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//===- subzero/src/IceBrowserCompileServer.cpp - Browser compile server ---===//
//
// The Subzero Code Generator
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// \brief Defines the browser-based compile server.
///
//===----------------------------------------------------------------------===//
// Can only compile this with the NaCl compiler (needs irt.h, and the
// unsandboxed LLVM build using the trusted compiler does not have irt.h).
#include "IceBrowserCompileServer.h"
#include "IceRangeSpec.h"
#if PNACL_BROWSER_TRANSLATOR
// Headers which are not properly part of the SDK are included by their path in
// the NaCl tree.
#ifdef __pnacl__
#include "native_client/src/untrusted/nacl/pnacl.h"
#endif // __pnacl__
#include "llvm/Support/QueueStreamer.h"
#include <cstring>
#include <fstream>
#include <irt.h>
#include <irt_dev.h>
#include <pthread.h>
#include <thread>
namespace Ice {
// Create C wrappers around callback handlers for the IRT interface.
namespace {
BrowserCompileServer *gCompileServer;
struct nacl_irt_private_pnacl_translator_compile gIRTFuncs;
void getIRTInterfaces() {
size_t QueryResult =
nacl_interface_query(NACL_IRT_PRIVATE_PNACL_TRANSLATOR_COMPILE_v0_1,
&gIRTFuncs, sizeof(gIRTFuncs));
if (QueryResult != sizeof(gIRTFuncs))
llvm::report_fatal_error("Failed to get translator compile IRT interface");
}
// Allow pnacl-sz arguments to be supplied externally, instead of coming from
// the browser. This is meant to be used for debugging.
//
// NOTE: This functionality is only enabled in non-MINIMAL Subzero builds, for
// security/safety reasons.
//
// If the SZARGFILE environment variable is set to a file name, arguments are
// read from that file, one argument per line. This requires setting 3
// environment variables before starting the browser:
//
// NACL_ENV_PASSTHROUGH=NACL_DANGEROUS_ENABLE_FILE_ACCESS,NACLENV_SZARGFILE
// NACL_DANGEROUS_ENABLE_FILE_ACCESS=1
// NACLENV_SZARGFILE=/path/to/myargs.txt
//
// In addition, Chrome needs to be launched with the "--no-sandbox" argument.
//
// If the SZARGLIST environment variable is set, arguments are extracted from
// that variable's value, separated by the '|' character (being careful to
// escape/quote special shell characters). This requires setting 2 environment
// variables before starting the browser:
//
// NACL_ENV_PASSTHROUGH=NACLENV_SZARGLIST
// NACLENV_SZARGLIST=arg
//
// This does not require the "--no-sandbox" argument, and is therefore much
// safer, but does require restarting the browser to change the arguments.
//
// If external arguments are supplied, the browser's NumThreads specification is
// ignored, to allow -threads to be specified as an external argument. Note
// that the browser normally supplies the "-O2" argument, so externally supplied
// arguments might want to provide an explicit -O argument.
//
// See Chrome's src/components/nacl/zygote/nacl_fork_delegate_linux.cc for the
// NACL_ENV_PASSTHROUGH mechanism.
//
// See NaCl's src/trusted/service_runtime/env_cleanser.c for the NACLENV_
// mechanism.
std::vector<std::string> getExternalArgs() {
std::vector<std::string> ExternalArgs;
if (BuildDefs::minimal())
return ExternalArgs;
char ArgsFileVar[] = "SZARGFILE";
char ArgsListVar[] = "SZARGLIST";
if (const char *ArgsFilename = getenv(ArgsFileVar)) {
std::ifstream ArgsStream(ArgsFilename);
std::string Arg;
while (ArgsStream >> std::ws, std::getline(ArgsStream, Arg)) {
if (!Arg.empty() && Arg[0] == '#')
continue;
ExternalArgs.emplace_back(Arg);
}
if (ExternalArgs.empty()) {
llvm::report_fatal_error("Failed to read arguments from file '" +
std::string(ArgsFilename) + "'");
}
} else if (const char *ArgsList = getenv(ArgsListVar)) {
// Leverage the RangeSpec tokenizer.
