476 rindas
14 KiB
C++
476 rindas
14 KiB
C++
#include "../include/hip/hcc_detail/program_state.hpp"
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#include "../include/hip/hcc_detail/code_object_bundle.hpp"
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#include "hip_hcc_internal.h"
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#include "hsa_helpers.hpp"
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#include "trace_helper.h"
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#include "elfio/elfio.hpp"
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#include <link.h>
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#include <hsa/hsa.h>
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#include <hsa/hsa_ext_amd.h>
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#include <cassert>
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#include <cstddef>
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#include <cstdint>
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#include <memory>
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#include <mutex>
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#include <sstream>
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#include <stdexcept>
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#include <string>
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#include <unordered_map>
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#include <unordered_set>
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#include <utility>
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#include <vector>
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using namespace ELFIO;
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using namespace hip_impl;
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using namespace std;
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namespace
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{
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struct Symbol {
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string name;
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ELFIO::Elf64_Addr value = 0;
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Elf_Xword size = 0;
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Elf_Half sect_idx = 0;
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uint8_t bind = 0;
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uint8_t type = 0;
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uint8_t other = 0;
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};
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inline
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Symbol read_symbol(const symbol_section_accessor& section, unsigned int idx)
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{
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assert(idx < section.get_symbols_num());
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Symbol r;
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section.get_symbol(
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idx, r.name, r.value, r.size, r.bind, r.type, r.sect_idx, r.other);
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return r;
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}
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template<typename P>
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inline
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section* find_section_if(elfio& reader, P p)
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{
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const auto it = find_if(
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reader.sections.begin(), reader.sections.end(), move(p));
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return it != reader.sections.end() ? *it : nullptr;
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}
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vector<string> copy_names_of_undefined_symbols(
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const symbol_section_accessor& section)
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{
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vector<string> r;
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for (auto i = 0u; i != section.get_symbols_num(); ++i) {
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// TODO: this is boyscout code, caching the temporaries
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// may be of worth.
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auto tmp = read_symbol(section, i);
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if (tmp.sect_idx == SHN_UNDEF && !tmp.name.empty()) {
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r.push_back(std::move(tmp.name));
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}
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}
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return r;
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}
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const std::unordered_map<
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std::string,
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std::pair<ELFIO::Elf64_Addr, ELFIO::Elf_Xword>>& symbol_addresses()
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{
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static unordered_map<string, pair<Elf64_Addr, Elf_Xword>> r;
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static once_flag f;
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call_once(f, []() {
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dl_iterate_phdr([](dl_phdr_info* info, size_t, void*) {
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static constexpr const char self[] = "/proc/self/exe";
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elfio reader;
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static unsigned int iter = 0u;
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if (reader.load(!iter ? self : info->dlpi_name)) {
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auto it = find_section_if(
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reader, [](const class section* x) {
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return x->get_type() == SHT_SYMTAB;
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});
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if (it) {
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const symbol_section_accessor symtab{reader, it};
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for (auto i = 0u; i != symtab.get_symbols_num(); ++i) {
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auto tmp = read_symbol(symtab, i);
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if (tmp.type == STT_OBJECT &&
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tmp.sect_idx != SHN_UNDEF) {
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const auto addr =
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tmp.value + (iter ? info->dlpi_addr : 0);
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r.emplace(
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move(tmp.name), make_pair(addr, tmp.size));
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}
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}
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}
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++iter;
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}
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return 0;
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}, nullptr);
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});
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return r;
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}
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void associate_code_object_symbols_with_host_allocation(
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const elfio& reader,
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section* code_object_dynsym,
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hsa_agent_t agent,
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hsa_executable_t executable)
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{
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if (!code_object_dynsym) return;
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const auto undefined_symbols = copy_names_of_undefined_symbols(
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symbol_section_accessor{reader, code_object_dynsym});
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for (auto&& x : undefined_symbols) {
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if (globals().find(x) != globals().cend()) return;
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const auto it1 = symbol_addresses().find(x);
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if (it1 == symbol_addresses().cend()) {
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throw runtime_error{"Global symbol: " + x + " is undefined."};
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}
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static mutex mtx;
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lock_guard<mutex> lck{mtx};
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if (globals().find(x) != globals().cend()) return;
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globals().emplace(x, (void*)(it1->second.first));
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void* p = nullptr;
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hsa_amd_memory_lock(
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reinterpret_cast<void*>(it1->second.first),
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it1->second.second,
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nullptr, // All agents.
