blob: b563f5f65af46335332d5bf51ab4855fbec60db9 [file] [log] [blame]
// 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.
#ifndef RUNTIME_VM_JSON_STREAM_H_
#define RUNTIME_VM_JSON_STREAM_H_
#include "include/dart_api.h" // for Dart_Port
#include "platform/allocation.h"
#include "platform/text_buffer.h"
#include "vm/json_writer.h"
#include "vm/service.h"
#include "vm/token_position.h"
namespace dart {
class Array;
class Breakpoint;
class BreakpointLocation;
class Field;
class GrowableObjectArray;
class Instance;
class JSONArray;
class JSONObject;
class MessageQueue;
class Metric;
class Object;
class Script;
class ServiceEvent;
class String;
class TimelineEvent;
class TimelineEventBlock;
class Thread;
class ThreadRegistry;
class Zone;
// Keep this enum in sync with:
//
// - runtime/vm/service/vmservice.dart
// - runtime/observatory/lib/src/service/object.dart
// - pkg/dds/lib/src/rpc_error_codes.dart
//
enum JSONRpcErrorCode {
kParseError = -32700,
kInvalidRequest = -32600,
kMethodNotFound = -32601,
kInvalidParams = -32602,
kInternalError = -32603,
kExtensionError = -32000,
kFeatureDisabled = 100,
kCannotAddBreakpoint = 102,
kStreamAlreadySubscribed = 103,
kStreamNotSubscribed = 104,
kIsolateMustBeRunnable = 105,
kIsolateMustBePaused = 106,
kCannotResume = 107,
kIsolateIsReloading = 108,
kIsolateReloadBarred = 109,
kIsolateMustHaveReloaded = 110,
kServiceAlreadyRegistered = 111,
kServiceDisappeared = 112,
kExpressionCompilationError = 113,
kInvalidTimelineRequest = 114,
// Experimental (used in private rpcs).
kFileSystemAlreadyExists = 1001,
kFileSystemDoesNotExist = 1002,
kFileDoesNotExist = 1003,
};
// Builds on JSONWriter to provide support for serializing various objects
// used in the VM service protocol.
class JSONStream : ValueObject {
public:
explicit JSONStream(intptr_t buf_size = 256);
void 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 = false);
void SetupError();
void PrintError(intptr_t code, const char* details_format, ...)
PRINTF_ATTRIBUTE(3, 4);
void PostReply();
void set_id_zone(ServiceIdZone* id_zone) { id_zone_ = id_zone; }
ServiceIdZone* id_zone() { return id_zone_; }
TextBuffer* buffer() { return writer_.buffer(); }
const char* ToCString() { return writer_.ToCString(); }
void Steal(char** buffer, intptr_t* buffer_length) {
writer_.Steal(buffer, buffer_length);
}
void set_reply_port(Dart_Port port);
void SetParams(const char** param_keys,
const char** param_values,
intptr_t num_params);
Dart_Port reply_port() const { return reply_port_; }
intptr_t NumObjectParameters() const;
ObjectPtr GetObjectParameterKey(intptr_t i) const;
ObjectPtr GetObjectParameterValue(intptr_t i) const;
ObjectPtr LookupObjectParam(const char* key) const;
intptr_t num_params() const { return num_params_; }
const char* GetParamKey(intptr_t i) const { return param_keys_[i]; }
const char* GetParamValue(intptr_t i) const { return param_values_[i]; }
const char* LookupParam(const char* key) const;
bool HasParam(const char* key) const;
// Returns true if there is an param with key and value, false
// otherwise.
bool ParamIs(const char* key, const char* value) const;
const char* method() const { return method_; }
const char** param_keys() const { return param_keys_; }
const char** param_values() const { return param_values_; }
void set_offset(intptr_t value) {
ASSERT(value > 0);
offset_ = value;
}
void set_count(intptr_t value) {
ASSERT(value > 0);
count_ = value;
}
void ComputeOffsetAndCount(intptr_t length,
intptr_t* offset,
intptr_t* count);
// Append |serialized_object| to the stream.
void AppendSerializedObject(const char* serialized_object) {
writer_.AppendSerializedObject(serialized_object);
}
// Append |buffer| to the stream.
void AppendSerializedObject(const uint8_t* buffer, intptr_t buffer_length) {
writer_.AppendSerializedObject(buffer, buffer_length);
}
// Append |serialized_object| to the stream with |property_name|.
void AppendSerializedObject(const char* property_name,
const char* serialized_object) {
writer_.AppendSerializedObject(property_name, serialized_object);
}
void PrintCommaIfNeeded() { writer_.PrintCommaIfNeeded(); }
private:
void Clear() { writer_.Clear(); }
void PostNullReply(Dart_Port port);
void OpenObject(const char* property_name = NULL) {
writer_.OpenObject(property_name);
}
void CloseObject() { writer_.CloseObject(); }
void UncloseObject() { writer_.UncloseObject(); }
void OpenArray(const char* property_name = NULL) {
writer_.OpenArray(property_name);
}
void CloseArray() { writer_.CloseArray(); }
void PrintValueNull() { writer_.PrintValueNull(); }
void PrintValueBool(bool b) { writer_.PrintValueBool(b); }
void PrintValue(intptr_t i) { writer_.PrintValue(i); }
void PrintValue64(int64_t i) { writer_.PrintValue64(i); }
void PrintValueTimeMillis(int64_t millis) { writer_.PrintValue64(millis); }
void PrintValueTimeMicros(int64_t micros) { writer_.PrintValue64(micros); }
void PrintValue(double d) { writer_.PrintValue(d); }
void PrintValueBase64(const uint8_t* bytes, intptr_t length) {
writer_.PrintValueBase64(bytes, length);
}
void PrintValue(const char* s) { writer_.PrintValue(s); }
void PrintValueNoEscape(const char* s) { writer_.PrintValueNoEscape(s); }
bool PrintValueStr(const String& s, intptr_t offset, intptr_t count) {
return writer_.PrintValueStr(s, offset, count);
}
void PrintfValue(const char* format, ...) PRINTF_ATTRIBUTE(2, 3);
void VPrintfValue(const char* format, va_list args) {
writer_.VPrintfValue(format, args);
}
void PrintValue(const Object& o, bool ref = true);
void PrintValue(Breakpoint* bpt);
void PrintValue(TokenPosition tp);
void PrintValue(const ServiceEvent* event);
void PrintValue(Metric* metric);
void PrintValue(MessageQueue* queue);
void PrintValue(Isolate* isolate, bool ref = true);
void PrintValue(IsolateGroup* isolate, bool ref = true);
void PrintValue(ThreadRegistry* reg);
void PrintValue(Thread* thread);
void PrintValue(const TimelineEvent* timeline_event);
void PrintValue(const TimelineEventBlock* timeline_event_block);
void PrintValueVM(bool ref = true);
void PrintServiceId(const Object& o);
void PrintPropertyBool(const char* name, bool b) {
writer_.PrintPropertyBool(name, b);
}
void PrintProperty(const char* name, intptr_t i) {
writer_.PrintProperty(name, i);
}
void PrintProperty64(const char* name, int64_t i) {
writer_.PrintProperty64(name, i);
}
void PrintPropertyTimeMillis(const char* name, int64_t millis) {
writer_.PrintProperty64(name, millis);
}
void PrintPropertyTimeMicros(const char* name, int64_t micros) {
writer_.PrintProperty64(name, micros);
}
void PrintProperty(const char* name, double d) {
writer_.PrintProperty(name, d);
}
void PrintPropertyBase64(const char* name,
const uint8_t* bytes,
intptr_t length) {
writer_.PrintPropertyBase64(name, bytes, length);
}
void PrintProperty(const char* name, const char* s) {
writer_.PrintProperty(name, s);
}
bool PrintPropertyStr(const char* name,
const String& s,
intptr_t offset,
intptr_t count) {
return writer_.PrintPropertyStr(name, s, offset, count);
}
void PrintPropertyNoEscape(const char* name, const char* s) {
writer_.PrintPropertyNoEscape(name, s);
}
void PrintfProperty(const char* name, const char* format, ...)
PRINTF_ATTRIBUTE(3, 4);
void VPrintfProperty(const char* name, const char* format, va_list args) {
writer_.VPrintfProperty(name, format, args);
}
void PrintProperty(const char* name, const Object& o, bool ref = true);
void PrintProperty(const char* name, const ServiceEvent* event);
void PrintProperty(const char* name, Breakpoint* bpt);
void PrintProperty(const char* name, TokenPosition tp);
void PrintProperty(const char* name, Metric* metric);
void PrintProperty(const char* name, MessageQueue* queue);
void PrintProperty(const char* name, Isolate* isolate);
void PrintProperty(const char* name, ThreadRegistry* reg);
void PrintProperty(const char* name, Thread* thread);
void PrintProperty(const char* name, Zone* zone);
void PrintProperty(const char* name, const TimelineEvent* timeline_event);
void PrintProperty(const char* name,
const TimelineEventBlock* timeline_event_block);
void PrintPropertyVM(const char* name, bool ref = true);
void PrintPropertyName(const char* name) { writer_.PrintPropertyName(name); }
void AddEscapedUTF8String(const char* s, intptr_t len) {
writer_.AddEscapedUTF8String(s, len);
}
JSONWriter writer_;
// Default service id zone.
RingServiceIdZone default_id_zone_;
ServiceIdZone* id_zone_;
Dart_Port reply_port_;
Instance* seq_;
Array* parameter_keys_;
Array* parameter_values_;
const char* method_;
const char** param_keys_;
const char** param_values_;
intptr_t num_params_;
intptr_t offset_;
intptr_t count_;
int64_t setup_time_micros_;
friend class JSONObject;
friend class JSONArray;
friend class TimelineEvent;
};
class JSONObject : public ValueObject {
public:
explicit JSONObject(JSONStream* stream) : stream_(stream) {
stream_->OpenObject();
}
JSONObject(const JSONObject* obj, const char* name) : stream_(obj->stream_) {
stream_->OpenObject(name);
}
explicit JSONObject(const JSONArray* arr);
~JSONObject() { stream_->CloseObject(); }
void AddServiceId(const Object& o) const { stream_->PrintServiceId(o); }
void AddFixedServiceId(const char* format, ...) const PRINTF_ATTRIBUTE(2, 3);
void AddServiceId(const char* format, ...) const PRINTF_ATTRIBUTE(2, 3);
void AddLocation(
const Script& script,
TokenPosition token_pos,
TokenPosition end_token_pos = TokenPosition::kNoSource) const;
void AddLocation(const BreakpointLocation* bpt_loc) const;
void AddUnresolvedLocation(const BreakpointLocation* bpt_loc) const;
void AddProperty(const char* name, bool b) const {
stream_->PrintPropertyBool(name, b);
}
void AddProperty(const char* name, intptr_t i) const {
stream_->PrintProperty(name, i);
}
void AddProperty64(const char* name, int64_t i) const {
stream_->PrintProperty64(name, i);
}
void AddPropertyTimeMillis(const char* name, int64_t millis) const {
stream_->PrintPropertyTimeMillis(name, millis);
}
void AddPropertyTimeMicros(const char* name, int64_t micros) const {
stream_->PrintPropertyTimeMicros(name, micros);
}
void AddProperty(const char* name, double d) const {
stream_->PrintProperty(name, d);
}
void AddPropertyBase64(const char* name,
const uint8_t* bytes,
intptr_t length) const {
stream_->PrintPropertyBase64(name, bytes, length);
}
void AddProperty(const char* name, const char* s) const {
stream_->PrintProperty(name, s);
}
bool AddPropertyStr(const char* name,
const String& s,
intptr_t offset = 0,
intptr_t count = -1) const {
return stream_->PrintPropertyStr(name, s, offset, count);
}
void AddPropertyNoEscape(const char* name, const char* s) const {
stream_->PrintPropertyNoEscape(name, s);
}
void AddProperty(const char* name, const Object& obj, bool ref = true) const {
stream_->PrintProperty(name, obj, ref);
}
void AddProperty(const char* name, const ServiceEvent* event) const {
stream_->PrintProperty(name, event);
}
void AddProperty(const char* name, Breakpoint* bpt) const {
stream_->PrintProperty(name, bpt);
}
void AddProperty(const char* name, TokenPosition tp) const {
stream_->PrintProperty(name, tp);
}
void AddProperty(const char* name, Metric* metric) const {
stream_->PrintProperty(name, metric);
}
void AddProperty(const char* name, MessageQueue* queue) const {
stream_->PrintProperty(name, queue);
}
void AddProperty(const char* name, Isolate* isolate) const {
stream_->PrintProperty(name, isolate);
}
void AddProperty(const char* name, ThreadRegistry* reg) const {
stream_->PrintProperty(name, reg);
}
void AddProperty(const char* name, Thread* thread) const {
stream_->PrintProperty(name, thread);
}
void AddProperty(const char* name, Zone* zone) const {
stream_->PrintProperty(name, zone);
}
void AddProperty(const char* name,
const TimelineEvent* timeline_event) const {
stream_->PrintProperty(name, timeline_event);
}
void AddProperty(const char* name,
const TimelineEventBlock* timeline_event_block) const {
stream_->PrintProperty(name, timeline_event_block);
}
void AddPropertyVM(const char* name, bool ref = true) const {
stream_->PrintPropertyVM(name, ref);
}
void AddPropertyF(const char* name, const char* format, ...) const
PRINTF_ATTRIBUTE(3, 4);
private:
JSONStream* stream_;
friend class JSONArray;
DISALLOW_ALLOCATION();
DISALLOW_COPY_AND_ASSIGN(JSONObject);
};
class JSONArray : public ValueObject {
public:
explicit JSONArray(JSONStream* stream) : stream_(stream) {
stream_->OpenArray();
}
JSONArray(const JSONObject* obj, const char* name) : stream_(obj->stream_) {
stream_->OpenArray(name);
}
explicit JSONArray(const JSONArray* arr) : stream_(arr->stream_) {
stream_->OpenArray();
}
~JSONArray() { stream_->CloseArray(); }
void AddValueNull() const { stream_->PrintValueNull(); }
void AddValue(bool b) const { stream_->PrintValueBool(b); }
void AddValue(intptr_t i) const { stream_->PrintValue(i); }
void AddValue64(int64_t i) const { stream_->PrintValue64(i); }
void AddValueTimeMillis(int64_t millis) const {
stream_->PrintValueTimeMillis(millis);
}
void AddValueTimeMicros(int64_t micros) const {
stream_->PrintValueTimeMicros(micros);
}
void AddValue(double d) const { stream_->PrintValue(d); }
void AddValue(const char* s) const { stream_->PrintValue(s); }
void AddValue(const Object& obj, bool ref = true) const {
stream_->PrintValue(obj, ref);
}
void AddValue(Isolate* isolate, bool ref = true) const {
stream_->PrintValue(isolate, ref);
}
void AddValue(IsolateGroup* isolate_group, bool ref = true) const {
stream_->PrintValue(isolate_group, ref);
}
void AddValue(ThreadRegistry* reg) const { stream_->PrintValue(reg); }
void AddValue(Thread* thread) const { stream_->PrintValue(thread); }
void AddValue(Breakpoint* bpt) const { stream_->PrintValue(bpt); }
void AddValue(TokenPosition tp) const { stream_->PrintValue(tp); }
void AddValue(const ServiceEvent* event) const { stream_->PrintValue(event); }
void AddValue(Metric* metric) const { stream_->PrintValue(metric); }
void AddValue(MessageQueue* queue) const { stream_->PrintValue(queue); }
void AddValue(const TimelineEvent* timeline_event) const {
stream_->PrintValue(timeline_event);
}
void AddValue(const TimelineEventBlock* timeline_event_block) const {
stream_->PrintValue(timeline_event_block);
}
void AddValueVM(bool ref = true) const { stream_->PrintValueVM(ref); }
void AddValueF(const char* format, ...) const PRINTF_ATTRIBUTE(2, 3);
private:
JSONStream* stream_;
friend class JSONObject;
DISALLOW_ALLOCATION();
DISALLOW_COPY_AND_ASSIGN(JSONArray);
};
} // namespace dart
#endif // RUNTIME_VM_JSON_STREAM_H_