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dart / sdk.git / 06f380310e161759d6c13c9bcb28af4a4c4d320e / . / runtime / bin / main.cc
blob: b2723ca147a55f918d6c24ea190b0cdb6b7330f6 [file] [log] [blame]
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "include/dart_api.h"
#include "include/dart_debugger_api.h"
#include "bin/builtin.h"
#include "bin/dartutils.h"
#include "bin/dbg_connection.h"
#include "bin/directory.h"
#include "bin/eventhandler.h"
#include "bin/extensions.h"
#include "bin/file.h"
#include "bin/isolate_data.h"
#include "bin/log.h"
#include "bin/platform.h"
#include "bin/process.h"
#include "bin/thread.h"
#include "bin/vmservice_impl.h"
#include "platform/globals.h"
#include "platform/hashmap.h"
namespace dart {
namespace bin {
// snapshot_buffer points to a snapshot if we link in a snapshot otherwise
// it is initialized to NULL.
extern const uint8_t* snapshot_buffer;
// Global state that stores a pointer to the application script snapshot.
static bool generate_script_snapshot = false;
static const char* snapshot_filename = NULL;
// Global state that indicates whether there is a debug breakpoint.
// This pointer points into an argv buffer and does not need to be
// free'd.
static const char* breakpoint_at = NULL;
// Global state that indicates whether we should open a connection
// and listen for a debugger to connect.
static bool start_debugger = false;
static const char* debug_ip = NULL;
static int debug_port = -1;
static const char* DEFAULT_DEBUG_IP = "127.0.0.1";
static const int DEFAULT_DEBUG_PORT = 5858;
// Value of the --package-root flag.
// (This pointer points into an argv buffer and does not need to be
// free'd.)
static const char* commandline_package_root = NULL;
// Global flag that is used to indicate that we want to compile all the
// dart functions and not run anything.
static bool has_compile_all = false;
// Global flag that is used to indicate that we want to print the source code
// for script that is being run.
static bool has_print_script = false;
static const char* DEFAULT_VM_SERVICE_SERVER_IP = "127.0.0.1";
static const int DEFAULT_VM_SERVICE_SERVER_PORT = 8181;
// VM Service options.
static bool start_vm_service = false;
static const char* vm_service_server_ip = DEFAULT_VM_SERVICE_SERVER_IP;
// The 0 port is a magic value which results in the first available port
// being allocated.
static int vm_service_server_port = -1;
// Exit code indicating an API error.
static const int kApiErrorExitCode = 253;
// Exit code indicating a compilation error.
static const int kCompilationErrorExitCode = 254;
// Exit code indicating an unhandled error that is not a compilation error.
static const int kErrorExitCode = 255;
static void ErrorExit(int exit_code, const char* format, ...) {
va_list arguments;
va_start(arguments, format);
Log::VPrintErr(format, arguments);
va_end(arguments);
fflush(stderr);
Dart_ExitScope();
Dart_ShutdownIsolate();
Dart_Cleanup();
exit(exit_code);
}
// The environment provided through the command line using -D options.
