVE_SHAREDMEMORYSYSV else if (SharedMemory::TYPE_SYSV == type) { SharedMemorySysV::Handle handle; if (!ShmemCreated::ReadHandle(&aDescriptor, &iter, &handle)) return nullptr; if (!SharedMemorySysV::IsHandleValid(handle)) { return nullptr; } segment = CreateSegment(segmentSize, handle); } #endif else { return nullptr; } if (!segment) return nullptr; // this is the only validity check done in non-DEBUG builds if (size != static_cast(*PtrToSize(segment))) { return nullptr; } return segment.forget(); } // static void Shmem::Dealloc(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, SharedMemory* aSegment) { DestroySegment(aSegment); } #endif // if defined(DEBUG) int Shmem::GetSysVID() const { #ifdef MOZ_HAVE_SHAREDMEMORYSYSV AssertInvariants(); if (mSegment->Type() != SharedMemory::TYPE_SYSV) { NS_ERROR("Can't call GetSysVID() on a non-SysV Shmem!"); return -1; } SharedMemorySysV* seg = static_cast(mSegment); return seg->GetHandle(); #else NS_ERROR("Can't call GetSysVID() with no support for SysV shared memory!"); return -1; // not reached #endif } IPC::Message* Shmem::ShareTo(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, base::ProcessHandle aProcess, int32_t routingId) { AssertInvariants(); // kInvalidProcessHandle is used to indicate that it's the same process. if (aProcess == kInvalidProcessHandle) { aProcess = base::GetCurrentProcessHandle(); } if (SharedMemory::TYPE_BASIC == mSegment->Type()) { SharedMemoryBasic* seg = static_cast(mSegment); SharedMemoryBasic::Handle handle; if (!seg->ShareToProcess(aProcess, &handle)) return nullptr; return new ShmemCreated(routingId, mId, mSize, handle); } #ifdef MOZ_HAVE_SHAREDMEMORYSYSV else if (SharedMemory::TYPE_SYSV == mSegment->Type()) { SharedMemorySysV* seg = static_cast(mSegment); return new ShmemCreated(routingId, mId, mSize, seg->GetHandle()); } #endif else { MOZ_ASSERT(false, "unknown shmem type (here?!)"); return nullptr; } return nullptr; } IPC::Message* Shmem::UnshareFrom(IHadBetterBeIPDLCodeCallingThis_OtherwiseIAmADoodyhead, base::ProcessHandle aProcess, int32_t routingId) { AssertInvariants(); return new ShmemDestroyed(routingId, mId); } } // namespace ipc } // namespace mozilla