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0,
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&p);
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hsa_executable_agent_global_variable_define(
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executable, agent, x.c_str(), p);
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}
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}
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vector<char> code_object_blob_for_process()
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{
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static constexpr const char self[] = "/proc/self/exe";
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static constexpr const char kernel_section[] = ".kernel";
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elfio reader;
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if (!reader.load(self)) {
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throw runtime_error{"Failed to load ELF file for current process."};
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}
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auto kernels = find_section_if(reader, [](const section* x) {
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return x->get_name() == kernel_section;
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});
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vector<char> r;
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if (kernels) {
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r.insert(
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r.end(),
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kernels->get_data(),
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kernels->get_data() + kernels->get_size());
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}
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return r;
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}
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const unordered_map<hsa_isa_t, vector<vector<char>>>& code_object_blobs()
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{
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static unordered_map<hsa_isa_t, vector<vector<char>>> r;
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static once_flag f;
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call_once(f, []() {
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static vector<vector<char>> blobs{
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code_object_blob_for_process()};
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dl_iterate_phdr([](dl_phdr_info* info, std::size_t, void*) {
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elfio tmp;
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if (tmp.load(info->dlpi_name)) {
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const auto it = find_section_if(tmp, [](const section* x) {
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return x->get_name() == ".kernel";
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});
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if (it) blobs.emplace_back(
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it->get_data(), it->get_data() + it->get_size());
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}
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return 0;
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}, nullptr);
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for (auto&& blob : blobs) {
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Bundled_code_header tmp{blob};
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if (valid(tmp)) {
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for (auto&& bundle : bundles(tmp)) {
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r[triple_to_hsa_isa(bundle.triple)].push_back(
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bundle.blob);
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}
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}
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}
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});
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return r;
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}
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vector<pair<uintptr_t, string>> function_names_for(
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const elfio& reader, section* symtab)
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{
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vector<pair<uintptr_t, string>> r;
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symbol_section_accessor symbols{reader, symtab};
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for (auto i = 0u; i != symbols.get_symbols_num(); ++i) {
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// TODO: this is boyscout code, caching the temporaries
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// may be of worth.
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auto tmp = read_symbol(symbols, i);
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if (tmp.type == STT_FUNC &&
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tmp.sect_idx != SHN_UNDEF &&
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!tmp.name.empty()) {
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r.emplace_back(tmp.value, tmp.name);
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}
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}
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return r;
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}
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const vector<pair<uintptr_t, string>>& function_names_for_process()
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{
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static constexpr const char self[] = "/proc/self/exe";
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static vector<pair<uintptr_t, string>> r;
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static once_flag f;
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call_once(f, []() {
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elfio reader;
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if (!reader.load(self)) {
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throw runtime_error{
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"Failed to load the ELF file for the current process."};
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}
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auto symtab = find_section_if(reader, [](const section* x) {
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return x->get_type() == SHT_SYMTAB;
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});
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if (symtab) r = function_names_for(reader, symtab);
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});
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return r;
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}
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const unordered_map<string, vector<hsa_executable_symbol_t>>& kernels()
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{
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static unordered_map<string, vector<hsa_executable_symbol_t>> r;
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static once_flag f;
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call_once(f, []() {
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static const auto copy_kernels = [](
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hsa_executable_t, hsa_agent_t, hsa_executable_symbol_t s, void*) {
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if (type(s) == HSA_SYMBOL_KIND_KERNEL) r[name(s)].push_back(s);
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return HSA_STATUS_SUCCESS;
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};
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for (auto&& agent_executables : executables()) {
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for (auto&& executable : agent_executables.second) {
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hsa_executable_iterate_agent_symbols(
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executable,
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agent_executables.first,
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copy_kernels,
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nullptr);
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}
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}
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});
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return r;
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}
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void load_code_object_and_freeze_executable(
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const string& file, hsa_agent_t agent, hsa_executable_t executable)
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{ // TODO: the following sequence is inefficient, should be refactored
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// into a single load of the file and subsequent ELFIO
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// processing.
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static const auto cor_deleter = [](hsa_code_object_reader_t* p) {
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if (p) {
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hsa_code_object_reader_destroy(*p);
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delete p;
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}
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};
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using RAII_code_reader = unique_ptr<
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hsa_code_object_reader_t, decltype(cor_deleter)>;
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if (!file.empty()) {
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RAII_code_reader tmp{new hsa_code_object_reader_t, cor_deleter};
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hsa_code_object_reader_create_from_memory(
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file.data(), file.size(), tmp.get());
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hsa_executable_load_agent_code_object(
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executable, agent, *tmp, nullptr, nullptr);
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hsa_executable_freeze(executable, nullptr);
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static vector<RAII_code_reader> code_readers;
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static mutex mtx;
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lock_guard<mutex> lck{mtx};
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code_readers.push_back(move(tmp));
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}
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}
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}
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namespace hip_impl
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{
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const unordered_map<hsa_agent_t, vector<hsa_executable_t>>& executables()
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{ // TODO: This leaks the hsa_executable_ts, it should use RAII.
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static unordered_map<hsa_agent_t, vector<hsa_executable_t>> r;
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static once_flag f;
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call_once(f, []() {
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static const auto accelerators = hc::accelerator::get_all();
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for (auto&& acc : accelerators) {
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auto agent = static_cast<hsa_agent_t*>(acc.get_hsa_agent());
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if (!agent || !acc.is_hsa_accelerator()) continue;
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hsa_agent_iterate_isas(*agent, [](hsa_isa_t x, void* pa) {
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const auto it = code_object_blobs().find(x);
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if (it != code_object_blobs().cend()) {
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hsa_agent_t a = *static_cast<hsa_agent_t*>(pa);
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for (auto&& blob : it->second) {
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hsa_executable_t tmp = {};
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hsa_executable_create_alt(
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HSA_PROFILE_FULL,
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HSA_DEFAULT_FLOAT_ROUNDING_MODE_DEFAULT,
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nullptr,
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&tmp);
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// TODO: this is massively inefficient and only
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// meant for illustration.
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string blob_to_str{blob.cbegin(), blob.cend()};
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tmp = load_executable(blob_to_str, tmp, a);
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if (tmp.handle) r[a].push_back(tmp);
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}
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}
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return HSA_STATUS_SUCCESS;
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}, agent);
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}
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});
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return r;
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}
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const unordered_map<uintptr_t, string>& function_names()
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{
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static unordered_map<uintptr_t, string> r{
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function_names_for_process().cbegin(),
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function_names_for_process().cend()};
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static once_flag f;
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call_once(f, []() {
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dl_iterate_phdr([](dl_phdr_info* info, size_t, void*) {
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elfio tmp;
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if (tmp.load(info->dlpi_name)) {
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const auto it = find_section_if(tmp, [](const section* x) {
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return x->get_type() == SHT_SYMTAB;
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});
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if (it) {
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auto n = function_names_for(tmp, it);
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for (auto&& f : n) f.first += info->dlpi_addr;
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r.insert(
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make_move_iterator(n.begin()),
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make_move_iterator(n.end()));
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}
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}
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return 0;
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}, nullptr);
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});
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return r;
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}
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const unordered_map<
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uintptr_t, vector<pair<hsa_agent_t, Kernel_descriptor>>>& functions()
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{
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static unordered_map<
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uintptr_t, vector<pair<hsa_agent_t, Kernel_descriptor>>> r;
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static once_flag f;
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call_once(f, []() {
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for (auto&& function : function_names()) {
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const auto it = kernels().find(function.second);
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if (it != kernels().cend()) {
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for (auto&& kernel_symbol : it->second) {
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r[function.first].emplace_back(
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agent(kernel_symbol),
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Kernel_descriptor{
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kernel_object(kernel_symbol),
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group_size(kernel_symbol),
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private_size(kernel_symbol),
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it->first});
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}
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}
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}
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});
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return r;
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}
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unordered_map<string, void*>& globals()
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{
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static unordered_map<string, void*> r;
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static once_flag f;
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call_once(f, []() { r.reserve(symbol_addresses().size()); });
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return r;
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}
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hsa_executable_t load_executable(
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const string& file, hsa_executable_t executable, hsa_agent_t agent)
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{
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elfio reader;
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stringstream tmp{file};
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if (!reader.load(tmp)) return hsa_executable_t{};
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const auto code_object_dynsym =
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find_section_if(reader, [](const ELFIO::section* x) {
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return x->get_type() == SHT_DYNSYM;
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});
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associate_code_object_symbols_with_host_allocation(
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reader, code_object_dynsym, agent, executable);
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load_code_object_and_freeze_executable(file, agent, executable);
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return executable;
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}
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} // Namespace hip_impl.
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