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      1 /*
      2  * Copyright (C) 2017 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 #include <err.h>
     18 #include <getopt.h>
     19 #include <math.h>
     20 #include <sys/resource.h>
     21 
     22 #include <map>
     23 #include <mutex>
     24 #include <sstream>
     25 #include <string>
     26 #include <utility>
     27 #include <vector>
     28 
     29 #include <android-base/file.h>
     30 #include <android-base/stringprintf.h>
     31 #include <android-base/strings.h>
     32 #include <benchmark/benchmark.h>
     33 #include <tinyxml2.h>
     34 #include "util.h"
     35 
     36 static const std::vector<int> kCommonSizes{
     37   8,
     38   64,
     39   512,
     40   1 * KB,
     41   8 * KB,
     42   16 * KB,
     43   32 * KB,
     44   64 * KB,
     45   128 * KB,
     46 };
     47 
     48 static const std::vector<int> kSmallSizes{
     49   // Increment by 1
     50   1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16,
     51   // Increment by 8
     52   24, 32, 40, 48, 56, 64, 72, 80, 88, 96, 104, 112, 120, 128, 136, 144,
     53   // Increment by 16
     54   160, 176, 192, 208, 224, 240, 256,
     55 };
     56 
     57 static const std::vector<int> kMediumSizes{
     58   512,
     59   1 * KB,
     60   8 * KB,
     61   16 * KB,
     62   32 * KB,
     63   64 * KB,
     64   128 * KB,
     65 };
     66 
     67 static const std::vector<int> kLargeSizes{
     68   256 * KB,
     69   512 * KB,
     70   1024 * KB,
     71   2048 * KB,
     72 };
     73 
     74 std::map<std::string, std::pair<benchmark_func_t, std::string>> g_str_to_func;
     75 
     76 std::mutex g_map_lock;
     77 
     78 static struct option g_long_options[] =
     79 {
     80   {"bionic_cpu", required_argument, 0, 'c'},
     81   {"bionic_xml", required_argument, 0, 'x'},
     82   {"bionic_iterations", required_argument, 0, 'i'},
     83   {"bionic_extra", required_argument, 0, 'a'},
     84   {"help", no_argument, 0, 'h'},
     85   {0, 0, 0, 0},
     86 };
     87 
     88 typedef std::vector<std::vector<int>> args_vector_t;
     89 
     90 void Usage() {
     91   printf("Usage:\n");
     92   printf("bionic_benchmarks [--bionic_cpu=<cpu_to_isolate>]\n");
     93   printf("                  [--bionic_xml=<path_to_xml>]\n");
     94   printf("                  [--bionic_iterations=<num_iter>]\n");
     95   printf("                  [--bionic_extra=\"<fn_name> <arg1> <arg 2> ...\"]\n");
     96   printf("                  [<Google benchmark flags>]\n");
     97   printf("Google benchmark flags:\n");
     98 
     99   int fake_argc = 2;
    100   char argv0[] = "bionic_benchmarks";
    101   char argv1[] = "--help";
    102   char* fake_argv[3] {argv0, argv1, NULL};
    103   benchmark::Initialize(&fake_argc, fake_argv);
    104   exit(1);
    105 }
    106 
    107 // This function removes any bionic benchmarks command line arguments by checking them
    108 // against g_long_options. It fills new_argv with the filtered args.
    109 void SanitizeOpts(int argc, char** argv, std::vector<char*>* new_argv) {
    110   // TO THOSE ADDING OPTIONS: This currently doesn't support optional arguments.
    111   (*new_argv)[0] = argv[0];
    112   for (int i = 1; i < argc; ++i) {
    113     char* optarg = argv[i];
    114     size_t opt_idx = 0;
    115 
    116     // Iterate through g_long_options until either we hit the end or we have a match.