auto Args = RangeSpec::tokenize(ArgsList, '|');
ExternalArgs.insert(ExternalArgs.end(), Args.begin(), Args.end());
}
return ExternalArgs;
}
char *onInitCallback(uint32_t NumThreads, int *ObjFileFDs,
size_t ObjFileFDCount, char **CLArgs, size_t CLArgsLen) {
if (ObjFileFDCount < 1) {
std::string Buffer;
llvm::raw_string_ostream StrBuf(Buffer);
StrBuf << "Invalid number of FDs for onInitCallback " << ObjFileFDCount
<< "\n";
return strdup(StrBuf.str().c_str());
}
int ObjFileFD = ObjFileFDs[0];
if (ObjFileFD < 0) {
std::string Buffer;
llvm::raw_string_ostream StrBuf(Buffer);
StrBuf << "Invalid FD given for onInitCallback " << ObjFileFD << "\n";
return strdup(StrBuf.str().c_str());
}
// CLArgs is almost an "argv", but is missing the argv[0] program name.
std::vector<const char *> Argv;
constexpr static char ProgramName[] = "pnacl-sz.nexe";
Argv.reserve(CLArgsLen + 1);
Argv.push_back(ProgramName);
bool UseNumThreadsFromBrowser = true;
auto ExternalArgs = getExternalArgs();
if (ExternalArgs.empty()) {
for (size_t i = 0; i < CLArgsLen; ++i) {
Argv.push_back(CLArgs[i]);
}
} else {
for (auto &Arg : ExternalArgs) {
Argv.emplace_back(Arg.c_str());
}
UseNumThreadsFromBrowser = false;
}
// NOTE: strings pointed to by argv are owned by the caller, but we parse
// here before returning and don't store them.
gCompileServer->getParsedFlags(UseNumThreadsFromBrowser, NumThreads,
Argv.size(), Argv.data());
gCompileServer->startCompileThread(ObjFileFD);
return nullptr;
}
int onDataCallback(const void *Data, size_t NumBytes) {
return gCompileServer->pushInputBytes(Data, NumBytes) ? 1 : 0;
}
char *onEndCallback() {
gCompileServer->endInputStream();
gCompileServer->waitForCompileThread();
// TODO(jvoung): Also return UMA data.
if (gCompileServer->getErrorCode().value()) {
const std::string Error = gCompileServer->getErrorStream().getContents();
return strdup(Error.empty() ? "Some error occurred" : Error.c_str());
}
return nullptr;
}
struct nacl_irt_pnacl_compile_funcs SubzeroCallbacks {
&onInitCallback, &onDataCallback, &onEndCallback
};
std::unique_ptr<llvm::raw_fd_ostream> getOutputStream(int FD) {
if (FD <= 0)
llvm::report_fatal_error("Invalid output FD");
constexpr bool CloseOnDtor = true;
constexpr bool Unbuffered = false;
return std::unique_ptr<llvm::raw_fd_ostream>(
new llvm::raw_fd_ostream(FD, CloseOnDtor, Unbuffered));
}
void fatalErrorHandler(void *UserData, const std::string &Reason,
bool GenCrashDialog) {
(void)GenCrashDialog;
BrowserCompileServer *Server =
reinterpret_cast<BrowserCompileServer *>(UserData);
Server->setFatalError(Reason);
// Only kill the current thread instead of the whole process. We need the
// server thread to remain alive in order to respond with the error message.
// We could also try to pthread_kill all other worker threads, but
// pthread_kill / raising signals is not supported by NaCl. We'll have to
// assume that the worker/emitter threads will be well behaved after a fatal
// error in other threads, and either get stuck waiting on input from a
// previous stage, or also call report_fatal_error.
pthread_exit(0);
}
/// Adapted from pnacl-llc's AddDefaultCPU() in srpc_main.cpp.
TargetArch getTargetArch() {
#if defined(__pnacl__)
switch (__builtin_nacl_target_arch()) {
case PnaclTargetArchitectureX86_32:
case PnaclTargetArchitectureX86_32_NonSFI:
return Target_X8632;
case PnaclTargetArchitectureX86_64:
return Target_X8664;
case PnaclTargetArchitectureARM_32:
case PnaclTargetArchitectureARM_32_NonSFI:
return Target_ARM32;
case PnaclTargetArchitectureMips_32:
return Target_MIPS32;
default:
llvm::report_fatal_error("no target architecture match.");
}
#elif defined(__i386__)
return Target_X8632;
#elif defined(__x86_64__)
return Target_X8664;
#elif defined(__arm__)
return Target_ARM32;
#else
// TODO(stichnot): Add mips.