static dart::HashMap* environment = NULL;
static bool IsValidFlag(const char* name,
const char* prefix,
intptr_t prefix_length) {
intptr_t name_length = strlen(name);
return ((name_length > prefix_length) &&
(strncmp(name, prefix, prefix_length) == 0));
}
static bool has_version_option = false;
static bool ProcessVersionOption(const char* arg,
CommandLineOptions* vm_options) {
if (*arg != '\0') {
return false;
}
has_version_option = true;
return true;
}
static bool has_help_option = false;
static bool ProcessHelpOption(const char* arg, CommandLineOptions* vm_options) {
if (*arg != '\0') {
return false;
}
has_help_option = true;
return true;
}
static bool has_verbose_option = false;
static bool ProcessVerboseOption(const char* arg,
CommandLineOptions* vm_options) {
if (*arg != '\0') {
return false;
}
has_verbose_option = true;
return true;
}
static bool ProcessBreakpointOption(const char* funcname,
CommandLineOptions* vm_options) {
ASSERT(funcname != NULL);
if (*funcname == '\0') {
return false;
}
breakpoint_at = funcname;
return true;
}
static bool ProcessPackageRootOption(const char* arg,
CommandLineOptions* vm_options) {
ASSERT(arg != NULL);
if (*arg == '\0' || *arg == '-') {
return false;
}
commandline_package_root = arg;
return true;
}
static void* GetHashmapKeyFromString(char* key) {
return reinterpret_cast<void*>(key);
}
static bool ExtractPortAndIP(const char *option_value,
int *out_port,
const char **out_ip,
int default_port,
const char *default_ip) {
// [option_value] has to be one of the following formats:
// - ""
// - ":8181"
// - "=8181"
// - ":8181/192.168.0.1"
// - "=8181/192.168.0.1"
if (*option_value== '\0') {
*out_ip = default_ip;
*out_port = default_port;
return true;
}
if ((*option_value != '=') && (*option_value != ':')) {
return false;
}
int port = atoi(option_value + 1);
const char *slash = strstr(option_value, "/");
if (slash == NULL) {
*out_ip = default_ip;
*out_port = port;
return true;
}
int _, n;
if (sscanf(option_value + 1, "%d/%d.%d.%d.%d%n", // NOLINT(runtime/printf)
&_, &_, &_, &_, &_, &n)) {
if (option_value[1 + n] == '\0') {
*out_ip = slash + 1;
*out_port = port;
return true;
}
}
return false;
}
static bool ProcessEnvironmentOption(const char* arg,
CommandLineOptions* vm_options) {
ASSERT(arg != NULL);
if (*arg == '\0') {
// Ignore empty -D option.
Log::PrintErr("No arguments given to -D option\n");
return true;
}
if (environment == NULL) {
environment = new HashMap(&HashMap::SameStringValue, 4);
}
// Split the name=value part of the -Dname=value argument.
char* name;
char* value = NULL;
const char* equals_pos = strchr(arg, '=');
if (equals_pos == NULL) {
// No equal sign (name without value) currently not supported.
Log::PrintErr("No value given to -D option\n");
return false;
} else {
int name_len = equals_pos - arg;
if (name_len == 0) {
Log::PrintErr("No name given to -D option\n");
return false;
}
// Split name=value into name and value.
name = reinterpret_cast<char*>(malloc(name_len + 1));
strncpy(name, arg, name_len);
name[name_len] = '\0';
value = strdup(equals_pos + 1);
}
HashMap::Entry* entry = environment->Lookup(
GetHashmapKeyFromString(name), HashMap::StringHash(name), true);
ASSERT(entry != NULL); // Lookup adds an entry if key not found.
entry->value = value;
return true;
}
static bool ProcessCompileAllOption(const char* arg,
CommandLineOptions* vm_options) {
ASSERT(arg != NULL);
if (*arg != '\0') {
return false;
}
has_compile_all = true;
return true;
}
static bool ProcessDebugOption(const char* option_value,
CommandLineOptions* vm_options) {
ASSERT(option_value != NULL);
if (!ExtractPortAndIP(option_value, &debug_port, &debug_ip,
DEFAULT_DEBUG_PORT, DEFAULT_DEBUG_IP)) {
Log::PrintErr("unrecognized --debug option syntax. "
"Use --debug[:<port number>[/<IPv4 address>]]\n");
return false;
}
breakpoint_at = "main";
start_debugger = true;
return true;
}
static bool ProcessPrintScriptOption(const char* arg,
CommandLineOptions* vm_options) {
ASSERT(arg != NULL);
if (*arg != '\0') {
return false;
}
has_print_script = true;
return true;
}
static bool ProcessGenScriptSnapshotOption(const char* filename,
CommandLineOptions* vm_options) {
if (filename != NULL && strlen(filename) != 0) {
// Ensure that are already running using a full snapshot.
