Dateien
rocm-systems/source/bin/omnitrace/module_function.hpp
T
Jonathan R. Madsen 791375bb24 Code Coverage Support (#46)
* Code-coverage support

* Examples update

- code-coverage example
- tweak transpose and parallel-overhead

* Coverage output + testing

- config::get_setting value(...)
- REGULAR_EXPRESSION -> REGEX in cmake func args
- coverage.hpp header
- coverage JSON
- coverage tests

* cmake formatting

* Library instrumentation w/o main + more

- fixed library instrumentation w/o main
- use TIMEMORY_PROJECT_NAME in output messages
- removed '--driver' option from omnitrace exe
- support coverage in trace mode
- OMNITRACE_KOKKOS_KERNEL_LOGGER
- support multiple calls to omnitrace_set_env after init if already called
- support multiple calls to omnitrace_set_mpi after init if same args
- support multiple calls to omnitrace_init if same mode
- unique_ptr_t for thread_data which calls finalize when thread_data is destroyed
- tweaked openmp tests
- improved finalization

* Replace CI --output-on-failure with -V

* Fix to OMNITRACE_DL_INVOKE

* omnitrace-exe and testing updates

- omnitrace::omnitrace-timemory interface library
- support for configs in omnitrace exe
- print-{available,instrumented,...} opts no longer exit w/o --simulate
- all tests apply --print-instrumented functions
- tweaked coverage tests
- print-* options print instructions not address range

* Remove OMNITRACE_DEBUG_FINALIZE=ON from CI

* Python cmake tweaks

* Tweak test ordering

* Upload CI artifacts if fail or success

* CI Python tweaks

- Use OMNITRACE_PYTHON_PREFIX and OMNITRACE_PYTHON_ENVS

* CI ELFULTILS_DOWNLOAD_VERSION

* test tweaks

- labels and more coverage tests

* tweak to omnitrace --config handling

* Update module/function constraint handling + PP

- tweak pre-processor definition handling
- removed free-standing module_constraint
- remove free-standing routine_constraint
- remove module_name.find("omnitrace") module constraint
- fully handle the output path of omnitrace *-instr files
- get_use_code_coverage config option
- print-coverage option
- coverage_module_functions

