src/trace_processor/sqlite/sqlite_table.h - third_party/perfetto - Git at Google

 /*
  * Copyright (C) 2018 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.
  */

 #ifndef SRC_TRACE_PROCESSOR_SQLITE_SQLITE_TABLE_H_
 #define SRC_TRACE_PROCESSOR_SQLITE_SQLITE_TABLE_H_

 #include <sqlite3.h>

 #include <functional>
 #include <memory>
 #include <string>
 #include <vector>

 #include "perfetto/ext/base/optional.h"
 #include "perfetto/ext/base/utils.h"
 #include "perfetto/trace_processor/basic_types.h"
 #include "perfetto/trace_processor/status.h"
 #include "src/trace_processor/sqlite/query_constraints.h"

 namespace perfetto {
 namespace trace_processor {

 class TraceStorage;

 // Abstract base class representing a SQLite virtual table. Implements the
 // common bookeeping required across all tables and allows subclasses to
 // implement a friendlier API than that required by SQLite.
 class SqliteTable : public sqlite3_vtab {
  public:
   template <typename Context>
   using Factory =
       std::function<std::unique_ptr<SqliteTable>(sqlite3*, Context)>;

   // Describes a column of this table.
   class Column {
    public:
     Column(size_t idx,
            std::string name,
            SqlValue::Type type,
            bool hidden = false);

     size_t index() const { return index_; }
     const std::string& name() const { return name_; }
     SqlValue::Type type() const { return type_; }
     bool hidden() const { return hidden_; }

    private:
     size_t index_ = 0;
     std::string name_;
     SqlValue::Type type_ = SqlValue::Type::kNull;
     bool hidden_ = false;
   };

   // When set it logs all BestIndex and Filter actions on the console.
   static bool debug;

   // Public for unique_ptr destructor calls.
   virtual ~SqliteTable();

   // Abstract base class representing an SQLite Cursor. Presents a friendlier
   // API for subclasses to implement.
   class Cursor : public sqlite3_vtab_cursor {
    public:
     Cursor(SqliteTable* table);
     virtual ~Cursor();

     // Methods to be implemented by derived table classes.

     // Called to intialise the cursor with the constraints of the query.
     virtual int Filter(const QueryConstraints& qc, sqlite3_value**) = 0;

     // Called to forward the cursor to the next row in the table.
     virtual int Next() = 0;

     // Called to check if the cursor has reached eof. Column will be called iff
     // this method returns true.
     virtual int Eof() = 0;

     // Used to extract the value from the column at index |N|.
     virtual int Column(sqlite3_context* context, int N) = 0;

     // Optional methods to implement.
     virtual int RowId(sqlite3_int64*);

    protected:
     Cursor(Cursor&) = delete;
     Cursor& operator=(const Cursor&) = delete;

     Cursor(Cursor&&) noexcept = default;
     Cursor& operator=(Cursor&&) = default;

    private:
     friend class SqliteTable;

     SqliteTable* table_ = nullptr;
   };

   // The schema of the table. Created by subclasses to allow the table class to
   // do filtering and inform SQLite about the CREATE table statement.
   class Schema {
    public:
     Schema();
     Schema(std::vector<Column>, std::vector<size_t> primary_keys);

     // This class is explicitly copiable.
     Schema(const Schema&);
     Schema& operator=(const Schema& t);

     std::string ToCreateTableStmt() const;

     const std::vector<Column>& columns() const { return columns_; }
     const std::vector<size_t> primary_keys() { return primary_keys_; }

    private:
     // The names and types of the columns of the table.
     std::vector<Column> columns_;

     // The primary keys of the table given by an offset into |columns|.
     std::vector<size_t> primary_keys_;
   };

  protected:
   // Populated by a BestIndex call to allow subclasses to tweak SQLite's
   // handling of sets of constraints.
   struct BestIndexInfo {
     // Contains info about a single constraint.
     struct ConstraintInfo {
       // Gives the index of this constraint in the QueryConstraints class.
       uint32_t qc_idx = 0;

       // Indicates whether this constraint should be removed from the
       // QueryConstraint class when passed to SqliteTable::Filter.
       bool prune = false;

       // Indiciates whether SQLite should omit double checking this constraint.
       //
       // If |prune| is set to true, this value will be ignored and SQLite will
       // be told that it can omit double checking (i.e. this value will
       // implicitly be taken to be true).
       bool sqlite_omit = false;
     };

     // Stores the estimated cost of this query.
     uint32_t estimated_cost = 0;

     // Stores the information about each constraint.
     std::vector<ConstraintInfo> constraint_info;

     // Indicates that all the order by constraints should be pruned. This should
     // be set to true if the table is exactly ordered by the order by terms in
     // QueryConstraints.
     bool prune_order_by = false;

     // Indicates that SQLite should not double check the result of the order by
     // clause.
     //
     // If |prune_order_by| is set to true, this value will be ignored and SQLite
     // will be told that it can omit double checking (i.e. this value will
     // implicitly be taken to be true).
     bool sqlite_omit_order_by = false;
   };

   template <typename Context>
   struct TableDescriptor {
     SqliteTable::Factory<Context> factory;
     Context context;
     std::string name;
     sqlite3_module module = {};
   };

