Esempio n. 1
0
void OprofileJITEventListener::NotifyObjectEmitted(const llvm::ObjectImage& Obj) {
    if (VERBOSITY() >= 1)
        printf("An object has been emitted:\n");

    llvm::error_code code;
    for (llvm::object::symbol_iterator I = Obj.begin_symbols(), E = Obj.end_symbols(); I != E;) {
        llvm::object::SymbolRef::Type type;
        code = I->getType(type);
        assert(!code);
        if (type == llvm::object::SymbolRef::ST_Function) {
            llvm::StringRef name;
            uint64_t addr, size;
            code = I->getName(name);
            assert(!code);
            code = I->getAddress(addr);
            assert(!code);
            code = I->getSize(size);
            assert(!code);

            if (VERBOSITY() >= 1)
                printf("registering with oprofile: %s %p 0x%lx\n", name.data(), (void*)addr, size);
            int r = op_write_native_code(agent, name.data(), addr, (void*)addr, size);
            assert(r == 0);
            //} else {
            // llvm::StringRef name;
            // code = I->getName(name);
            // assert(!code);
            // printf("Skipping %s\n", name.data());
        }
        ++I;
    }
}
Esempio n. 2
0
void PprofJITEventListener::NotifyObjectEmitted(const llvm::ObjectImage& Obj) {
    llvm::error_code code;
    for (llvm::object::symbol_iterator I = Obj.begin_symbols(), E = Obj.end_symbols(); I != E;) {
        llvm::object::SymbolRef::Type type;
        code = I->getType(type);
        assert(!code);
        if (type == llvm::object::SymbolRef::ST_Function) {
            llvm::StringRef name;
            uint64_t addr, size;
            code = I->getName(name);
            assert(!code);
            code = I->getAddress(addr);
            assert(!code);
            code = I->getSize(size);
            assert(!code);

            // fprintf(of, "%lx-%lx: %s\n", addr, addr + size, name.data());
            // if (VERBOSITY() >= 1)
            // printf("%lx-%lx: %s\n", addr, addr + size, name.data());
            fprintf(of, "%lx %lx %s\n", addr, addr + size, name.data());
            if (VERBOSITY() >= 1)
                printf("%lx %lx %s\n", addr, addr + size, name.data());
        }
        ++I;
    }
}
Esempio n. 3
0
        void NotifyObjectEmitted(const llvm::ObjectImage &Obj) {
            static StatCounter code_bytes("code_bytes");
            code_bytes.log(Obj.getData().size());

            llvm::error_code code;
            for (llvm::object::symbol_iterator I = Obj.begin_symbols(), E = Obj.end_symbols(); I != E;
#if LLVMREV < 200442
        I = I.increment(code)
#else
        ++I
#endif
                    ) {
                llvm::object::section_iterator section(Obj.end_sections());
                code = I->getSection(section);
                assert(!code);
                bool is_text;
                code = section->isText(is_text);
                assert(!code);
                if (!is_text)
                    continue;

                llvm::StringRef name;
                uint64_t addr, size, offset;
                code = I->getName(name);
                assert(!code);
                code = I->getAddress(addr);
                assert(!code);
                code = I->getSize(size);
                assert(!code);
                code = I->getFileOffset(offset);
                assert(!code);

                if (name == ".text")
                    continue;

                //printf("%lx %lx %lx %s\n", addr, addr + size, offset, name.data());
                g.func_addr_registry.registerFunction(name.data(), (void*)addr, size, NULL);
            }
        }
Esempio n. 4
0
void StackmapJITEventListener::NotifyObjectEmitted(const llvm::ObjectImage &Obj) {
    //llvm::outs() << "An object has been emitted:\n";

    llvm::error_code code;

    for (llvm::object::symbol_iterator I = Obj.begin_symbols(), E = Obj.end_symbols(); I != E;) {
        llvm::StringRef name;
        code = I->getName(name);
        assert(!code);

        if (name == "__LLVM_StackMaps") {
            uint64_t stackmap_offset;
            code = I->getFileOffset(stackmap_offset);
            assert(!code);
            //code = I->getSize(stackmap_size);
            //assert(stackmap_size > 0);
            //assert(!code);
            if (VERBOSITY() >= 2) printf("Found the stackmaps at stackmap_offset 0x%lx\n", stackmap_offset);

            assert(cur_map == NULL);
            cur_map = new StackMap();