#error "Unknown architecture"
#endif
}
} // end of anonymous namespace
BrowserCompileServer::~BrowserCompileServer() = default;
void BrowserCompileServer::run() {
gCompileServer = this;
getIRTInterfaces();
gIRTFuncs.serve_translate_request(&SubzeroCallbacks);
}
void BrowserCompileServer::getParsedFlags(bool UseNumThreadsFromBrowser,
uint32_t NumThreads, int argc,
const char *const *argv) {
ClFlags::parseFlags(argc, argv);
ClFlags::getParsedClFlags(ClFlags::Flags);
// Set some defaults which aren't specified via the argv string.
if (UseNumThreadsFromBrowser)
ClFlags::Flags.setNumTranslationThreads(NumThreads);
ClFlags::Flags.setUseSandboxing(true);
ClFlags::Flags.setOutFileType(FT_Elf);
ClFlags::Flags.setTargetArch(getTargetArch());
ClFlags::Flags.setInputFileFormat(llvm::PNaClFormat);
}
bool BrowserCompileServer::pushInputBytes(const void *Data, size_t NumBytes) {
// If there was an earlier error, do not attempt to push bytes to the
// QueueStreamer. Otherwise the thread could become blocked.
if (HadError.load())
return true;
return InputStream->PutBytes(
const_cast<unsigned char *>(
reinterpret_cast<const unsigned char *>(Data)),
NumBytes) != NumBytes;
}
void BrowserCompileServer::setFatalError(const std::string &Reason) {
HadError.store(true);
Ctx->getStrError() << Reason;
// Make sure that the QueueStreamer is not stuck by signaling an early end.
InputStream->SetDone();
}
ErrorCode &BrowserCompileServer::getErrorCode() {
if (HadError.load()) {
// HadError means report_fatal_error is called. Make sure that the
// LastError is not EC_None. We don't know the type of error so just pick
// some error category.
LastError.assign(EC_Translation);
}
return LastError;
}
void BrowserCompileServer::endInputStream() { InputStream->SetDone(); }
void BrowserCompileServer::startCompileThread(int ObjFD) {
InputStream = new llvm::QueueStreamer();
bool LogStreamFailure = false;
int LogFD = STDOUT_FILENO;
if (getFlags().getLogFilename() == "-") {
// Common case, do nothing.
} else if (getFlags().getLogFilename() == "/dev/stderr") {
LogFD = STDERR_FILENO;
} else {
LogStreamFailure = true;
}
LogStream = getOutputStream(LogFD);
LogStream->SetUnbuffered();
if (LogStreamFailure) {
*LogStream
<< "Warning: Log file name must be either '-' or '/dev/stderr'\n";
}
EmitStream = getOutputStream(ObjFD);
EmitStream->SetBufferSize(1 << 14);
std::unique_ptr<StringStream> ErrStrm(new StringStream());
ErrorStream = std::move(ErrStrm);
ELFStream.reset(new ELFFileStreamer(*EmitStream.get()));
Ctx.reset(new GlobalContext(LogStream.get(), EmitStream.get(),
&ErrorStream->getStream(), ELFStream.get()));
CompileThread = std::thread([this]() {
llvm::install_fatal_error_handler(fatalErrorHandler, this);
Ctx->initParserThread();
this->getCompiler().run(ClFlags::Flags, *Ctx.get(),
// Retain original reference, but the compiler
// (LLVM's MemoryObject) wants to handle deletion.
std::unique_ptr<llvm::DataStreamer>(InputStream));
});
}
} // end of namespace Ice
#else // !PNACL_BROWSER_TRANSLATOR
#include "llvm/Support/ErrorHandling.h"
namespace Ice {
BrowserCompileServer::~BrowserCompileServer() {}
void BrowserCompileServer::run() {
llvm::report_fatal_error("no browser hookups");
}
ErrorCode &BrowserCompileServer::getErrorCode() {
llvm::report_fatal_error("no browser hookups");
}
} // end of namespace Ice
#endif // PNACL_BROWSER_TRANSLATOR