    117     for (opt_idx = 0; g_long_options[opt_idx].name &&
    118                       strncmp(g_long_options[opt_idx].name, optarg + 2,
    119                               strlen(g_long_options[opt_idx].name)); ++opt_idx) {
    120     }
    121 
    122     if (!g_long_options[opt_idx].name) {
    123       new_argv->push_back(optarg);
    124     } else {
    125       if (g_long_options[opt_idx].has_arg == required_argument) {
    126         // If the arg was passed in with an =, it spans one char *.
    127         // Otherwise, we skip a spot for the argument.
    128         if (!strchr(optarg, '=')) {
    129           i++;
    130         }
    131       }
    132     }
    133   }
    134   new_argv->push_back(0);
    135 }
    136 
    137 bench_opts_t ParseOpts(int argc, char** argv) {
    138   bench_opts_t opts;
    139   int opt;
    140   int option_index = 0;
    141 
    142   opts.cpu_to_lock = LONG_MAX;
    143   opts.num_iterations = 0;
    144 
    145   // To make this parser handle the benchmark options silently:
    146   extern int opterr;
    147   opterr = 0;
    148 
    149   while ((opt = getopt_long(argc, argv, "c:x:i:a:h", g_long_options, &option_index)) != -1) {
    150     if (opt == -1) {
    151       break;
    152     }
    153     switch (opt) {
    154       case 'c':
    155         if (*optarg) {
    156           char* check_null;
    157           opts.cpu_to_lock = strtol(optarg, &check_null, 10);
    158           if (*check_null) {
    159             errx(1, "ERROR: Args %s is not a valid integer.", optarg);
    160           }
    161         } else {
    162           printf("ERROR: no argument specified for bionic_cpu\n");
    163           Usage();
    164         }
    165         break;
    166       case 'x':
    167         if (*optarg) {
    168           opts.xmlpath = optarg;
    169         } else {
    170           printf("ERROR: no argument specified for bionic_xml\n");
    171           Usage();
    172         }
    173         break;
    174       case 'a':
    175         if (*optarg) {
    176           opts.extra_benchmarks.push_back(optarg);
    177         } else {
    178           printf("ERROR: no argument specified for bionic_extra\n");
    179           Usage();
    180         }
    181         break;
    182       case 'i':
    183         if (*optarg){
    184           char* check_null;
    185           opts.num_iterations = strtol(optarg, &check_null, 10);
    186           if (*check_null != '\0' or opts.num_iterations < 0) {
    187             errx(1, "ERROR: Args %s is not a valid number of iterations.", optarg);
    188           }
    189         } else {
    190           printf("ERROR: no argument specified for bionic_iterations\n");
    191           Usage();
    192         }
    193         break;
    194       case 'h':
    195         Usage();
    196         break;
    197       case '?':
    198         break;
    199       default:
    200         exit(1);
    201     }
    202   }
    203   return opts;
    204 }
    205 
    206 // This is a wrapper for every function call for per-benchmark cpu pinning.
    207 void LockAndRun(benchmark::State& state, benchmark_func_t func_to_bench, long cpu_to_lock) {
    208   if (cpu_to_lock != LONG_MAX) LockToCPU(cpu_to_lock);
    209   // To avoid having to link against Google benchmarks in libutil,
    210   // benchmarks are kept without parameter information, necessitating this cast.
