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LeafOS / LeafOS-Project / android_frameworks_base / 48695cb07352cb3033dc11bb828e1ca947dfc04d / . / tools / stats_log_api_gen / Collation.cpp
blob: a230de46dcf32bc9d463cc0e64247bbfe6170358 [file] [log] [blame]
/*
* Copyright (C) 2017, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "Collation.h"
#include <stdio.h>
#include <map>
#include "frameworks/base/cmds/statsd/src/atoms.pb.h"
namespace android {
namespace stats_log_api_gen {
using google::protobuf::EnumDescriptor;
using google::protobuf::FieldDescriptor;
using google::protobuf::FileDescriptor;
using google::protobuf::SourceLocation;
using std::make_shared;
using std::map;
const bool dbg = false;
//
// AtomDecl class
//
AtomDecl::AtomDecl() : code(0), name() {
}
AtomDecl::AtomDecl(const AtomDecl& that)
: code(that.code),
name(that.name),
message(that.message),
fields(that.fields),
fieldNumberToAnnotations(that.fieldNumberToAnnotations),
primaryFields(that.primaryFields),
exclusiveField(that.exclusiveField),
defaultState(that.defaultState),
triggerStateReset(that.triggerStateReset),
nested(that.nested),
uidField(that.uidField) {
}
AtomDecl::AtomDecl(int c, const string& n, const string& m) : code(c), name(n), message(m) {
}
AtomDecl::~AtomDecl() {
}
/**
* Print an error message for a FieldDescriptor, including the file name and
* line number.
*/
static void print_error(const FieldDescriptor* field, const char* format, ...) {
const Descriptor* message = field->containing_type();
const FileDescriptor* file = message->file();
SourceLocation loc;
if (field->GetSourceLocation(&loc)) {
// TODO: this will work if we can figure out how to pass
// --include_source_info to protoc
fprintf(stderr, "%s:%d: ", file->name().c_str(), loc.start_line);
} else {
fprintf(stderr, "%s: ", file->name().c_str());
}
va_list args;
va_start(args, format);
vfprintf(stderr, format, args);
va_end(args);
}
/**
* Convert a protobuf type into a java type.
*/
static java_type_t java_type(const FieldDescriptor* field) {
int protoType = field->type();
switch (protoType) {
case FieldDescriptor::TYPE_DOUBLE:
return JAVA_TYPE_DOUBLE;
case FieldDescriptor::TYPE_FLOAT:
return JAVA_TYPE_FLOAT;
case FieldDescriptor::TYPE_INT64:
return JAVA_TYPE_LONG;
case FieldDescriptor::TYPE_UINT64:
return JAVA_TYPE_LONG;
case FieldDescriptor::TYPE_INT32:
return JAVA_TYPE_INT;
case FieldDescriptor::TYPE_FIXED64:
return JAVA_TYPE_LONG;
case FieldDescriptor::TYPE_FIXED32:
return JAVA_TYPE_INT;
case FieldDescriptor::TYPE_BOOL:
return JAVA_TYPE_BOOLEAN;
case FieldDescriptor::TYPE_STRING:
return JAVA_TYPE_STRING;
case FieldDescriptor::TYPE_GROUP:
return JAVA_TYPE_UNKNOWN;
case FieldDescriptor::TYPE_MESSAGE:
// TODO: not the final package name
if (field->message_type()->full_name() == "android.os.statsd.AttributionNode") {
return JAVA_TYPE_ATTRIBUTION_CHAIN;
} else if (field->message_type()->full_name() == "android.os.statsd.KeyValuePair") {
return JAVA_TYPE_KEY_VALUE_PAIR;
} else if (field->options().GetExtension(os::statsd::log_mode) ==
os::statsd::LogMode::MODE_BYTES) {
return JAVA_TYPE_BYTE_ARRAY;
} else {
return JAVA_TYPE_OBJECT;
}
case FieldDescriptor::TYPE_BYTES:
return JAVA_TYPE_BYTE_ARRAY;
case FieldDescriptor::TYPE_UINT32:
return JAVA_TYPE_INT;
case FieldDescriptor::TYPE_ENUM:
return JAVA_TYPE_ENUM;
case FieldDescriptor::TYPE_SFIXED32:
return JAVA_TYPE_INT;
case FieldDescriptor::TYPE_SFIXED64:
return JAVA_TYPE_LONG;
case FieldDescriptor::TYPE_SINT32:
return JAVA_TYPE_INT;
case FieldDescriptor::TYPE_SINT64:
return JAVA_TYPE_LONG;
default:
return JAVA_TYPE_UNKNOWN;
}
}
/**
* Gather the enums info.