   SqliteTable();

   // Called by derived classes to register themselves with the SQLite db.
   // |read_write| specifies whether the table can also be written to.
   // |requires_args| should be true if the table requires arguments in order to
   // be instantiated.
   // Note: this function is inlined here because we use the TTable template to
   // devirtualise the function calls.
   template <typename TTable, typename Context = const TraceStorage*>
   static void Register(sqlite3* db,
                        Context ctx,
                        const std::string& table_name,
                        bool read_write = false,
                        bool requires_args = false) {
     using TCursor = typename TTable::Cursor;

     std::unique_ptr<TableDescriptor<Context>> desc(
         new TableDescriptor<Context>());
     desc->context = std::move(ctx);
     desc->factory = GetFactory<TTable, Context>();
     desc->name = table_name;
     sqlite3_module* module = &desc->module;
     memset(module, 0, sizeof(*module));

     auto create_fn = [](sqlite3* xdb, void* arg, int argc,
                         const char* const* argv, sqlite3_vtab** tab,
                         char** pzErr) {
       const auto* xdesc = static_cast<const TableDescriptor<Context>*>(arg);
       auto table = xdesc->factory(xdb, std::move(xdesc->context));
       table->name_ = xdesc->name;

       Schema schema;
       util::Status status = table->Init(argc, argv, &schema);
       if (!status.ok()) {
         *pzErr = sqlite3_mprintf("%s", status.c_message());
         return SQLITE_ERROR;
       }

       auto create_stmt = schema.ToCreateTableStmt();
       PERFETTO_DLOG("Create table statement: %s", create_stmt.c_str());

       int res = sqlite3_declare_vtab(xdb, create_stmt.c_str());
       if (res != SQLITE_OK)
         return res;

       // Freed in xDisconnect().
       table->schema_ = std::move(schema);
       *tab = table.release();

       return SQLITE_OK;
     };
     auto destroy_fn = [](sqlite3_vtab* t) {
       delete static_cast<TTable*>(t);
       return SQLITE_OK;
     };

     module->xCreate = create_fn;
     module->xConnect = create_fn;
     module->xDisconnect = destroy_fn;
     module->xDestroy = destroy_fn;
     module->xOpen = [](sqlite3_vtab* t, sqlite3_vtab_cursor** c) {
       return static_cast<TTable*>(t)->OpenInternal(c);
     };
     module->xClose = [](sqlite3_vtab_cursor* c) {
       delete static_cast<TCursor*>(c);
       return SQLITE_OK;
     };
     module->xBestIndex = [](sqlite3_vtab* t, sqlite3_index_info* i) {
       return static_cast<TTable*>(t)->BestIndexInternal(i);
     };
     module->xFilter = [](sqlite3_vtab_cursor* c, int i, const char* s, int a,
                          sqlite3_value** v) {
       const auto& qc =
           static_cast<Cursor*>(c)->table_->ParseConstraints(i, s, a);
       return static_cast<TCursor*>(c)->Filter(qc, v);
     };
     module->xNext = [](sqlite3_vtab_cursor* c) {
       return static_cast<TCursor*>(c)->Next();
     };
     module->xEof = [](sqlite3_vtab_cursor* c) {
       return static_cast<TCursor*>(c)->Eof();
     };
     module->xColumn = [](sqlite3_vtab_cursor* c, sqlite3_context* a, int b) {
       return static_cast<TCursor*>(c)->Column(a, b);
     };
     module->xRowid = [](sqlite3_vtab_cursor* c, sqlite3_int64* r) {
       return static_cast<TCursor*>(c)->RowId(r);
     };
     module->xFindFunction =
         [](sqlite3_vtab* t, int, const char* name,
            void (**fn)(sqlite3_context*, int, sqlite3_value**), void** args) {
           return static_cast<TTable*>(t)->FindFunction(name, fn, args);
         };

     if (read_write) {
       module->xUpdate = [](sqlite3_vtab* t, int a, sqlite3_value** v,
                            sqlite3_int64* r) {
         return static_cast<TTable*>(t)->Update(a, v, r);
       };
     }

     int res = sqlite3_create_module_v2(
         db, table_name.c_str(), module, desc.release(),
         [](void* arg) { delete static_cast<TableDescriptor<Context>*>(arg); });
     PERFETTO_CHECK(res == SQLITE_OK);

     // Register virtual tables into an internal 'perfetto_tables' table. This is
     // used for iterating through all the tables during a database export. Note
     // that virtual tables requiring arguments aren't registered because they
     // can't be automatically instantiated for exporting.
     if (!requires_args) {
       char* insert_sql = sqlite3_mprintf(
           "INSERT INTO perfetto_tables(name) VALUES('%q')", table_name.c_str());
       char* error = nullptr;
       sqlite3_exec(db, insert_sql, nullptr, nullptr, &error);
       sqlite3_free(insert_sql);
       if (error) {
         PERFETTO_ELOG("Error registering table: %s", error);
         sqlite3_free(error);
       }
     }
   }

   // Methods to be implemented by derived table classes.
   virtual util::Status Init(int argc, const char* const* argv, