skia2/tools/ok.cpp

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/*
* Copyright 2017 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
// ok is an experimental test harness, maybe to replace DM. Key features:
// * work is balanced across separate processes for stability and isolation;
// * ok is entirely opt-in. No more maintaining huge --blacklists.
#include "SkGraphics.h"
#include "ok.h"
#include <chrono>
#include <future>
#include <list>
#include <stdio.h>
#include <stdlib.h>
#include <thread>
#include <vector>
#if !defined(__has_include)
#define __has_include(x) 0
#endif
static thread_local const char* tls_currently_running = "";
#if __has_include(<execinfo.h>) && __has_include(<fcntl.h>) && __has_include(<signal.h>)
#include <execinfo.h>
#include <fcntl.h>
#include <signal.h>
static int log_fd = 2/*stderr*/;
static void log(const char* msg) {
write(log_fd, msg, strlen(msg));
}
static void setup_crash_handler() {
static void (*original_handlers[32])(int);
for (int sig : std::vector<int>{ SIGABRT, SIGBUS, SIGFPE, SIGILL, SIGSEGV }) {
original_handlers[sig] = signal(sig, [](int sig) {
lockf(log_fd, F_LOCK, 0);
log("\ncaught signal ");
switch (sig) {
#define CASE(s) case s: log(#s); break
CASE(SIGABRT);
CASE(SIGBUS);
CASE(SIGFPE);
CASE(SIGILL);
CASE(SIGSEGV);
#undef CASE
}
log(" while running '");
log(tls_currently_running);
log("'\n");
void* stack[128];
int frames = backtrace(stack, sizeof(stack)/sizeof(*stack));
backtrace_symbols_fd(stack, frames, log_fd);
lockf(log_fd, F_ULOCK, 0);
signal(sig, original_handlers[sig]);
raise(sig);
});
}
}
static void defer_logging() {
log_fd = fileno(tmpfile());
atexit([] {
lseek(log_fd, 0, SEEK_SET);
char buf[1024];
while (size_t bytes = read(log_fd, buf, sizeof(buf))) {
write(2, buf, bytes);
}
});
}
void ok_log(const char* msg) {
lockf(log_fd, F_LOCK, 0);
log("[");
log(tls_currently_running);
log("]\t");
log(msg);
log("\n");
lockf(log_fd, F_ULOCK, 0);
}
#else
static void setup_crash_handler() {}
static void defer_logging() {}
void ok_log(const char* msg) {
fprintf(stderr, "%s\n", msg);
}
#endif
struct Engine {
virtual ~Engine() {}
virtual bool spawn(std::function<Status(void)>) = 0;
virtual Status wait_one() = 0;
};
struct SerialEngine : Engine {
Status last = Status::None;
bool spawn(std::function<Status(void)> fn) override {
last = fn();
return true;
}
Status wait_one() override {
Status s = last;
last = Status::None;
return s;
}
};
struct ThreadEngine : Engine {
std::list<std::future<Status>> live;
bool spawn(std::function<Status(void)> fn) override {
live.push_back(std::async(std::launch::async, fn));
return true;
}
Status wait_one() override {
if (live.empty()) {
return Status::None;
}
for (;;) {
for (auto it = live.begin(); it != live.end(); it++) {
if (it->wait_for(std::chrono::seconds::zero()) == std::future_status::ready) {
Status s = it->get();
live.erase(it);
return s;
}
}
}
}
};
#if defined(_MSC_VER)
using ForkEngine = ThreadEngine;
#else
#include <sys/wait.h>
#include <unistd.h>
struct ForkEngine : Engine {
bool spawn(std::function<Status(void)> fn) override {
switch (fork()) {
case 0: _exit((int)fn());
case -1: return false;
default: return true;
}
}
Status wait_one() override {
do {
int status;
if (wait(&status) > 0) {
return WIFEXITED(status) ? (Status)WEXITSTATUS(status)
: Status::Crashed;
}
} while (errno == EINTR);
return Status::None;
}
};
#endif
struct StreamType {
const char *name, *help;
std::unique_ptr<Stream> (*factory)(Options);
};
static std::vector<StreamType> stream_types;
struct DstType {
const char *name, *help;
std::unique_ptr<Dst> (*factory)(Options);
};
static std::vector<DstType> dst_types;
struct ViaType {
const char *name, *help;
std::unique_ptr<Dst> (*factory)(Options, std::unique_ptr<Dst>);
};
static std::vector<ViaType> via_types;
template <typename T>
static std::string help_for(std::vector<T> registered) {
std::string help;
for (auto r : registered) {
help += "\n ";
help += r.name;
help += ": ";
help += r.help;
}
return help;
}
int main(int argc, char** argv) {
SkGraphics::Init();
setup_crash_handler();
int jobs{1};
std::unique_ptr<Stream> stream;
std::function<std::unique_ptr<Dst>(void)> dst_factory = []{
// A default Dst that's enough for unit tests and not much else.