*/
void collate_enums(const EnumDescriptor& enumDescriptor, AtomField* atomField) {
for (int i = 0; i < enumDescriptor.value_count(); i++) {
atomField->enumValues[enumDescriptor.value(i)->number()] =
enumDescriptor.value(i)->name().c_str();
}
}
static void addAnnotationToAtomDecl(AtomDecl* atomDecl, const int fieldNumber,
const AnnotationId annotationId,
const AnnotationType annotationType,
const AnnotationValue annotationValue) {
if (dbg) {
printf(" Adding annotation to %s: [%d] = {id: %d, type: %d}\n", atomDecl->name.c_str(),
fieldNumber, annotationId, annotationType);
}
atomDecl->fieldNumberToAnnotations[fieldNumber].insert(
make_shared<Annotation>(annotationId, atomDecl->code, annotationType, annotationValue));
}
static int collate_field_annotations(AtomDecl* atomDecl, const FieldDescriptor* field,
const int fieldNumber, const java_type_t& javaType) {
int errorCount = 0;
if (field->options().HasExtension(os::statsd::state_field_option)) {
const os::statsd::StateAtomFieldOption& stateFieldOption =
field->options().GetExtension(os::statsd::state_field_option);
const bool primaryField = stateFieldOption.primary_field();
const bool exclusiveState = stateFieldOption.exclusive_state();
const bool primaryFieldFirstUid = stateFieldOption.primary_field_first_uid();
// Check the field is only one of primaryField, exclusiveState, or primaryFieldFirstUid.
if (primaryField + primaryFieldFirstUid + exclusiveState > 1) {
print_error(field,
"Field can be max 1 of primary_field, exclusive_state, "
"or primary_field_first_uid: '%s'\n",
atomDecl->message.c_str());
errorCount++;
}
if (primaryField) {
if (javaType == JAVA_TYPE_UNKNOWN || javaType == JAVA_TYPE_ATTRIBUTION_CHAIN ||
javaType == JAVA_TYPE_OBJECT || javaType == JAVA_TYPE_BYTE_ARRAY) {
print_error(field, "Invalid primary state field: '%s'\n",
atomDecl->message.c_str());
errorCount++;
} else {
atomDecl->primaryFields.push_back(fieldNumber);
addAnnotationToAtomDecl(atomDecl, fieldNumber, ANNOTATION_ID_PRIMARY_FIELD,
ANNOTATION_TYPE_BOOL, AnnotationValue(true));
}
}
if (primaryFieldFirstUid) {
if (javaType != JAVA_TYPE_ATTRIBUTION_CHAIN) {
print_error(field,
"PRIMARY_FIELD_FIRST_UID annotation is only for AttributionChains: "
"'%s'\n",
atomDecl->message.c_str());
errorCount++;
} else {
atomDecl->primaryFields.push_back(FIRST_UID_IN_CHAIN_ID);
addAnnotationToAtomDecl(atomDecl, fieldNumber,
ANNOTATION_ID_PRIMARY_FIELD_FIRST_UID, ANNOTATION_TYPE_BOOL,
AnnotationValue(true));
}
}
if (exclusiveState) {
if (javaType == JAVA_TYPE_UNKNOWN || javaType == JAVA_TYPE_ATTRIBUTION_CHAIN ||
javaType == JAVA_TYPE_OBJECT || javaType == JAVA_TYPE_BYTE_ARRAY) {
print_error(field, "Invalid exclusive state field: '%s'\n",
atomDecl->message.c_str());
errorCount++;
}
if (atomDecl->exclusiveField != 0) {
print_error(field,
"Cannot have more than one exclusive state field in an "
"atom: '%s'\n",
atomDecl->message.c_str());
errorCount++;
} else {
atomDecl->exclusiveField = fieldNumber;
addAnnotationToAtomDecl(atomDecl, fieldNumber, ANNOTATION_ID_EXCLUSIVE_STATE,
ANNOTATION_TYPE_BOOL, AnnotationValue(true));
}
if (stateFieldOption.has_default_state_value()) {
const int defaultState = stateFieldOption.default_state_value();
atomDecl->defaultState = defaultState;
addAnnotationToAtomDecl(atomDecl, fieldNumber, ANNOTATION_ID_DEFAULT_STATE,
