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// Copyright (c) 2013, 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 "platform/assert.h"
#include "include/dart_native_api.h"
#include "platform/unicode.h"
#include "vm/dart_entry.h"
#include "vm/debugger.h"
#include "vm/heap/safepoint.h"
#include "vm/json_stream.h"
#include "vm/message.h"
#include "vm/metrics.h"
#include "vm/object.h"
#include "vm/service.h"
#include "vm/service_event.h"
#include "vm/thread_registry.h"
#include "vm/timeline.h"
namespace dart {
#ifndef PRODUCT
DECLARE_FLAG(bool, trace_service);
JSONStream::JSONStream(intptr_t buf_size)
: writer_(buf_size),
default_id_zone_(),
id_zone_(&default_id_zone_),
reply_port_(ILLEGAL_PORT),
seq_(NULL),
parameter_keys_(NULL),
parameter_values_(NULL),
method_(""),
param_keys_(NULL),
param_values_(NULL),
num_params_(0),
offset_(0),
count_(-1),
include_private_members_(true),
ignore_object_depth_(0) {
ObjectIdRing* ring = NULL;
Isolate* isolate = Isolate::Current();
if (isolate != NULL) {
ring = isolate->EnsureObjectIdRing();
}
default_id_zone_.Init(ring, ObjectIdRing::kAllocateId);
}
void JSONStream::Setup(Zone* zone,
Dart_Port reply_port,
const Instance& seq,
const String& method,
const Array& param_keys,
const Array& param_values,
bool parameters_are_dart_objects) {
set_reply_port(reply_port);
seq_ = &Instance::ZoneHandle(seq.ptr());
method_ = method.ToCString();
if (parameters_are_dart_objects) {
parameter_keys_ = &Array::ZoneHandle(param_keys.ptr());
parameter_values_ = &Array::ZoneHandle(param_values.ptr());
ASSERT(parameter_keys_->Length() == parameter_values_->Length());
} else if (param_keys.Length() > 0) {
String& string_iterator = String::Handle();
ASSERT(param_keys.Length() == param_values.Length());
const char** param_keys_native =
zone->Alloc<const char*>(param_keys.Length());
const char** param_values_native =
zone->Alloc<const char*>(param_keys.Length());
for (intptr_t i = 0; i < param_keys.Length(); i++) {
string_iterator ^= param_keys.At(i);
param_keys_native[i] =
zone->MakeCopyOfString(string_iterator.ToCString());
string_iterator ^= param_values.At(i);
param_values_native[i] =
zone->MakeCopyOfString(string_iterator.ToCString());
}
SetParams(param_keys_native, param_values_native, param_keys.Length());
}
if (FLAG_trace_service) {
Isolate* isolate = Isolate::Current();
ASSERT(isolate != NULL);
int64_t main_port = static_cast<int64_t>(isolate->main_port());
const char* isolate_name = isolate->name();
setup_time_micros_ = OS::GetCurrentTimeMicros();
OS::PrintErr("[+%" Pd64 "ms] Isolate (%" Pd64
") %s processing service "
"request %s\n",
Dart::UptimeMillis(), main_port, isolate_name, method_);
}
const char* kIncludePrivateMembersKey = "_includePrivateMembers";
if (HasParam(kIncludePrivateMembersKey)) {
include_private_members_ = ParamIs(kIncludePrivateMembersKey, "true");
}
buffer()->Printf("{\"jsonrpc\":\"2.0\", \"result\":");
}
void JSONStream::SetupError() {
Clear();
buffer()->Printf("{\"jsonrpc\":\"2.0\", \"error\":");
}
static const char* GetJSONRpcErrorMessage(intptr_t code) {
switch (code) {
case kParseError:
return "Parse error";
case kInvalidRequest:
return "Invalid Request";
case kMethodNotFound:
return "Method not found";
case kInvalidParams:
return "Invalid params";
case kInternalError:
return "Internal error";
case kFeatureDisabled:
return "Feature is disabled";
case kCannotAddBreakpoint:
return "Cannot add breakpoint";
case kStreamAlreadySubscribed:
return "Stream already subscribed";
case kStreamNotSubscribed:
return "Stream not subscribed";
case kIsolateMustBeRunnable:
return "Isolate must be runnable";
case kIsolateMustBePaused:
return "Isolate must be paused";
case kCannotResume:
return "Cannot resume execution";
case kIsolateIsReloading:
return "Isolate is reloading";
case kIsolateReloadBarred:
return "Isolate cannot be reloaded";
case kIsolateMustHaveReloaded:
return "Isolate must have reloaded";
case kFileSystemAlreadyExists:
return "File system already exists";
case kFileSystemDoesNotExist:
return "File system does not exist";
case kFileDoesNotExist:
return "File does not exist";
case kInvalidTimelineRequest:
return "The timeline related request could not be completed due to the "
"current configuration";
default:
return "Extension error";
}
}
static void PrintRequest(JSONObject* obj, JSONStream* js) {
JSONObject jsobj(obj, "request");
jsobj.AddProperty("method", js->method());
{
JSONObject params(&jsobj, "params");
for (intptr_t i = 0; i < js->num_params(); i++) {
params.AddProperty(js->GetParamKey(i), js->GetParamValue(i));
}
}
}
void JSONStream::PrintError(intptr_t code, const char* details_format, ...) {
SetupError();
JSONObject jsobj(this);
jsobj.AddProperty("code", code);
jsobj.AddProperty("message", GetJSONRpcErrorMessage(code));
{
JSONObject data(&jsobj, "data");
PrintRequest(&data, this);
if (details_format != NULL) {
va_list measure_args;
va_start(measure_args, details_format);
intptr_t len = Utils::VSNPrint(NULL, 0, details_format, measure_args);
va_end(measure_args);
char* buffer = Thread::Current()->zone()->Alloc<char>(len + 1);
va_list print_args;
va_start(print_args, details_format);
Utils::VSNPrint(buffer, (len + 1), details_format, print_args);
va_end(print_args);
data.AddProperty("details", buffer);
}
}
}
void JSONStream::PostNullReply(Dart_Port port) {
PortMap::PostMessage(
Message::New(port, Object::null(), Message::kNormalPriority));
}
static void Finalizer(void* isolate_callback_data, void* buffer) {
free(buffer);
}
void JSONStream::PostReply() {
ASSERT(seq_ != NULL);
Dart_Port port = reply_port();
set_reply_port(ILLEGAL_PORT); // Prevent double replies.
if (seq_->IsString()) {
const String& str = String::Cast(*seq_);
PrintProperty("id", str.ToCString());
} else if (seq_->IsInteger()) {
const Integer& integer = Integer::Cast(*seq_);
PrintProperty64("id", integer.AsInt64Value());
} else if (seq_->IsDouble()) {
const Double& dbl = Double::Cast(*seq_);
PrintProperty("id", dbl.value());
} else if (seq_->IsNull()) {
if (port == ILLEGAL_PORT) {
// This path is only used in tests.
buffer()->AddChar('}'); // Finish our message.
char* cstr;
intptr_t length;
Steal(&cstr, &length);
OS::PrintErr("-----\nDropping reply:\n%s\n-----\n", cstr);
free(cstr);
}
// JSON-RPC 2.0 says that a request with a null ID shouldn't get a reply.
PostNullReply(port);
return;
}
ASSERT(port != ILLEGAL_PORT);
buffer()->AddChar('}'); // Finish our message.
char* cstr;
intptr_t length;
Steal(&cstr, &length);
bool result;
{
TransitionVMToNative transition(Thread::Current());
Dart_CObject bytes;
bytes.type = Dart_CObject_kExternalTypedData;
bytes.value.as_external_typed_data.type = Dart_TypedData_kUint8;
bytes.value.as_external_typed_data.length = length;
bytes.value.as_external_typed_data.data = reinterpret_cast<uint8_t*>(cstr);
bytes.value.as_external_typed_data.peer = cstr;
bytes.value.as_external_typed_data.callback = Finalizer;
Dart_CObject* elements[1];
elements[0] = &bytes;
Dart_CObject message;
message.type = Dart_CObject_kArray;
message.value.as_array.length = 1;
message.value.as_array.values = elements;
result = Dart_PostCObject(port, &message);
}
if (!result) {
free(cstr);
}
if (FLAG_trace_service) {
Isolate* isolate = Isolate::Current();
ASSERT(isolate != NULL);
int64_t main_port = static_cast<int64_t>(isolate->main_port());
const char* isolate_name = isolate->name();
int64_t total_time = OS::GetCurrentTimeMicros() - setup_time_micros_;
if (result) {
OS::PrintErr("[+%" Pd64 "ms] Isolate (%" Pd64
") %s processed service request %s (%" Pd64 "us)\n",
Dart::UptimeMillis(), main_port, isolate_name, method_,
total_time);
} else {
OS::PrintErr("[+%" Pd64 "ms] Isolate (%" Pd64
") %s processed service request %s (%" Pd64 "us) FAILED\n",
Dart::UptimeMillis(), main_port, isolate_name, method_,
total_time);
}
}
}
const char* JSONStream::LookupParam(const char* key) const {
for (int i = 0; i < num_params(); i++) {
if (strcmp(key, param_keys_[i]) == 0) {
return param_values_[i];
}
}
return NULL;
}
bool JSONStream::HasParam(const char* key) const {
ASSERT(key);
return LookupParam(key) != NULL;
}
bool JSONStream::ParamIs(const char* key, const char* value) const {
ASSERT(key);
ASSERT(value);
const char* key_value = LookupParam(key);
return (key_value != NULL) && (strcmp(key_value, value) == 0);
}
void JSONStream::ComputeOffsetAndCount(intptr_t length,
intptr_t* offset,
intptr_t* count) {
// This function is written to avoid adding (count + offset) in case
// that triggers an integer overflow.
*offset = offset_;
if (*offset > length) {
*offset = length;
}
intptr_t remaining = length - *offset;
*count = count_;
if (*count < 0 || *count > remaining) {
*count = remaining;
}
}
void JSONStream::PrintfValue(const char* format, ...) {
va_list args;
va_start(args, format);
VPrintfValue(format, args);
va_end(args);
}
void JSONStream::PrintValue(const Object& o, bool ref) {
PrintCommaIfNeeded();
o.PrintJSON(this, ref);
}
void JSONStream::PrintValue(Breakpoint* bpt) {
PrintCommaIfNeeded();
bpt->PrintJSON(this);
}
void JSONStream::PrintValue(TokenPosition tp) {
PrintCommaIfNeeded();
PrintValue(static_cast<intptr_t>(tp.Serialize()));
}
void JSONStream::PrintValue(const ServiceEvent* event) {
PrintCommaIfNeeded();
event->PrintJSON(this);
}
void JSONStream::PrintValue(Metric* metric) {
PrintCommaIfNeeded();
metric->PrintJSON(this);
}
void JSONStream::PrintValue(MessageQueue* queue) {
PrintCommaIfNeeded();
queue->PrintJSON(this);
}
void JSONStream::PrintValue(Isolate* isolate, bool ref) {
PrintCommaIfNeeded();
isolate->PrintJSON(this, ref);
}
void JSONStream::PrintValue(IsolateGroup* isolate_group, bool ref) {
PrintCommaIfNeeded();
isolate_group->PrintJSON(this, ref);
}
void JSONStream::PrintValue(const TimelineEvent* timeline_event) {
PrintCommaIfNeeded();
timeline_event->PrintJSON(this);
}
void JSONStream::PrintValue(const TimelineEventBlock* timeline_event_block) {
PrintCommaIfNeeded();
timeline_event_block->PrintJSON(this);
}
void JSONStream::PrintValueVM(bool ref) {
PrintCommaIfNeeded();
Service::PrintJSONForVM(this, ref);
}
void JSONStream::PrintServiceId(const Object& o) {
ASSERT(id_zone_ != NULL);
PrintProperty("id", id_zone_->GetServiceId(o));
}
#define PRIVATE_NAME_CHECK() \
if (!IsAllowableKey(name) || ignore_object_depth_ > 0) return
void JSONStream::PrintProperty(const char* name, const ServiceEvent* event) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(event);
}
void JSONStream::PrintProperty(const char* name, Breakpoint* bpt) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(bpt);
}
void JSONStream::PrintProperty(const char* name, TokenPosition tp) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(tp);
}
void JSONStream::PrintProperty(const char* name, Metric* metric) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(metric);
}
void JSONStream::PrintProperty(const char* name, MessageQueue* queue) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(queue);
}
void JSONStream::PrintProperty(const char* name, Isolate* isolate) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(isolate);
}
void JSONStream::PrintProperty(const char* name,
const TimelineEvent* timeline_event) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(timeline_event);
}
void JSONStream::PrintProperty(const char* name,
const TimelineEventBlock* timeline_event_block) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(timeline_event_block);
}
void JSONStream::PrintfProperty(const char* name, const char* format, ...) {
PRIVATE_NAME_CHECK();
va_list args;
va_start(args, format);
writer_.VPrintfProperty(name, format, args);
va_end(args);
}
void JSONStream::set_reply_port(Dart_Port port) {
reply_port_ = port;
}
intptr_t JSONStream::NumObjectParameters() const {
if (parameter_keys_ == NULL) {
return 0;
}
ASSERT(parameter_keys_ != NULL);
ASSERT(parameter_values_ != NULL);
return parameter_keys_->Length();
}
ObjectPtr JSONStream::GetObjectParameterKey(intptr_t i) const {
ASSERT((i >= 0) && (i < NumObjectParameters()));
return parameter_keys_->At(i);
}
ObjectPtr JSONStream::GetObjectParameterValue(intptr_t i) const {
ASSERT((i >= 0) && (i < NumObjectParameters()));
return parameter_values_->At(i);
}
ObjectPtr JSONStream::LookupObjectParam(const char* c_key) const {
const String& key = String::Handle(String::New(c_key));
Object& test = Object::Handle();
const intptr_t num_object_parameters = NumObjectParameters();
for (intptr_t i = 0; i < num_object_parameters; i++) {
test = GetObjectParameterKey(i);
if (test.IsString() && String::Cast(test).Equals(key)) {
return GetObjectParameterValue(i);
}
}
return Object::null();
}
void JSONStream::SetParams(const char** param_keys,
const char** param_values,
intptr_t num_params) {
param_keys_ = param_keys;
param_values_ = param_values;
num_params_ = num_params;
}
void JSONStream::PrintProperty(const char* name, const Object& o, bool ref) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValue(o, ref);
}
void JSONStream::PrintPropertyVM(const char* name, bool ref) {
PRIVATE_NAME_CHECK();
PrintPropertyName(name);
PrintValueVM(ref);
}
JSONObject::JSONObject(const JSONArray* arr) : stream_(arr->stream_) {
stream_->OpenObject();
}
void JSONObject::AddFixedServiceId(const char* format, ...) const {
// Mark that this id is fixed.
AddProperty("fixedId", true);
// Add the id property.
va_list args;
va_start(args, format);
stream_->VPrintfProperty("id", format, args);
va_end(args);
}
void JSONObject::AddServiceId(const char* format, ...) const {
// Add the id property.
va_list args;
va_start(args, format);
stream_->VPrintfProperty("id", format, args);
va_end(args);
}
void JSONObject::AddLocation(const Script& script,
TokenPosition token_pos,
TokenPosition end_token_pos) const {
JSONObject location(this, "location");
location.AddProperty("type", "SourceLocation");
location.AddProperty("script", script);
location.AddProperty("tokenPos", token_pos);
if (end_token_pos.IsReal()) {
location.AddProperty("endTokenPos", end_token_pos);
}
intptr_t line = -1;
intptr_t column = -1;
// Add line and column information if token_pos is real.
if (script.GetTokenLocation(token_pos, &line, &column)) {
location.AddProperty("line", line);
location.AddProperty("column", column);
}
}
void JSONObject::AddLocation(const BreakpointLocation* bpt_loc) const {
ASSERT(bpt_loc->IsResolved());
Zone* zone = Thread::Current()->zone();
Script& script = Script::Handle(zone);
TokenPosition token_pos = TokenPosition::kNoSource;
bpt_loc->GetCodeLocation(&script, &token_pos);
AddLocation(script, token_pos);
}
void JSONObject::AddLocationLine(const Script& script, intptr_t line) const {
JSONObject location(this, "location");
location.AddProperty("type", "SourceLocation");
location.AddProperty("script", script);
location.AddProperty("tokenPos", TokenPosition::kNoSource);
if (line > 0) {
location.AddProperty("line", line);
}
}
void JSONObject::AddUnresolvedLocation(
const BreakpointLocation* bpt_loc) const {
ASSERT(!bpt_loc->IsResolved());
Zone* zone = Thread::Current()->zone();
Script& script = Script::Handle(zone);
TokenPosition token_pos = TokenPosition::kNoSource;
bpt_loc->GetCodeLocation(&script, &token_pos);
JSONObject location(this, "location");
location.AddProperty("type", "UnresolvedSourceLocation");
if (!script.IsNull()) {
location.AddProperty("script", script);
} else {
const String& scriptUri = String::Handle(zone, bpt_loc->url());
location.AddPropertyStr("scriptUri", scriptUri);
}
if (bpt_loc->requested_line_number() >= 0) {
// This unresolved breakpoint was specified at a particular line.
location.AddProperty("line", bpt_loc->requested_line_number());
if (bpt_loc->requested_column_number() >= 0) {
location.AddProperty("column", bpt_loc->requested_column_number());
}
} else {
// This unresolved breakpoint was requested at some function entry.
location.AddProperty("tokenPos", token_pos);
}
}
void JSONObject::AddPropertyF(const char* name, const char* format, ...) const {
va_list args;
va_start(args, format);
stream_->VPrintfProperty(name, format, args);
va_end(args);
}
void JSONArray::AddValueF(const char* format, ...) const {
va_list args;
va_start(args, format);
stream_->VPrintfValue(format, args);
va_end(args);
}
#endif // !PRODUCT
} // namespace dart