if (snapshot_buffer == NULL) {
Log::PrintErr("Script snapshots cannot be generated in this version of"
" dart\n");
return false;
}
snapshot_filename = filename;
generate_script_snapshot = true;
return true;
}
return false;
}
static bool ProcessEnableVmServiceOption(const char* option_value,
CommandLineOptions* vm_options) {
ASSERT(option_value != NULL);
if (!ExtractPortAndIP(option_value,
&vm_service_server_port,
&vm_service_server_ip,
DEFAULT_VM_SERVICE_SERVER_PORT,
DEFAULT_VM_SERVICE_SERVER_IP)) {
Log::PrintErr("unrecognized --enable-vm-service option syntax. "
"Use --enable-vm-service[:<port number>[/<IPv4 address>]]\n");
return false;
}
start_vm_service = true;
return true;
}
static bool ProcessObserveOption(const char* option_value,
CommandLineOptions* vm_options) {
ASSERT(option_value != NULL);
if (!ExtractPortAndIP(option_value,
&vm_service_server_port,
&vm_service_server_ip,
DEFAULT_VM_SERVICE_SERVER_PORT,
DEFAULT_VM_SERVICE_SERVER_IP)) {
Log::PrintErr("unrecognized --observe option syntax. "
"Use --observe[:<port number>[/<IPv4 address>]]\n");
return false;
}
start_vm_service = true;
vm_options->AddArgument("--pause-isolates-on-exit");
return true;
}
bool trace_debug_protocol = false;
static bool ProcessTraceDebugProtocolOption(const char* arg,
CommandLineOptions* vm_options) {
if (*arg != '\0') {
return false;
}
trace_debug_protocol = true;
return true;
}
static struct {
const char* option_name;
bool (*process)(const char* option, CommandLineOptions* vm_options);
} main_options[] = {
// Standard options shared with dart2js.
{ "--version", ProcessVersionOption },
{ "--help", ProcessHelpOption },
{ "-h", ProcessHelpOption },
{ "--verbose", ProcessVerboseOption },
{ "-v", ProcessVerboseOption },
{ "--package-root=", ProcessPackageRootOption },
{ "-D", ProcessEnvironmentOption },
// VM specific options to the standalone dart program.
{ "--break-at=", ProcessBreakpointOption },
{ "--compile_all", ProcessCompileAllOption },
{ "--debug", ProcessDebugOption },
{ "--snapshot=", ProcessGenScriptSnapshotOption },
{ "--print-script", ProcessPrintScriptOption },
{ "--enable-vm-service", ProcessEnableVmServiceOption },
{ "--observe", ProcessObserveOption },
{ "--trace-debug-protocol", ProcessTraceDebugProtocolOption },
{ NULL, NULL }
};
static bool ProcessMainOptions(const char* option,
CommandLineOptions* vm_options) {
int i = 0;
const char* name = main_options[0].option_name;
int option_length = strlen(option);
while (name != NULL) {
int length = strlen(name);
if ((option_length >= length) && (strncmp(option, name, length) == 0)) {
if (main_options[i].process(option + length, vm_options)) {
return true;
}
}
i += 1;
name = main_options[i].option_name;
}
return false;
}
// Convert all the arguments to UTF8. On Windows, the arguments are
// encoded in the current code page and not UTF8.
//
// Returns true if the arguments are converted. In that case
// each of the arguments need to be deallocated using free.
static bool Utf8ConvertArgv(int argc, char** argv) {
int unicode_argc = 0;
wchar_t** unicode_argv = ShellUtils::GetUnicodeArgv(&unicode_argc);
if (unicode_argv == NULL) return false;
for (int i = 0; i < unicode_argc; i++) {
wchar_t* arg = unicode_argv[i];
argv[i] = StringUtils::WideToUtf8(arg);
}
ShellUtils::FreeUnicodeArgv(unicode_argv);
return true;
}
// Parse out the command line arguments. Returns -1 if the arguments
// are incorrect, 0 otherwise.
static int ParseArguments(int argc,
char** argv,
CommandLineOptions* vm_options,
char** script_name,
CommandLineOptions* dart_options,
bool* print_flags_seen,
bool* verbose_debug_seen) {
const char* kPrefix = "--";
const intptr_t kPrefixLen = strlen(kPrefix);
// Store the executable name.
Platform::SetExecutableName(argv[0]);
// Start the rest after the executable name.
int i = 1;
// Parse out the vm options.
while (i < argc) {
if (ProcessMainOptions(argv[i], vm_options)) {
i++;
} else {
// Check if this flag is a potentially valid VM flag.
const char* kChecked = "-c";
const char* kPackageRoot = "-p";
if (strncmp(argv[i], kPackageRoot, strlen(kPackageRoot)) == 0) {
if (!ProcessPackageRootOption(argv[i] + strlen(kPackageRoot),
vm_options)) {
i++;
if ((argv[i] == NULL) ||
!ProcessPackageRootOption(argv[i], vm_options)) {
Log::PrintErr("Invalid option specification : '%s'\n", argv[i - 1]);
i++;
break;
}
}
i++;
continue; // '-p' is not a VM flag so don't add to vm options.
