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/* Copyright 2012 The Native Client Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can
* be found in the LICENSE file.
*
* This file provides wrappers to open() to use pre-opened file descriptors
* for the input bitcode and the output file.
*
* It also has the SRPC interfaces, but that should probably be refactored
* into a separate file.
*/
#if defined(__native_client__)
#include <argz.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
// Headers which are not properly part of the SDK are included by their
// path in the nacl tree
#include "native_client/src/shared/srpc/nacl_srpc.h"
#ifdef __pnacl__
#include <nacl/pnacl.h>
#endif
#include "SRPCStreamer.h"
#include <string>
#include <map>
#include <vector>
#include "llvm/ADT/OwningPtr.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/system_error.h"
using llvm::MemoryBuffer;
using llvm::StringRef;
using std::string;
using std::map;
#define printerr(...) fprintf(stderr, __VA_ARGS__)
// printdbg is currently disabled to reduce spew.
#define printdbg(...)
#define ARRAY_SIZE(array) (sizeof array / sizeof array[0])
namespace {
typedef std::vector<std::string> string_vector;
// The filename used internally for looking up the bitcode file.
char kBitcodeFilename[] = "pnacl.pexe";
// The filename used internally for looking up the object code file.
char kObjectFilename[] = "pnacl.o";
// Object which manages streaming bitcode over SRPC and threading.
SRPCStreamer *srpc_streamer;
// FD of the object file.
int object_file_fd;
} // namespace
//TODO(dschuff): a little more elegant interface into llc than this?
extern llvm::DataStreamer* NaClBitcodeStreamer;
extern int llc_main(int argc, char **argv);
int GetObjectFileFD() {
return object_file_fd;
}
namespace {
int DoTranslate(string_vector* cmd_line_vec, int object_fd) {
if (cmd_line_vec == NULL) {
return 1;
}
object_file_fd = object_fd;
// Make an argv array from the input vector.
size_t argc = cmd_line_vec->size();
char** argv = new char*[argc];
for (size_t i = 0; i < argc; ++i) {
// llc_main will not mutate the command line, so this is safe.
argv[i] = const_cast<char*>((*cmd_line_vec)[i].c_str());
}
argv[argc] = NULL;
// Call main.
return llc_main(static_cast<int>(argc), argv);
}
string_vector* CommandLineFromArgz(char* str, size_t str_len) {
char* entry = str;
string_vector* vec = new string_vector;
while (entry != NULL) {
vec->push_back(entry);
entry = argz_next(str, str_len, entry);
}
return vec;
}
void AddFixedArguments(string_vector* vec) {
// Add fixed arguments to the command line. These specify the bitcode
// and object code filenames, removing them from the contract with the
// coordinator.
vec->push_back(kBitcodeFilename);
vec->push_back("-o");
vec->push_back(kObjectFilename);
}
bool AddDefaultCPU(string_vector* vec) {
#if defined (__pnacl__)
switch (__builtin_nacl_target_arch()) {
case PnaclTargetArchitectureX86_32: {
vec->push_back("-mcpu=pentium4");
break;
}
case PnaclTargetArchitectureX86_64: {
vec->push_back("-mcpu=core2");
break;
}
case PnaclTargetArchitectureARM_32: {
vec->push_back("-mcpu=cortex-a9");
break;
}
default:
printerr("no target architecture match.\n");
return false;
}
// Some cases for building this with nacl-gcc.
#elif defined (__i386__)
vec->push_back("-mcpu=pentium4");
#elif defined (__x86_64__)
vec->push_back("-mcpu=core2");
#elif defined (__arm__)
vec->push_back("-mcpu=cortex-a9");
#error "Unknown architecture"
#endif
return true;
}
bool HasCPUOverride(string_vector* vec) {
std::string mcpu = std::string("-mcpu=");
size_t len = mcpu.length();
for (size_t i = 0; i < vec->size(); ++i) {
std::string prefix = (*vec)[i].substr(0, len);
if (prefix.compare(mcpu) == 0)
return true;
}
return false;
}
string_vector* GetDefaultCommandLine() {
string_vector* command_line = new string_vector;
size_t i;
// First, those common to all architectures.
static const char* common_args[] = { "pnacl_translator",
"-filetype=obj" };
for (i = 0; i < ARRAY_SIZE(common_args); ++i) {
command_line->push_back(common_args[i]);
}
// Then those particular to a platform.
static const char* llc_args_x8632[] = { "-mtriple=i686-none-nacl-gnu",
NULL };
static const char* llc_args_x8664[] = { "-mtriple=x86_64-none-nacl-gnu",
NULL };
static const char* llc_args_arm[] = { "-mtriple=armv7a-none-nacl-gnueabi",
"-arm-reserve-r9",
"-sfi-disable-cp",
"-sfi-store",
"-sfi-load",
"-sfi-stack",
"-sfi-branch",
"-sfi-data",
"-mattr=+neon",
"-no-inline-jumptables",
"-float-abi=hard",
NULL };
const char **llc_args = NULL;
#if defined (__pnacl__)
switch (__builtin_nacl_target_arch()) {
case PnaclTargetArchitectureX86_32: {
llc_args = llc_args_x8632;
break;
}
case PnaclTargetArchitectureX86_64: {
llc_args = llc_args_x8664;
break;
}
case PnaclTargetArchitectureARM_32: {
llc_args = llc_args_arm;
break;
}
default:
printerr("no target architecture match.\n");
delete command_line;
return NULL;
}
// Some cases for building this with nacl-gcc.
#elif defined (__i386__)
llc_args = llc_args_x8632;
#elif defined (__x86_64__)
llc_args = llc_args_x8664;
#elif defined (__arm__)
llc_args = llc_args_arm;
#else
#error "Unknown architecture"
#endif
for (i = 0; llc_args[i] != NULL; i++) command_line->push_back(llc_args[i]);
return command_line;
}
// Data passed from main thread to compile thread.
// Takes ownership of the commandline vector.
class StreamingThreadData {
public:
StreamingThreadData(int object_fd, string_vector* cmd_line_vec) :
object_fd_(object_fd), cmd_line_vec_(cmd_line_vec) {}
int ObjectFD() const { return object_fd_; }
string_vector* CmdLineVec() const { return cmd_line_vec_.get(); }
const int object_fd_;
const llvm::OwningPtr<string_vector> cmd_line_vec_;
};
void *run_streamed(void *arg) {
StreamingThreadData* data = reinterpret_cast<StreamingThreadData*>(arg);
data->CmdLineVec()->push_back("-streaming-bitcode");
if (DoTranslate(data->CmdLineVec(), data->ObjectFD()) != 0) {
printerr("DoTranslate failed.\n");
srpc_streamer->setError();
return NULL;
}
delete data;
return NULL;
}
// Actually do the work for stream initialization.
void do_stream_init(NaClSrpcRpc *rpc,
NaClSrpcArg **in_args,
NaClSrpcArg **out_args,
NaClSrpcClosure *done,
string_vector* command_line_vec) {
NaClSrpcClosureRunner runner(done);
rpc->result = NACL_SRPC_RESULT_APP_ERROR;
srpc_streamer = new SRPCStreamer();
std::string StrError;
StreamingThreadData* thread_data = new StreamingThreadData(
in_args[0]->u.hval, command_line_vec);
NaClBitcodeStreamer = srpc_streamer->init(run_streamed,
reinterpret_cast<void *>(thread_data),
&StrError);
if (NaClBitcodeStreamer) {
rpc->result = NACL_SRPC_RESULT_OK;
out_args[0]->arrays.str = strdup("no error");
} else {
out_args[0]->arrays.str = strdup(StrError.c_str());
}
}
// Invoked by the StreamInit RPC to initialize bitcode streaming over SRPC.
// Under the hood it forks a new thread at starts the llc_main, which sets
// up the compilation and blocks when it tries to start reading the bitcode.
// Input arg is a file descriptor to write the output object file to.
// Returns a string, containing an error message if the call fails.
void stream_init(NaClSrpcRpc *rpc,
NaClSrpcArg **in_args,
NaClSrpcArg **out_args,
NaClSrpcClosure *done) {
// cmd_line_vec allocated by GetDefaultCommandLine() is freed by the
// translation thread in run_streamed()
string_vector* cmd_line_vec = GetDefaultCommandLine();
if (!cmd_line_vec || !AddDefaultCPU(cmd_line_vec)) {
NaClSrpcClosureRunner runner(done);
rpc->result = NACL_SRPC_RESULT_APP_ERROR;
out_args[0]->arrays.str = strdup("Failed to get default commandline.");
return;
}
AddFixedArguments(cmd_line_vec);
do_stream_init(rpc, in_args, out_args, done, cmd_line_vec);
}
// Invoked by StreamInitWithCommandLine RPC. Same as stream_init, but
// provides a command line to use instead of the default.
void stream_init_with_command_line(NaClSrpcRpc *rpc,
NaClSrpcArg **in_args,
NaClSrpcArg **out_args,
NaClSrpcClosure *done) {
char* command_line = in_args[1]->arrays.carr;
size_t command_line_len = in_args[1]->u.count;
string_vector* cmd_line_vec =
CommandLineFromArgz(command_line, command_line_len);
AddFixedArguments(cmd_line_vec);
// cmd_line_vec is freed by the translation thread in run_streamed
do_stream_init(rpc, in_args, out_args, done, cmd_line_vec);
}
// Invoked by StreamInitWithOverrides RPC. Same as stream_init, but
// provides commandline flag overrides (appended to the default).
void stream_init_with_overrides(NaClSrpcRpc *rpc,
NaClSrpcArg **in_args,
NaClSrpcArg **out_args,
NaClSrpcClosure *done) {
string_vector* cmd_line_vec = GetDefaultCommandLine();
if (!cmd_line_vec) {
NaClSrpcClosureRunner runner(done);
rpc->result = NACL_SRPC_RESULT_APP_ERROR;
out_args[0]->arrays.str = strdup("Failed to get default commandline.");
return;
}
AddFixedArguments(cmd_line_vec);
char* command_line = in_args[1]->arrays.carr;
size_t command_line_len = in_args[1]->u.count;
llvm::OwningPtr<string_vector> extra_vec(
CommandLineFromArgz(command_line, command_line_len));
cmd_line_vec->insert(cmd_line_vec->end(),
extra_vec->begin(), extra_vec->end());
// Make sure some -mcpu override exists for now to prevent
// auto-cpu feature detection from triggering instructions that
// we do not validate yet.
if (!HasCPUOverride(extra_vec.get())) {
AddDefaultCPU(cmd_line_vec);
}
extra_vec.reset(NULL);
// cmd_line_vec is freed by the translation thread in run_streamed.
do_stream_init(rpc, in_args, out_args, done, cmd_line_vec);
}
// Invoked by the StreamChunk RPC. Receives a chunk of the bitcode and
// buffers it for later retrieval by the compilation thread.
void stream_chunk(NaClSrpcRpc *rpc,
NaClSrpcArg **in_args,
NaClSrpcArg **out_args,
NaClSrpcClosure *done) {
NaClSrpcClosureRunner runner(done);
rpc->result = NACL_SRPC_RESULT_APP_ERROR;
size_t len = in_args[0]->u.count;
unsigned char *bytes = reinterpret_cast<unsigned char*>(
in_args[0]->arrays.carr);
if (srpc_streamer->gotChunk(bytes, len) != len) {
return;
}
rpc->result = NACL_SRPC_RESULT_OK;
}
// Invoked by the StreamEnd RPC. Waits until the compilation finishes,
// then returns. Returns an int indicating whether the bitcode is a
// shared library, a string with the soname, a string with dependencies,
// and a string which contains an error message if applicable.
void stream_end(NaClSrpcRpc *rpc,
NaClSrpcArg **in_args,
NaClSrpcArg **out_args,
NaClSrpcClosure *done) {
NaClSrpcClosureRunner runner(done);
rpc->result = NACL_SRPC_RESULT_APP_ERROR;
std::string StrError;
if (srpc_streamer->streamEnd(&StrError)) {
out_args[3]->arrays.str = strdup(StrError.c_str());
return;
}
// TODO(eliben): We don't really use shared libraries now. At some
// point this should be cleaned up from SRPC as well.
out_args[0]->u.ival = false;
// SRPC deletes the strings returned when the closure is invoked.
// Therefore we need to use strdup.
out_args[1]->arrays.str = strdup("");
out_args[2]->arrays.str = strdup("");
rpc->result = NACL_SRPC_RESULT_OK;
}
const struct NaClSrpcHandlerDesc srpc_methods[] = {
// Protocol for streaming:
// (StreamInit(obj_fd) -> error_str |
// StreamInitWIthCommandLine(obj_fd, escaped_cmdline) -> error_str)
// StreamChunk(data) +
// StreamEnd() -> (is_shared_lib,soname,dependencies,error_str)
{ "StreamInit:h:s", stream_init },
{ "StreamInitWithCommandLine:hC:s:", stream_init_with_command_line },
{ "StreamInitWithOverrides:hC:s:", stream_init_with_overrides },
{ "StreamChunk:C:", stream_chunk },
{ "StreamEnd::isss", stream_end },
{ NULL, NULL },
};
} // namespace
int
main() {
if (!NaClSrpcModuleInit()) {
return 1;
}
if (!NaClSrpcAcceptClientConnection(srpc_methods)) {
return 1;
}
NaClSrpcModuleFini();
return 0;
}
#endif
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