* use github.job not github.name

* Re-enable HSA_ENABLE_INTERRUPT

- remove coverage address report
2022-04-25 17:00:52 -05:00

228 Zeilen
10 KiB
C++

// MIT License
//
// Copyright (c) 2022 Advanced Micro Devices, Inc. All Rights Reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
#pragma once
#include "function_signature.hpp"
#include "fwd.hpp"
#include <timemory/mpl/concepts.hpp>
#include <timemory/tpls/cereal/cereal/cereal.hpp>
#include <sstream>
#include <string>
struct module_function
{
using width_t = std::array<size_t, 4>;
using address_t = Dyninst::Address;
static constexpr size_t absolute_max_width = 80;
static width_t& get_width();
static void reset_width();
static void update_width(const module_function& rhs);
static void write_header(std::ostream& os);
TIMEMORY_DEFAULT_OBJECT(module_function)
module_function(module_t* mod, procedure_t* proc);
// code coverage
void register_source(address_space_t* _addr_space, procedure_t* _entr_trace,
const std::vector<point_t*>&) const;
std::pair<size_t, size_t> register_coverage(address_space_t* _addr_space,
procedure_t* _entr_trace) const;
// instrumentation
std::pair<size_t, size_t> operator()(address_space_t* _addr_space,
procedure_t* _entr_trace,
procedure_t* _exit_trace) const;
// applies logic for all "is_*" and "can_*" checks below
bool should_instrument() const;
bool should_coverage_instrument() const;
// hard constraints
bool is_instrumentable() const; // checks whether can instrument
bool can_instrument_entry() const; // checks for entry points
bool can_instrument_exit() const; // checks for exit points
bool is_module_constrained() const; // checks module constraints
bool is_routine_constrained() const; // checks function constraints
// user bypass of heuristics
bool is_user_restricted() const; // checks user restrict regexes
bool is_user_included() const; // checks user include regexes
bool is_user_excluded() const; // checks user exclude regexes
// applied before dynamic-callsite constraint
bool is_overlapping_constrained() const; // checks overlapping constrains
bool is_entry_trap_constrained() const; // checks entry trap constraint
bool is_exit_trap_constrained() const; // checks exit trap constraint
// applied before address range and # instruction constraints
bool is_dynamic_callsite_forced() const; // checks dynamic callsites
// estimate the size/work of the function
bool is_address_range_constrained() const; // checks address range constraint
bool is_num_instructions_constrained() const; // check # instructions constraint
size_t start_address = 0;
uint64_t address_range = 0;
uint64_t num_instructions = 0;
module_t* module = nullptr;
procedure_t* function = nullptr;
flow_graph_t* flow_graph = nullptr;
string_t module_name = {};
string_t function_name = {};
function_signature signature = {};
basic_block_set_t basic_blocks = {};
basic_loop_vec_t loop_blocks = {};
std::vector<std::vector<instruction_t>> instructions = {};
using str_msg_t = std::tuple<int, string_t, string_t, string_t>;
using str_msg_vec_t = std::vector<str_msg_t>;
mutable str_msg_vec_t messages = {};
bool is_overlapping() const; // checks if func overlaps
private:
bool is_loop_num_instructions_constrained() const; // checks loop instr constraint
bool is_loop_address_range_constrained() const; // checks loop addr range constraint
bool contains_dynamic_callsites() const;
bool should_instrument(bool _coverage) const;
public:
template <typename ArchiveT>
void serialize(ArchiveT& ar, const unsigned);
friend bool operator<(const module_function& lhs, const module_function& rhs)
{
return (lhs.module_name == rhs.module_name)
? ((lhs.function_name == rhs.function_name)
? (lhs.signature.get() < rhs.signature.get())
: (lhs.function_name < rhs.function_name))
: (lhs.module_name < rhs.module_name);
}
friend bool operator==(const module_function& lhs, const module_function& rhs)
{
return std::tie(lhs.module_name, lhs.function_name, lhs.signature,
lhs.address_range, lhs.num_instructions) ==
std::tie(rhs.module_name, rhs.function_name, rhs.signature,
rhs.address_range, rhs.num_instructions);
}
friend std::ostream& operator<<(std::ostream& os, const module_function& rhs)
{
std::stringstream ss;
auto w0 = std::min<size_t>(get_width()[0], absolute_max_width);
auto w1 = std::min<size_t>(get_width()[1], absolute_max_width);
auto w2 = std::min<size_t>(get_width()[2], absolute_max_width);
auto _get_str = [](const std::string& _inc) {
if(_inc.length() > absolute_max_width)
return _inc.substr(0, absolute_max_width - 3) + "...";
return _inc;
};
std::stringstream _addr{};
_addr << "0x" << std::hex << rhs.start_address;
// clang-format off
ss << std::setw(14) << _addr.str() << " "
<< std::setw(14) << rhs.address_range << " "
<< std::setw(14) << rhs.num_instructions << " "
<< std::setw(6) << std::setprecision(2) << std::fixed << (rhs.address_range / static_cast<double>(rhs.num_instructions)) << " "
<< std::setw(w0 + 8) << std::left << _get_str(rhs.module_name) << " "
<< std::setw(w1 + 8) << std::left << _get_str(rhs.function_name) << " "
<< std::setw(w2 + 8) << std::left << _get_str(rhs.signature.get());
// clang-format on
os << ss.str();
return os;
}
};
template <typename ArchiveT>
void
module_function::serialize(ArchiveT& ar, const unsigned)
{
namespace cereal = tim::cereal;
if constexpr(tim::concepts::is_output_archive<ArchiveT>::value)
{
std::stringstream _addr{};
_addr << "0x" << std::hex << start_address;
ar(cereal::make_nvp("start_address", _addr.str()));
}
ar(cereal::make_nvp("address_range", address_range),
cereal::make_nvp("instructions", num_instructions),
cereal::make_nvp("module", module_name),
cereal::make_nvp("function", function_name),
cereal::make_nvp("signature", signature));
if constexpr(tim::concepts::is_output_archive<ArchiveT>::value)
{
ar.setNextName("heuristics");
ar.startNode();
ar(cereal::make_nvp("should_instrument", should_instrument()),
cereal::make_nvp("should_coverage_instrument", should_coverage_instrument()),
cereal::make_nvp("is_instrumentable", is_instrumentable()),
cereal::make_nvp("can_instrument_entry", can_instrument_entry()),
cereal::make_nvp("can_instrument_exit", can_instrument_exit()),
cereal::make_nvp("contains_dynamic_callsites", contains_dynamic_callsites()),
cereal::make_nvp("is_module_constrained", is_module_constrained()),
cereal::make_nvp("is_routine_constrained", is_routine_constrained()),
cereal::make_nvp("is_user_restricted", is_user_restricted()),
cereal::make_nvp("is_user_included", is_user_included()),
cereal::make_nvp("is_user_excluded", is_user_excluded()),
cereal::make_nvp("is_overlapping_constrained", is_overlapping_constrained()),
cereal::make_nvp("is_entry_trap_constrained", is_entry_trap_constrained()),
cereal::make_nvp("is_exit_trap_constrained", is_exit_trap_constrained()),
cereal::make_nvp("is_dynamic_callsite_forced", is_dynamic_callsite_forced()),
cereal::make_nvp("is_address_range_constrained",
is_address_range_constrained()),
cereal::make_nvp("is_loop_address_range_constrained",
is_loop_address_range_constrained()),
cereal::make_nvp("is_num_instructions_constrained",
is_num_instructions_constrained()));
ar.finishNode();
// instructions can inflate JSON size so only output when verbosity is increased
// above default
if(debug_print || verbose_level > 3 || instr_print)
{
std::vector<std::vector<std::string>> _instructions{};
_instructions.reserve(instructions.size());
for(auto&& itr : instructions)
{
std::vector<std::string> _subinstr{};
_subinstr.reserve(itr.size());
for(auto&& iitr : itr)
_subinstr.emplace_back(iitr.format());
_instructions.emplace_back(std::move(_subinstr));
}
ar(cereal::make_nvp("instructions", _instructions));
}
}
}