} else if (strncmp(argv[i], kChecked, strlen(kChecked)) == 0) {
vm_options->AddArgument("--checked");
i++;
continue; // '-c' is not a VM flag so don't add to vm options.
} else if (!IsValidFlag(argv[i], kPrefix, kPrefixLen)) {
break;
}
// The following two flags are processed by both the embedder and
// the VM.
const char* kPrintFlags1 = "--print-flags";
const char* kPrintFlags2 = "--print_flags";
const char* kVerboseDebug1 = "--verbose_debug";
const char* kVerboseDebug2 = "--verbose-debug";
if ((strncmp(argv[i], kPrintFlags1, strlen(kPrintFlags1)) == 0) ||
(strncmp(argv[i], kPrintFlags2, strlen(kPrintFlags2)) == 0)) {
*print_flags_seen = true;
} else if ((strncmp(argv[i],
kVerboseDebug1,
strlen(kVerboseDebug1)) == 0) ||
(strncmp(argv[i],
kVerboseDebug2,
strlen(kVerboseDebug2)) == 0)) {
*verbose_debug_seen = true;
}
vm_options->AddArgument(argv[i]);
i++;
}
}
// The arguments to the VM are at positions 1 through i-1 in argv.
Platform::SetExecutableArguments(i, argv);
// Get the script name.
if (i < argc) {
*script_name = argv[i];
i++;
} else {
return -1;
}
// Parse out options to be passed to dart main.
while (i < argc) {
dart_options->AddArgument(argv[i]);
i++;
}
return 0;
}
static Dart_Handle CreateRuntimeOptions(CommandLineOptions* options) {
int options_count = options->count();
Dart_Handle dart_arguments = Dart_NewList(options_count);
if (Dart_IsError(dart_arguments)) {
return dart_arguments;
}
for (int i = 0; i < options_count; i++) {
Dart_Handle argument_value =
DartUtils::NewString(options->GetArgument(i));
if (Dart_IsError(argument_value)) {
return argument_value;
}
Dart_Handle result = Dart_ListSetAt(dart_arguments, i, argument_value);
if (Dart_IsError(result)) {
return result;
}
}
return dart_arguments;
}
static Dart_Handle EnvironmentCallback(Dart_Handle name) {
uint8_t* utf8_array;
intptr_t utf8_len;
Dart_Handle result = Dart_Null();
Dart_Handle handle = Dart_StringToUTF8(name, &utf8_array, &utf8_len);
if (Dart_IsError(handle)) {
handle = Dart_ThrowException(
DartUtils::NewDartArgumentError(Dart_GetError(handle)));
} else {
char* name_chars = reinterpret_cast<char*>(malloc(utf8_len + 1));
memmove(name_chars, utf8_array, utf8_len);
name_chars[utf8_len] = '\0';
const char* value = NULL;
if (environment != NULL) {
HashMap::Entry* entry = environment->Lookup(
GetHashmapKeyFromString(name_chars),
HashMap::StringHash(name_chars),
false);
if (entry != NULL) {
value = reinterpret_cast<char*>(entry->value);
}
}
if (value != NULL) {
result = Dart_NewStringFromUTF8(reinterpret_cast<const uint8_t*>(value),
strlen(value));
}
free(name_chars);
}
return result;
}
#define CHECK_RESULT(result) \
if (Dart_IsError(result)) { \
*error = strdup(Dart_GetError(result)); \
*exit_code = Dart_IsCompilationError(result) ? kCompilationErrorExitCode : \
(Dart_IsApiError(result) ? kApiErrorExitCode : kErrorExitCode); \
Dart_ExitScope(); \
Dart_ShutdownIsolate(); \
return NULL; \
} \
// Returns true on success, false on failure.
static Dart_Isolate CreateIsolateAndSetupHelper(const char* script_uri,
const char* main,
const char* package_root,
char** error,
int* exit_code) {
ASSERT(script_uri != NULL);
IsolateData* isolate_data = new IsolateData(script_uri, package_root);
Dart_Isolate isolate = NULL;
isolate = Dart_CreateIsolate(script_uri,
main,
snapshot_buffer,
isolate_data,
error);
if (isolate == NULL) {
return NULL;
}
Dart_EnterScope();
if (snapshot_buffer != NULL) {
// Setup the native resolver as the snapshot does not carry it.