struct : Dst {
Status draw(Src* src) override { return src->draw(nullptr); }
sk_sp<SkImage> image() override { return nullptr; }
} dst;
return move_unique(dst);
};
auto help = [&] {
std::string stream_help = help_for(stream_types),
dst_help = help_for( dst_types),
via_help = help_for( via_types);
printf("%s [-j N] [-m regex] [-s regex] [-w dir] [-h] \n"
" src[:k=v,...] dst[:k=v,...] [via[:k=v,...] ...] \n"
" -j: Run at most N processes at any time. \n"
" If <0, use -N threads instead. \n"
" If 0, use one thread in one process. \n"
" If 1 (default) or -1, auto-detect N. \n"
" -h: Print this message and exit. \n"
" src: content to draw%s \n"
" dst: how to draw that content%s \n"
" via: wrappers around dst%s \n"
" Most srcs, dsts and vias have options, e.g. skp:dir=skps sw:ct=565 \n",
argv[0], stream_help.c_str(), dst_help.c_str(), via_help.c_str());
return 1;
};
for (int i = 1; i < argc; i++) {
if (0 == strcmp("-j", argv[i])) { jobs = atoi(argv[++i]); }
if (0 == strcmp("-h", argv[i])) { return help(); }
for (auto s : stream_types) {
size_t len = strlen(s.name);
if (0 == strncmp(s.name, argv[i], len)) {
switch (argv[i][len]) {
case ':': len++;
case '\0': stream = s.factory(Options{argv[i]+len});
}
}
}
for (auto d : dst_types) {
size_t len = strlen(d.name);
if (0 == strncmp(d.name, argv[i], len)) {
switch (argv[i][len]) {
case ':': len++;
case '\0': dst_factory = [=]{
return d.factory(Options{argv[i]+len});
};
}
}
}
for (auto v : via_types) {
size_t len = strlen(v.name);
if (0 == strncmp(v.name, argv[i], len)) {
if (!dst_factory) { return help(); }
switch (argv[i][len]) {
case ':': len++;
case '\0': dst_factory = [=]{
return v.factory(Options{argv[i]+len}, dst_factory());
};
}
}
}
}
if (!stream) { return help(); }
std::unique_ptr<Engine> engine;
if (jobs == 0) { engine.reset(new SerialEngine); }
if (jobs > 0) { engine.reset(new ForkEngine); defer_logging(); }
if (jobs < 0) { engine.reset(new ThreadEngine); jobs = -jobs; }
if (jobs == 1) { jobs = std::thread::hardware_concurrency(); }
int ok = 0, failed = 0, crashed = 0, skipped = 0;
auto update_stats = [&](Status s) {
switch (s) {
case Status::OK: ok++; break;
case Status::Failed: failed++; break;
case Status::Crashed: crashed++; break;
case Status::Skipped: skipped++; break;
case Status::None: return;
}
const char* leader = "\r";
auto print = [&](int count, const char* label) {
if (count) {
printf("%s%d %s", leader, count, label);
leader = ", ";
}
};
print(ok, "ok");
print(failed, "failed");
print(crashed, "crashed");
print(skipped, "skipped");
fflush(stdout);
};
auto spawn = [&](std::function<Status(void)> fn) {
if (--jobs < 0) {
update_stats(engine->wait_one());
}
while (!engine->spawn(fn)) {
update_stats(engine->wait_one());
}
};
for (std::unique_ptr<Src> owned = stream->next(); owned; owned = stream->next()) {
Src* raw = owned.release(); // Can't move std::unique_ptr into a lambda in C++11. :(
spawn([=] {
std::unique_ptr<Src> src{raw};
std::string name = src->name();
tls_currently_running = name.c_str();
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return dst_factory()->draw(src.get());
});
}
for (Status s = Status::OK; s != Status::None; ) {
s = engine->wait_one();
update_stats(s);
}
printf("\n");
return (failed || crashed) ? 1 : 0;
}
Register::Register(const char* name, const char* help,
std::unique_ptr<Stream> (*factory)(Options)) {
stream_types.push_back(StreamType{name, help, factory});
}
Register::Register(const char* name, const char* help,
std::unique_ptr<Dst> (*factory)(Options)) {
dst_types.push_back(DstType{name, help, factory});
}
Register::Register(const char* name, const char* help,
std::unique_ptr<Dst> (*factory)(Options, std::unique_ptr<Dst>)) {
via_types.push_back(ViaType{name, help, factory});
}
Options::Options(std::string str) {
std::string k,v, *curr = &k;
for (auto c : str) {
switch(c) {
case ',': (*this)[k] = v;
curr = &(k = "");
break;
case '=': curr = &(v = "");
break;
default: *curr += c;
}
}
(*this)[k] = v;
}
std::string& Options::operator[](std::string k) { return this->kv[k]; }
std::string Options::operator()(std::string k, std::string fallback) const {
for (auto it = kv.find(k); it != kv.end(); ) {
return it->second;
}
return fallback;
}