    211   reinterpret_cast<void(*) (benchmark::State&)>(func_to_bench)(state);
    212 }
    213 
    214 static constexpr char kOnebufManualStr[] = "AT_ONEBUF_MANUAL_ALIGN_";
    215 static constexpr char kTwobufManualStr[] = "AT_TWOBUF_MANUAL_ALIGN1_";
    216 
    217 static bool ParseOnebufManualStr(std::string& arg, std::vector<int>* values) {
    218   // The format of this is:
    219   //   AT_ONEBUF_MANUAL_ALIGN_XX_SIZE_YY
    220   // Where:
    221   //   XX is the alignment
    222   //   YY is the size
    223   int align;
    224   int size;
    225   if (sscanf(arg.c_str(), "AT_ONEBUF_MANUAL_ALIGN_%d_SIZE_%d" , &align, &size) != 2) {
    226     return false;
    227   }
    228 
    229   if (align != 0 && (align & (align - 1)) != 0) {
    230     return false;
    231   }
    232 
    233   values->push_back(static_cast<int>(size));
    234   values->push_back(static_cast<int>(align));
    235   return true;
    236 }
    237 
    238 static bool ParseTwobufManualStr(std::string& arg, std::vector<int>* values) {
    239   // The format of this is:
    240   //   AT_TWOBUF_MANUAL_ALIGN1_XX_ALIGN2_YY_SIZE_ZZ
    241   // Where:
    242   //   XX is the alignment of the first argument
    243   //   YY is the alignment of the second argument
    244   //   ZZ is the size
    245   int align1;
    246   int align2;
    247   int size;
    248   if (sscanf(arg.c_str(), "AT_TWOBUF_MANUAL_ALIGN1_%d_ALIGN2_%d_SIZE_%d" ,
    249              &align1, &align2, &size) != 3) {
    250     return false;
    251   }
    252 
    253   // Verify the alignments are powers of 2.
    254   if ((align1 != 0 && (align1 & (align1 - 1)) != 0)
    255       || (align2 != 0 && (align2 & (align2 - 1)) != 0)) {
    256     return false;
    257   }
    258 
    259   values->push_back(static_cast<int>(size));
    260   values->push_back(static_cast<int>(align1));
    261   values->push_back(static_cast<int>(align2));
    262   return true;
    263 }
    264 
    265 args_vector_t* ResolveArgs(args_vector_t* to_populate, std::string args,
    266                            std::map<std::string, args_vector_t>& args_shorthand) {
    267   // args is either a space-separated list of ints, a macro name, or
    268   // special free form macro.
    269   // To ease formatting in XML files, args is left and right trimmed.
    270   if (args_shorthand.count(args)) {
    271     return &args_shorthand[args];
    272   }
    273   // Check for free form macro.
    274   if (android::base::StartsWith(args, kOnebufManualStr)) {
    275     std::vector<int> values;
    276     if (!ParseOnebufManualStr(args, &values)) {
    277       errx(1, "ERROR: Bad format of macro %s, should be AT_ONEBUF_MANUAL_ALIGN_XX_SIZE_YY",
    278            args.c_str());
    279     }
    280     to_populate->push_back(std::move(values));
    281     return to_populate;
    282   } else if (android::base::StartsWith(args, kTwobufManualStr)) {
    283     std::vector<int> values;
    284     if (!ParseTwobufManualStr(args, &values)) {
    285       errx(1,
    286            "ERROR: Bad format of macro %s, should be AT_TWOBUF_MANUAL_ALIGN1_XX_ALIGNE2_YY_SIZE_ZZ",
    287            args.c_str());
    288     }
    289     to_populate->push_back(std::move(values));
    290     return to_populate;
    291   }
    292 
    293   to_populate->push_back(std::vector<int>());
    294   std::stringstream sstream(args);
    295   std::string argstr;
    296   while (sstream >> argstr) {
    297     char* check_null;
    298     int converted = static_cast<int>(strtol(argstr.c_str(), &check_null, 10));
    299     if (*check_null) {
    300       errx(1, "ERROR: Args str %s contains an invalid macro or int.", args.c_str());
    301     }
    302     (*to_populate)[0].push_back(converted);
    303   }
    304   return to_populate;
    305 }
    306 
    307 void RegisterGoogleBenchmarks(bench_opts_t primary_opts, bench_opts_t secondary_opts,
    308                               const std::string& fn_name, args_vector_t* run_args) {
    309   if (g_str_to_func.find(fn_name) == g_str_to_func.end()) {
    310     errx(1, "ERROR: No benchmark for function %s", fn_name.c_str());
    311   }
    312   long iterations_to_use = primary_opts.num_iterations ? primary_opts.num_iterations :
    313                                                          secondary_opts.num_iterations;
    314   int cpu_to_use = INT_MAX;
    315   if (primary_opts.cpu_to_lock != INT_MAX) {
    316     cpu_to_use = primary_opts.cpu_to_lock;
    317 
    318   } else if (secondary_opts.cpu_to_lock != INT_MAX) {
    319     cpu_to_use = secondary_opts.cpu_to_lock;
    320   }
    321 
    322   benchmark_func_t benchmark_function = g_str_to_func.at(fn_name).first;
    323   for (const std::vector<int>& args : (*run_args)) {
    324     auto registration = benchmark::RegisterBenchmark(fn_name.c_str(), LockAndRun,
    325                                                      benchmark_function,
    326                                                      cpu_to_use)->Args(args);
    327     if (iterations_to_use > 0) {
    328       registration->Iterations(iterations_to_use);
    329     }
    330   }
    331 }
    332 
    333 void RegisterCliBenchmarks(bench_opts_t cmdline_opts,
    334                            std::map<std::string, args_vector_t>& args_shorthand) {
    335   // Register any of the extra benchmarks that were specified in the options.