Builtin::SetNativeResolver(Builtin::kBuiltinLibrary);
Builtin::SetNativeResolver(Builtin::kIOLibrary);
}
// Set up the library tag handler for this isolate.
Dart_Handle result = Dart_SetLibraryTagHandler(DartUtils::LibraryTagHandler);
CHECK_RESULT(result);
if (Dart_IsServiceIsolate(isolate)) {
// If this is the service isolate, load embedder specific bits and return.
if (!VmService::Setup(vm_service_server_ip, vm_service_server_port)) {
*error = strdup(VmService::GetErrorMessage());
return NULL;
}
Dart_ExitScope();
Dart_ExitIsolate();
return isolate;
}
// Load the specified application script into the newly created isolate.
// Prepare builtin and its dependent libraries for use to resolve URIs.
// The builtin library is part of the core snapshot and would already be
// available here in the case of script snapshot loading.
Dart_Handle builtin_lib =
Builtin::LoadAndCheckLibrary(Builtin::kBuiltinLibrary);
CHECK_RESULT(builtin_lib);
// Prepare for script loading by setting up the 'print' and 'timer'
// closures and setting up 'package root' for URI resolution.
result = DartUtils::PrepareForScriptLoading(package_root, false, builtin_lib);
CHECK_RESULT(result);
result = Dart_SetEnvironmentCallback(EnvironmentCallback);
CHECK_RESULT(result);
// Load the script.
result = DartUtils::LoadScript(script_uri, builtin_lib);
CHECK_RESULT(result);
// Run event-loop and wait for script loading to complete.
result = Dart_RunLoop();
CHECK_RESULT(result);
Platform::SetPackageRoot(package_root);
DartUtils::SetupIOLibrary(script_uri);
// Make the isolate runnable so that it is ready to handle messages.
Dart_ExitScope();
Dart_ExitIsolate();
bool retval = Dart_IsolateMakeRunnable(isolate);
if (!retval) {
*error = strdup("Invalid isolate state - Unable to make it runnable");
Dart_EnterIsolate(isolate);
Dart_ShutdownIsolate();
return NULL;
}
return isolate;
}
#undef CHECK_RESULT
static Dart_Isolate CreateIsolateAndSetup(const char* script_uri,
const char* main,
const char* package_root,
void* data, char** error) {
IsolateData* parent_isolate_data = reinterpret_cast<IsolateData*>(data);
int exit_code = 0;
if (script_uri == NULL) {
if (data == NULL) {
*error = strdup("Invalid 'callback_data' - Unable to spawn new isolate");
return NULL;
}
script_uri = parent_isolate_data->script_url;
if (script_uri == NULL) {
*error = strdup("Invalid 'callback_data' - Unable to spawn new isolate");
return NULL;
}
}
if (package_root == NULL) {
if (parent_isolate_data != NULL) {
package_root = parent_isolate_data->package_root;
} else {
package_root = ".";
}
}
return CreateIsolateAndSetupHelper(script_uri,
main,
package_root,
error,
&exit_code);
}
static void PrintVersion() {
Log::PrintErr("Dart VM version: %s\n", Dart_VersionString());
}
static void PrintUsage() {
Log::PrintErr(
"Usage: dart [<vm-flags>] <dart-script-file> [<dart-options>]\n"
"\n"
"Executes the Dart script passed as <dart-script-file>.\n"
"\n");
if (!has_verbose_option) {
Log::PrintErr(
"Common options:\n"
"--checked or -c\n"
" Insert runtime type checks and enable assertions (checked mode).\n"
"--help or -h\n"
" Display this message (add -v or --verbose for information about\n"
" all VM options).\n"
"--package-root=<path> or -p<path>\n"
" Where to find packages, that is, \"package:...\" imports.\n"
"--version\n"
" Print the VM version.\n");
} else {
Log::PrintErr(
"Supported options:\n"
"--checked or -c\n"
" Insert runtime type checks and enable assertions (checked mode).\n"
"--help or -h\n"
" Display this message (add -v or --verbose for information about\n"
" all VM options).\n"
"--package-root=<path> or -p<path>\n"
" Where to find packages, that is, \"package:...\" imports.\n"
"--version\n"