            union {
                const int8_t* i8;
                const int16_t* i16;
                const int32_t* i32;
                const int64_t* i64;
                const uint8_t* u8;
                const uint16_t* u16;
                const uint32_t* u32;
                const uint64_t* u64;
                const StackMap::Record::Location* record_loc;
                const StackMap::Record::LiveOut* record_liveout;
                const StackMap::StackSizeRecord* size_record;
            } ptr;
            const int8_t* start_ptr = ptr.i8 = (const int8_t*)Obj.getData().data() + stackmap_offset;

            cur_map->header = *ptr.u32++; // header

#if LLVMREV < 200481
            int nfunctions = 0;
#else
            int nfunctions = *ptr.u32++;
#endif
            int nconstants = *ptr.u32++;
            int nrecords = *ptr.u32++;

            if (VERBOSITY() >= 2) printf("%d functions\n", nfunctions);
            for (int i = 0; i < nfunctions; i++) {
                const StackMap::StackSizeRecord &size_record = *ptr.size_record++;
                cur_map->stack_size_records.push_back(size_record);
                if (VERBOSITY() >= 2) printf("function %d: offset 0x%lx, stack size 0x%lx\n", i, size_record.offset, size_record.stack_size);
            }

            if (VERBOSITY() >= 2) printf("%d constants\n", nconstants);

            for (int i = 0; i < nconstants; i++) {
                uint64_t constant = *ptr.u64++;
                if (VERBOSITY() >= 2) printf("Constant %d: %ld\n", i, constant);
                cur_map->constants.push_back(constant);
            }

            if (VERBOSITY() >= 2) printf("%d records\n", nrecords);

            for (int i = 0; i < nrecords; i++) {
                StackMap::Record *record = new StackMap::Record();
                cur_map->records.push_back(record);

                record->id = *ptr.u64++;
                record->offset = *ptr.u32++;
                record->flags = *ptr.u16++; // reserved (record flags)

                int numlocations = *ptr.u16++;

                if (VERBOSITY() >= 2) printf("Stackmap record %ld at 0x%x has %d locations:\n", record->id, record->offset, numlocations);
                for (int j = 0; j < numlocations; j++) {
                    assert(sizeof(StackMap::Record::Location) == sizeof(*ptr.u64));
                    const StackMap::Record::Location &r = *ptr.record_loc++;
                    record->locations.push_back(r);

                    // from http://lxr.free-electrons.com/source/tools/perf/arch/x86/util/dwarf-regs.c
                    // TODO this probably can be fetched more portably from the llvm target files
                    const char *dwarf_reg_names[] = {
                        "%rax",
                        "%rdx",
                        "%rcx",
                        "%rbx",
                        "%rsi",
                        "%rdi",
                        "%rbp",
                        "%rsp",
                        "%r8",
                        "%r9",
                        "%r10",
                        "%r11",
                        "%r12",
                        "%r13",
                        "%r14",
                        "%r15",
                    };
                    if (VERBOSITY() >= 2) {
                        if (r.type == 1) {
                            printf("Location %d: type %d (reg), reg %d (%s), offset %d\n", j, r.type, r.regnum, dwarf_reg_names[r.regnum], r.offset);
                        } else {
                            printf("Location %d: type %d, reg %d, offset %d\n", j, r.type, r.regnum, r.offset);
                        }
                    }
                }

                ptr.u16++; // padding
                int num_live_outs = *ptr.u16++;
                for (int i = 0; i < num_live_outs; i++) {
                    const StackMap::Record::LiveOut &r = *ptr.record_liveout++;
                    record->live_outs.push_back(r);

                    if (VERBOSITY() >= 2) {
                        printf("Live out %d: reg #%d (?), size %d\n", i, r.regnum, r.size);
                    }
                }
                if (num_live_outs % 2 == 0)
                    ptr.u32++; // pad to 8-byte boundary
            }

#ifndef NDEBUG
            uint64_t stackmap_size;
            llvm::object::section_iterator section(Obj.end_sections());
            code = I->getSection(section);
            assert(!code);
            code = section->getSize(stackmap_size);
            assert(stackmap_size > 0);
            assert(!code);

            ASSERT(ptr.i8 - start_ptr == stackmap_size, "%ld %ld", ptr.i8 - start_ptr, stackmap_size);
#endif
        }

#if LLVMREV < 200442
        I = I.increment(code);
#else
        ++I;
#endif
    }
}