    336   args_vector_t arg_vector;
    337   args_vector_t* run_args = &arg_vector;
    338   for (const std::string& extra_fn : cmdline_opts.extra_benchmarks) {
    339     android::base::Trim(extra_fn);
    340     size_t first_space_pos = extra_fn.find(' ');
    341     std::string fn_name = extra_fn.substr(0, first_space_pos);
    342     std::string cmd_args;
    343     if (first_space_pos != std::string::npos) {
    344       cmd_args = extra_fn.substr(extra_fn.find(' ') + 1);
    345     } else {
    346       cmd_args = "";
    347     }
    348     run_args = ResolveArgs(run_args, cmd_args, args_shorthand);
    349     RegisterGoogleBenchmarks(bench_opts_t(), cmdline_opts, fn_name, run_args);
    350 
    351     run_args = &arg_vector;
    352     arg_vector.clear();
    353   }
    354 }
    355 
    356 int RegisterXmlBenchmarks(bench_opts_t cmdline_opts,
    357                           std::map<std::string, args_vector_t>& args_shorthand) {
    358   // Structure of the XML file:
    359   // - Element "fn"           Function to benchmark.
    360   // - - Element "iterations" Number of iterations to run. Leaving this blank uses
    361   //                          Google benchmarks' convergence heuristics.
    362   // - - Element "cpu"        CPU to isolate to, if any.
    363   // - - Element "args"       Whitespace-separated list of per-function integer arguments, or
    364   //                          one of the macros defined in util.h.
    365   tinyxml2::XMLDocument doc;
    366   if (doc.LoadFile(cmdline_opts.xmlpath.c_str()) != tinyxml2::XML_SUCCESS) {
    367     doc.PrintError();
    368     return doc.ErrorID();
    369   }
    370 
    371   // Read and register the functions.
    372   tinyxml2::XMLNode* fn = doc.FirstChildElement("fn");
    373   while (fn) {
    374     if (fn == fn->ToComment()) {
    375       // Skip comments.
    376       fn = fn->NextSibling();
    377       continue;
    378     }
    379 
    380     auto fn_elem = fn->FirstChildElement("name");
    381     if (!fn_elem) {
    382       errx(1, "ERROR: Malformed XML entry: missing name element.");
    383     }
    384     std::string fn_name = fn_elem->GetText();
    385     if (fn_name.empty()) {
    386       errx(1, "ERROR: Malformed XML entry: error parsing name text.");
    387     }
    388     auto* xml_args = fn->FirstChildElement("args");
    389     args_vector_t arg_vector;
    390     args_vector_t* run_args = ResolveArgs(&arg_vector,
    391                                           xml_args ? android::base::Trim(xml_args->GetText()) : "",
    392                                           args_shorthand);
    393 
    394     // XML values for CPU and iterations take precedence over those passed in via CLI.
    395     bench_opts_t xml_opts{};
    396     auto* num_iterations_elem = fn->FirstChildElement("iterations");
    397     if (num_iterations_elem) {
    398       int temp;
    399       num_iterations_elem->QueryIntText(&temp);
    400       xml_opts.num_iterations = temp;
    401     } else {
    402       xml_opts.num_iterations = 0;
    403     }
    404     auto* cpu_to_lock_elem = fn->FirstChildElement("cpu");
    405     if (cpu_to_lock_elem) {
    406       int temp;
    407       cpu_to_lock_elem->QueryIntText(&temp);
    408       xml_opts.cpu_to_lock = temp;
    409     } else {
    410       xml_opts.cpu_to_lock = INT_MAX;
    411     }
    412 
    413     RegisterGoogleBenchmarks(xml_opts, cmdline_opts, fn_name, run_args);
    414 
    415     fn = fn->NextSibling();
    416   }
    417   return 0;
    418 }
    419 
    420 static void SetArgs(const std::vector<int>& sizes, args_vector_t* args) {
    421   for (int size : sizes) {
    422     args->push_back({size});
    423   }
    424 }
    425 
    426 static void SetArgs(const std::vector<int>& sizes, int align, args_vector_t* args) {
    427   for (int size : sizes) {
    428     args->push_back({size, align});
    429   }
    430 }
    431 
    432 
    433 static void SetArgs(const std::vector<int>& sizes, int align1, int align2, args_vector_t* args) {
    434   for (int size : sizes) {
    435     args->push_back({size, align1, align2});
    436   }
    437 }
    438 
    439 static args_vector_t GetArgs(const std::vector<int>& sizes) {
    440   args_vector_t args;
    441   SetArgs(sizes, &args);
    442   return args;
    443 }
    444 
    445 static args_vector_t GetArgs(const std::vector<int>& sizes, int align) {
    446   args_vector_t args;
    447   SetArgs(sizes, align, &args);
    448   return args;
    449 }
    450 
    451 static args_vector_t GetArgs(const std::vector<int>& sizes, int align1, int align2) {
    452   args_vector_t args;
    453   SetArgs(sizes, align1, align2, &args);
    454   return args;
    455 }
    456 
    457 std::map<std::string, args_vector_t> GetShorthand() {
    458   std::vector<int> all_sizes(kSmallSizes);
    459   all_sizes.insert(all_sizes.end(), kMediumSizes.begin(), kMediumSizes.end());
    460   all_sizes.insert(all_sizes.end(), kLargeSizes.begin(), kLargeSizes.end());
    461 
    462   std::map<std::string, args_vector_t> args_shorthand {
    463     {"AT_COMMON_SIZES", GetArgs(kCommonSizes)},
    464     {"AT_SMALL_SIZES", GetArgs(kSmallSizes)},
    465     {"AT_MEDIUM_SIZES", GetArgs(kMediumSizes)},
    466     {"AT_LARGE_SIZES", GetArgs(kLargeSizes)},
    467     {"AT_ALL_SIZES", GetArgs(all_sizes)},
    468 
    469     {"AT_ALIGNED_ONEBUF", GetArgs(kCommonSizes, 0)},
    470     {"AT_ALIGNED_ONEBUF_SMALL", GetArgs(kSmallSizes, 0)},
    471     {"AT_ALIGNED_ONEBUF_MEDIUM", GetArgs(kMediumSizes, 0)},
    472     {"AT_ALIGNED_ONEBUF_LARGE", GetArgs(kLargeSizes, 0)},
    473     {"AT_ALIGNED_ONEBUF_ALL", GetArgs(all_sizes, 0)},
    474 
    475     {"AT_ALIGNED_TWOBUF", GetArgs(kCommonSizes, 0, 0)},
    476     {"AT_ALIGNED_TWOBUF_SMALL", GetArgs(kSmallSizes, 0, 0)},
    477     {"AT_ALIGNED_TWOBUF_MEDIUM", GetArgs(kMediumSizes, 0, 0)},
    478     {"AT_ALIGNED_TWOBUF_LARGE", GetArgs(kLargeSizes, 0, 0)},
    479     {"AT_ALIGNED_TWOBUF_ALL", GetArgs(all_sizes, 0, 0)},
    480 
    481     // Do not exceed 512. that is about the largest number of properties
    482     // that can be created with the current property area size.
    483     {"NUM_PROPS", args_vector_t{ {1}, {4}, {16}, {64}, {128}, {256}, {512} }},
    484 
    485     {"MATH_COMMON", args_vector_t{ {0}, {1}, {2}, {3} }}
    486   };
    487 
    488   args_vector_t args_onebuf;
    489   args_vector_t args_twobuf;
    490   for (int size : all_sizes) {
    491     args_onebuf.push_back({size, 0});
    492     args_twobuf.push_back({size, 0, 0});
    493     // Skip alignments on zero sizes.
    494     if (size == 0) {
    495       continue;
    496     }
    497     for (int align1 = 1; align1 <= 32; align1 <<= 1) {
    498       args_onebuf.push_back({size, align1});
    499       for (int align2 = 1; align2 <= 32; align2 <<= 1) {
    500         args_twobuf.push_back({size, align1, align2});
    501       }
    502     }
    503   }
    504   args_shorthand.emplace("AT_MANY_ALIGNED_ONEBUF", args_onebuf);
    505   args_shorthand.emplace("AT_MANY_ALIGNED_TWOBUF", args_twobuf);
    506 
    507   return args_shorthand;
    508 }
    509 
    510 static bool FileExists(const std::string& file) {
    511   struct stat st;
    512   return stat(file.c_str(), &st) != -1 && S_ISREG(st.st_mode);
    513 }
    514 
    515 void RegisterAllBenchmarks(const bench_opts_t& opts,
    516                            std::map<std::string, args_vector_t>& args_shorthand) {
    517   for (auto& entry : g_str_to_func) {
    518     auto& function_info = entry.second;
    519     args_vector_t arg_vector;
    520     args_vector_t* run_args = ResolveArgs(&arg_vector, function_info.second,
    521                                           args_shorthand);
    522     RegisterGoogleBenchmarks(bench_opts_t(), opts, entry.first, run_args);
    523   }
    524 }
    525 
    526 int main(int argc, char** argv) {
    527   std::map<std::string, args_vector_t> args_shorthand = GetShorthand();
    528   bench_opts_t opts = ParseOpts(argc, argv);
    529   std::vector<char*> new_argv(argc);
    530   SanitizeOpts(argc, argv, &new_argv);
    531 
    532   if (opts.xmlpath.empty()) {
    533     // Don't add the default xml file if a user is specifying the tests to run.
    534     if (opts.extra_benchmarks.empty()) {
    535       RegisterAllBenchmarks(opts, args_shorthand);
    536     }
    537   } else if (!FileExists(opts.xmlpath)) {
    538     // See if this is a file in the suites directory.
    539     std::string file(android::base::GetExecutableDirectory() + "/suites/" + opts.xmlpath);
    540     if (opts.xmlpath[0] == '/' || !FileExists(file)) {
    541       printf("Cannot find xml file %s: does not exist or is not a file.\n", opts.xmlpath.c_str());
    542       return 1;
    543     }
    544     opts.xmlpath = file;
    545   }
    546 
    547   if (!opts.xmlpath.empty()) {
    548     if (int err = RegisterXmlBenchmarks(opts, args_shorthand)) {
    549       return err;
    550     }
    551   }
    552   RegisterCliBenchmarks(opts, args_shorthand);
    553 
    554   // Set the thread priority to the maximum.
    555   if (setpriority(PRIO_PROCESS, 0, -20)) {
    556     perror("Failed to raise priority of process. Are you root?\n");
    557   }
    558 
    559   int new_argc = new_argv.size();
    560   benchmark::Initialize(&new_argc, new_argv.data());
    561   benchmark::RunSpecifiedBenchmarks();
    562 }
    563