" Print the VM version.\n"
"\n"
"--debug[:<port number>]\n"
" enables debugging and listens on specified port for debugger connections\n"
" (default port number is 5858)\n"
"\n"
"--break-at=<location>\n"
" sets a breakpoint at specified location where <location> is one of :\n"
" url:<line_num> e.g. test.dart:10\n"
" [<class_name>.]<function_name> e.g. B.foo\n"
"\n"
"--snapshot=<file_name>\n"
" loads Dart script and generates a snapshot in the specified file\n"
"\n"
"--print-script\n"
" generates Dart source code back and prints it after parsing a Dart script\n"
"\n"
"--enable-vm-service[:<port number>]\n"
" enables the VM service and listens on specified port for connections\n"
" (default port number is 8181)\n"
"\n"
"The following options are only used for VM development and may\n"
"be changed in any future version:\n");
const char* print_flags = "--print_flags";
Dart_SetVMFlags(1, &print_flags);
}
}
static Dart_Handle SetBreakpoint(const char* breakpoint_at,
Dart_Handle library) {
char* bpt_function = strdup(breakpoint_at);
Dart_Handle class_name;
Dart_Handle function_name;
char* dot = strchr(bpt_function, '.');
if (dot == NULL) {
class_name = DartUtils::NewString("");
function_name = DartUtils::NewString(breakpoint_at);
} else {
*dot = '\0';
class_name = DartUtils::NewString(bpt_function);
function_name = DartUtils::NewString(dot + 1);
}
free(bpt_function);
return Dart_OneTimeBreakAtEntry(library, class_name, function_name);
}
char* BuildIsolateName(const char* script_name,
const char* func_name) {
// Skip past any slashes in the script name.
const char* last_slash = strrchr(script_name, '/');
if (last_slash != NULL) {
script_name = last_slash + 1;
}
const char* kFormat = "%s/%s";
intptr_t len = strlen(script_name) + strlen(func_name) + 2;
char* buffer = new char[len];
ASSERT(buffer != NULL);
snprintf(buffer, len, kFormat, script_name, func_name);
return buffer;
}
static void DartExitOnError(Dart_Handle error) {
if (!Dart_IsError(error)) {
return;
}
const int exit_code = Dart_IsCompilationError(error) ?
kCompilationErrorExitCode : kErrorExitCode;
ErrorExit(exit_code, "%s\n", Dart_GetError(error));
}
static void ShutdownIsolate(void* callback_data) {
IsolateData* isolate_data = reinterpret_cast<IsolateData*>(callback_data);
delete isolate_data;
}
static Dart_Handle GenerateScriptSource() {
Dart_Handle library_url = Dart_LibraryUrl(Dart_RootLibrary());
if (Dart_IsError(library_url)) {
return library_url;
}
Dart_Handle script_urls = Dart_GetScriptURLs(library_url);
if (Dart_IsError(script_urls)) {
return script_urls;
}
intptr_t length;
Dart_Handle result = Dart_ListLength(script_urls, &length);
if (Dart_IsError(result)) {
return result;
}
for (intptr_t i = 0; i < length; i++) {
Dart_Handle script_url = Dart_ListGetAt(script_urls, i);
if (Dart_IsError(script_url)) {
return script_url;
}
result = Dart_GenerateScriptSource(library_url, script_url);
if (Dart_IsError(result)) {
return result;
}
const char* script_source = NULL;
result = Dart_StringToCString(result, &script_source);
if (Dart_IsError(result)) {
return result;
}
Log::Print("%s\n", script_source);
}
return Dart_True();
}
static const char* ServiceRequestError(Dart_Handle error) {
TextBuffer buffer(128);
buffer.Printf("{\"type\":\"Error\",\"text\":\"Internal error %s\"}",
Dart_GetError(error));
return buffer.Steal();
}
class DartScope {
public:
DartScope() { Dart_EnterScope(); }
~DartScope() { Dart_ExitScope(); }
};
static const char* ServiceRequestHandler(
const char* name,
const char** param_keys,
const char** param_values,
intptr_t num_params,
void* user_data) {
DartScope scope;
// TODO(ajohnsen): Store the library/function in isolate data or user_data.
Dart_Handle dart_io_str = Dart_NewStringFromCString("dart:io");
if (Dart_IsError(dart_io_str)) return ServiceRequestError(dart_io_str);
Dart_Handle io_lib = Dart_LookupLibrary(dart_io_str);
if (Dart_IsError(io_lib)) return ServiceRequestError(io_lib);
Dart_Handle handler_function_name =
Dart_NewStringFromCString("_serviceObjectHandler");
if (Dart_IsError(handler_function_name)) {
return ServiceRequestError(handler_function_name);
}
// TODO(johnmccutchan): paths is no longer used. Update the io
// _serviceObjectHandler function to use json rpc.
Dart_Handle paths = Dart_NewList(0);
Dart_Handle keys = Dart_NewList(num_params);
Dart_Handle values = Dart_NewList(num_params);
for (int i = 0; i < num_params; i++) {
Dart_ListSetAt(keys, i, Dart_NewStringFromCString(param_keys[i]));
Dart_ListSetAt(values, i, Dart_NewStringFromCString(param_values[i]));
}
Dart_Handle args[] = {paths, keys, values};
Dart_Handle result = Dart_Invoke(io_lib, handler_function_name, 3, args);
if (Dart_IsError(result)) return ServiceRequestError(result);
const char *json;
result = Dart_StringToCString(result, &json);
if (Dart_IsError(result)) return ServiceRequestError(result);
return strdup(json);
}
void main(int argc, char** argv) {
char* script_name;
CommandLineOptions vm_options(argc);
CommandLineOptions dart_options(argc);
bool print_flags_seen = false;
bool verbose_debug_seen = false;
vm_options.AddArgument("--no_write_protect_code");
// Perform platform specific initialization.
if (!Platform::Initialize()) {
Log::PrintErr("Initialization failed\n");
}
// On Windows, the argv strings are code page encoded and not
// utf8. We need to convert them to utf8.
bool argv_converted = Utf8ConvertArgv(argc, argv);
// Parse command line arguments.
if (ParseArguments(argc,
argv,
&vm_options,
&script_name,
&dart_options,
&print_flags_seen,
&verbose_debug_seen) < 0) {
if (has_help_option) {
PrintUsage();
exit(0);
} else if (has_version_option) {
PrintVersion();
exit(0);
} else if (print_flags_seen) {
// Will set the VM flags, print them out and then we exit as no
// script was specified on the command line.
Dart_SetVMFlags(vm_options.count(), vm_options.arguments());
exit(0);
} else {
PrintUsage();
exit(kErrorExitCode);
}
}
Thread::InitOnce();
if (!DartUtils::SetOriginalWorkingDirectory()) {
OSError err;
fprintf(stderr, "Error determining current directory: %s\n", err.message());
fflush(stderr);
exit(kErrorExitCode);
}
Dart_SetVMFlags(vm_options.count(), vm_options.arguments());
// Start event handler.
EventHandler::Start();
// Initialize the Dart VM.
if (!Dart_Initialize(CreateIsolateAndSetup, NULL, NULL, ShutdownIsolate,
DartUtils::OpenFile,
DartUtils::ReadFile,
DartUtils::WriteFile,
DartUtils::CloseFile,
DartUtils::EntropySource)) {
fprintf(stderr, "%s", "VM initialization failed\n");
fflush(stderr);
exit(kErrorExitCode);
}
// Start the debugger wire protocol handler if necessary.
if (start_debugger) {
ASSERT(debug_port >= 0);
bool print_msg = verbose_debug_seen || (debug_port == 0);
debug_port = DebuggerConnectionHandler::StartHandler(debug_ip, debug_port);
if (print_msg) {
Log::Print("Debugger listening on port %d\n", debug_port);
}
} else {
DebuggerConnectionHandler::InitForVmService();
}
Dart_RegisterIsolateServiceRequestCallback(
"io", &ServiceRequestHandler, NULL);
// Call CreateIsolateAndSetup which creates an isolate and loads up
// the specified application script.
char* error = NULL;
int exit_code = 0;
char* isolate_name = BuildIsolateName(script_name, "main");
Dart_Isolate isolate = CreateIsolateAndSetupHelper(script_name,
"main",
commandline_package_root,
&error,
&exit_code);
if (isolate == NULL) {
Log::PrintErr("%s\n", error);
free(error);
delete [] isolate_name;
exit((exit_code != 0) ? exit_code : kErrorExitCode);
}
delete [] isolate_name;
Dart_EnterIsolate(isolate);
ASSERT(isolate == Dart_CurrentIsolate());
ASSERT(isolate != NULL);
Dart_Handle result;
Dart_EnterScope();
if (generate_script_snapshot) {
// First create a snapshot.