ANNOTATION_TYPE_INT, AnnotationValue(defaultState));
}
if (stateFieldOption.has_trigger_state_reset_value()) {
const int triggerStateReset = stateFieldOption.trigger_state_reset_value();
atomDecl->triggerStateReset = triggerStateReset;
addAnnotationToAtomDecl(atomDecl, fieldNumber, ANNOTATION_ID_TRIGGER_STATE_RESET,
ANNOTATION_TYPE_INT, AnnotationValue(triggerStateReset));
}
if (stateFieldOption.has_nested()) {
const bool nested = stateFieldOption.nested();
atomDecl->nested = nested;
addAnnotationToAtomDecl(atomDecl, fieldNumber, ANNOTATION_ID_STATE_NESTED,
ANNOTATION_TYPE_BOOL, AnnotationValue(nested));
}
}
}
if (field->options().GetExtension(os::statsd::is_uid) == true) {
if (javaType != JAVA_TYPE_INT) {
print_error(field, "is_uid annotation can only be applied to int32 fields: '%s'\n",
atomDecl->message.c_str());
errorCount++;
}
if (atomDecl->uidField == 0) {
atomDecl->uidField = fieldNumber;
addAnnotationToAtomDecl(atomDecl, fieldNumber, ANNOTATION_ID_IS_UID,
ANNOTATION_TYPE_BOOL, AnnotationValue(true));
} else {
print_error(field,
"Cannot have more than one field in an atom with is_uid "
"annotation: '%s'\n",
atomDecl->message.c_str());
errorCount++;
}
}
return errorCount;
}
/**
* Gather the info about an atom proto.
*/
int collate_atom(const Descriptor* atom, AtomDecl* atomDecl, vector<java_type_t>* signature) {
int errorCount = 0;
// Build a sorted list of the fields. Descriptor has them in source file
// order.
map<int, const FieldDescriptor*> fields;
for (int j = 0; j < atom->field_count(); j++) {
const FieldDescriptor* field = atom->field(j);
fields[field->number()] = field;
}
// Check that the parameters start at 1 and go up sequentially.
int expectedNumber = 1;
for (map<int, const FieldDescriptor*>::const_iterator it = fields.begin(); it != fields.end();
it++) {
const int number = it->first;
const FieldDescriptor* field = it->second;
if (number != expectedNumber) {
print_error(field,
"Fields must be numbered consecutively starting at 1:"
" '%s' is %d but should be %d\n",
field->name().c_str(), number, expectedNumber);
errorCount++;
expectedNumber = number;
continue;
}
expectedNumber++;
}
// Check that only allowed types are present. Remove any invalid ones.
for (map<int, const FieldDescriptor*>::const_iterator it = fields.begin(); it != fields.end();
it++) {
const FieldDescriptor* field = it->second;
bool isBinaryField = field->options().GetExtension(os::statsd::log_mode) ==
os::statsd::LogMode::MODE_BYTES;
java_type_t javaType = java_type(field);
if (javaType == JAVA_TYPE_UNKNOWN) {
print_error(field, "Unknown type for field: %s\n", field->name().c_str());
errorCount++;
continue;
} else if (javaType == JAVA_TYPE_OBJECT && atomDecl->code < PULL_ATOM_START_ID) {
// Allow attribution chain, but only at position 1.
print_error(field, "Message type not allowed for field in pushed atoms: %s\n",
field->name().c_str());
errorCount++;
continue;
} else if (javaType == JAVA_TYPE_BYTE_ARRAY && !isBinaryField) {
print_error(field, "Raw bytes type not allowed for field: %s\n", field->name().c_str());
errorCount++;
continue;
}
if (isBinaryField && javaType != JAVA_TYPE_BYTE_ARRAY) {
print_error(field, "Cannot mark field %s as bytes.\n", field->name().c_str());
errorCount++;
continue;
}
// Doubles are not supported yet.
if (javaType == JAVA_TYPE_DOUBLE) {
print_error(field,
"Doubles are not supported in atoms. Please change field %s "
"to float\n",
field->name().c_str());
errorCount++;
continue;
}
if (field->is_repeated() &&
!(javaType == JAVA_TYPE_ATTRIBUTION_CHAIN || javaType == JAVA_TYPE_KEY_VALUE_PAIR)) {
print_error(field,
"Repeated fields are not supported in atoms. Please make "
"field %s not "
"repeated.\n",
field->name().c_str());
errorCount++;
continue;
}
}
// Check that if there's an attribution chain, it's at position 1.
for (map<int, const FieldDescriptor*>::const_iterator it = fields.begin(); it != fields.end();
it++) {
int number = it->first;
if (number != 1) {
const FieldDescriptor* field = it->second;
java_type_t javaType = java_type(field);
if (javaType == JAVA_TYPE_ATTRIBUTION_CHAIN) {
print_error(field,
"AttributionChain fields must have field id 1, in message: '%s'\n",
atom->name().c_str());
errorCount++;
}
}
}
// Build the type signature and the atom data.
for (map<int, const FieldDescriptor*>::const_iterator it = fields.begin(); it != fields.end();
it++) {
const FieldDescriptor* field = it->second;
java_type_t javaType = java_type(field);
bool isBinaryField = field->options().GetExtension(os::statsd::log_mode) ==
os::statsd::LogMode::MODE_BYTES;
AtomField atField(field->name(), javaType);
if (javaType == JAVA_TYPE_ENUM) {
// All enums are treated as ints when it comes to function signatures.
collate_enums(*field->enum_type(), &atField);
}
// Generate signature for pushed atoms
if (atomDecl->code < PULL_ATOM_START_ID) {
if (javaType == JAVA_TYPE_ENUM) {
// All enums are treated as ints when it comes to function signatures.
signature->push_back(JAVA_TYPE_INT);
} else if (javaType == JAVA_TYPE_OBJECT && isBinaryField) {
signature->push_back(JAVA_TYPE_BYTE_ARRAY);
} else {
signature->push_back(javaType);
}
}
atomDecl->fields.push_back(atField);
errorCount += collate_field_annotations(atomDecl, field, it->first, javaType);
}
return errorCount;
}
// This function flattens the fields of the AttributionNode proto in an Atom
// proto and generates the corresponding atom decl and signature.
bool get_non_chained_node(const Descriptor* atom, AtomDecl* atomDecl,
vector<java_type_t>* signature) {
// Build a sorted list of the fields. Descriptor has them in source file
// order.
map<int, const FieldDescriptor*> fields;
for (int j = 0; j < atom->field_count(); j++) {
const FieldDescriptor* field = atom->field(j);
fields[field->number()] = field;
}
AtomDecl attributionDecl;
vector<java_type_t> attributionSignature;
collate_atom(android::os::statsd::AttributionNode::descriptor(), &attributionDecl,
&attributionSignature);
// Build the type signature and the atom data.
bool has_attribution_node = false;
for (map<int, const FieldDescriptor*>::const_iterator it = fields.begin(); it != fields.end();
it++) {
const FieldDescriptor* field = it->second;
java_type_t javaType = java_type(field);
if (javaType == JAVA_TYPE_ATTRIBUTION_CHAIN) {
atomDecl->fields.insert(atomDecl->fields.end(), attributionDecl.fields.begin(),
attributionDecl.fields.end());
signature->insert(signature->end(), attributionSignature.begin(),
attributionSignature.end());
has_attribution_node = true;
} else {
AtomField atField(field->name(), javaType);
if (javaType == JAVA_TYPE_ENUM) {
// All enums are treated as ints when it comes to function signatures.
signature->push_back(JAVA_TYPE_INT);
collate_enums(*field->enum_type(), &atField);
} else {
signature->push_back(javaType);
}
atomDecl->fields.push_back(atField);
}
}
return has_attribution_node;
}
static void populateFieldNumberToAtomDeclSet(const shared_ptr<AtomDecl>& atomDecl,
FieldNumberToAtomDeclSet* fieldNumberToAtomDeclSet) {
for (FieldNumberToAnnotations::const_iterator it = atomDecl->fieldNumberToAnnotations.begin();
it != atomDecl->fieldNumberToAnnotations.end(); it++) {
const int fieldNumber = it->first;
(*fieldNumberToAtomDeclSet)[fieldNumber].insert(atomDecl);
}
}
/**
* Gather the info about the atoms.
*/
int collate_atoms(const Descriptor* descriptor, const string& moduleName, Atoms* atoms) {
int errorCount = 0;
for (int i = 0; i < descriptor->field_count(); i++) {
const FieldDescriptor* atomField = descriptor->field(i);
if (moduleName != DEFAULT_MODULE_NAME) {
const int moduleCount = atomField->options().ExtensionSize(os::statsd::module);
int j;
for (j = 0; j < moduleCount; ++j) {
const string atomModuleName =
atomField->options().GetExtension(os::statsd::module, j);
if (atomModuleName == moduleName) {
break;
}
}
// This atom is not in the module we're interested in; skip it.
if (moduleCount == j) {
if (dbg) {
printf(" Skipping %s (%d)\n", atomField->name().c_str(), atomField->number());
}
continue;
}
}
if (dbg) {
printf(" %s (%d)\n", atomField->name().c_str(), atomField->number());
}
// StatsEvent only has one oneof, which contains only messages. Don't allow
// other types.
if (atomField->type() != FieldDescriptor::TYPE_MESSAGE) {
print_error(atomField,
"Bad type for atom. StatsEvent can only have message type "
"fields: %s\n",
atomField->name().c_str());
errorCount++;
continue;
}
const Descriptor* atom = atomField->message_type();
shared_ptr<AtomDecl> atomDecl =
make_shared<AtomDecl>(atomField->number(), atomField->name(), atom->name());
if (atomDecl->code < PULL_ATOM_START_ID &&
atomField->options().GetExtension(os::statsd::truncate_timestamp)) {
addAnnotationToAtomDecl(atomDecl.get(), ATOM_ID_FIELD_NUMBER,
ANNOTATION_ID_TRUNCATE_TIMESTAMP, ANNOTATION_TYPE_BOOL,
AnnotationValue(true));
if (dbg) {
printf("%s can have timestamp truncated\n", atomField->name().c_str());
}
}
vector<java_type_t> signature;
errorCount += collate_atom(atom, atomDecl.get(), &signature);
if (atomDecl->primaryFields.size() != 0 && atomDecl->exclusiveField == 0) {
print_error(atomField, "Cannot have a primary field without an exclusive field: %s\n",
atomField->name().c_str());
errorCount++;
continue;
}
FieldNumberToAtomDeclSet& fieldNumberToAtomDeclSet = atoms->signatureInfoMap[signature];
populateFieldNumberToAtomDeclSet(atomDecl, &fieldNumberToAtomDeclSet);
atoms->decls.insert(atomDecl);
shared_ptr<AtomDecl> nonChainedAtomDecl =
make_shared<AtomDecl>(atomField->number(), atomField->name(), atom->name());
vector<java_type_t> nonChainedSignature;
if (get_non_chained_node(atom, nonChainedAtomDecl.get(), &nonChainedSignature)) {
FieldNumberToAtomDeclSet& nonChainedFieldNumberToAtomDeclSet =
atoms->nonChainedSignatureInfoMap[nonChainedSignature];
populateFieldNumberToAtomDeclSet(nonChainedAtomDecl,
&nonChainedFieldNumberToAtomDeclSet);
atoms->non_chained_decls.insert(nonChainedAtomDecl);
}
}
if (dbg) {
printf("signatures = [\n");
for (SignatureInfoMap::const_iterator it = atoms->signatureInfoMap.begin();
it != atoms->signatureInfoMap.end(); it++) {
printf(" ");
for (vector<java_type_t>::const_iterator jt = it->first.begin(); jt != it->first.end();
jt++) {
printf(" %d", (int)*jt);
}
printf("\n");
}
printf("]\n");
}
return errorCount;
}
} // namespace stats_log_api_gen
} // namespace android