Dart_Handle result;
uint8_t* buffer = NULL;
intptr_t size = 0;
result = Dart_CreateScriptSnapshot(&buffer, &size);
DartExitOnError(result);
// Open the snapshot file.
File* snapshot_file = File::Open(snapshot_filename, File::kWriteTruncate);
if (snapshot_file == NULL) {
ErrorExit(kErrorExitCode,
"Unable to open file %s for writing the snapshot\n",
snapshot_filename);
}
// Write the magic number to indicate file is a script snapshot.
DartUtils::WriteMagicNumber(snapshot_file);
// Now write the snapshot out to specified file.
bool bytes_written = snapshot_file->WriteFully(buffer, size);
ASSERT(bytes_written);
delete snapshot_file;
snapshot_file = NULL;
} else {
// Lookup the library of the root script.
Dart_Handle root_lib = Dart_RootLibrary();
// Import the root library into the builtin library so that we can easily
// lookup the main entry point exported from the root library.
Dart_Handle builtin_lib =
Builtin::LoadAndCheckLibrary(Builtin::kBuiltinLibrary);
result = Dart_LibraryImportLibrary(builtin_lib, root_lib, Dart_Null());
if (has_compile_all) {
result = Dart_CompileAll();
DartExitOnError(result);
}
if (Dart_IsNull(root_lib)) {
ErrorExit(kErrorExitCode,
"Unable to find root library for '%s'\n",
script_name);
}
if (has_print_script) {
result = GenerateScriptSource();
DartExitOnError(result);
} else {
// The helper function _getMainClosure creates a closure for the main
// entry point which is either explicitly or implictly exported from the
// root library.
Dart_Handle main_closure = Dart_Invoke(
builtin_lib, Dart_NewStringFromCString("_getMainClosure"), 0, NULL);
DartExitOnError(main_closure);
// Set debug breakpoint if specified on the command line before calling
// the main function.
if (breakpoint_at != NULL) {
result = SetBreakpoint(breakpoint_at, root_lib);
if (Dart_IsError(result)) {
ErrorExit(kErrorExitCode,
"Error setting breakpoint at '%s': %s\n",
breakpoint_at,
Dart_GetError(result));
}
}
// Call _startIsolate in the isolate library to enable dispatching the
// initial startup message.
const intptr_t kNumIsolateArgs = 2;
Dart_Handle isolate_args[kNumIsolateArgs];
isolate_args[0] = main_closure; // entryPoint
isolate_args[1] = CreateRuntimeOptions(&dart_options); // args
Dart_Handle isolate_lib = Dart_LookupLibrary(
Dart_NewStringFromCString("dart:isolate"));
result = Dart_Invoke(isolate_lib,
Dart_NewStringFromCString("_startMainIsolate"),
kNumIsolateArgs, isolate_args);
DartExitOnError(result);
// Keep handling messages until the last active receive port is closed.
result = Dart_RunLoop();
DartExitOnError(result);
}
}
Dart_ExitScope();
// Shutdown the isolate.
Dart_ShutdownIsolate();
// Terminate process exit-code handler.
Process::TerminateExitCodeHandler();
Dart_Cleanup();
// Free copied argument strings if converted.
if (argv_converted) {
for (int i = 0; i < argc; i++) free(argv[i]);
}
// Free environment if any.
if (environment != NULL) {
for (HashMap::Entry* p = environment->Start();
p != NULL;
p = environment->Next(p)) {
free(p->key);
free(p->value);
}
delete environment;
}
exit(Process::GlobalExitCode());
}
} // namespace bin
} // namespace dart
int main(int argc, char** argv) {
dart::bin::main(argc, argv);
UNREACHABLE();
}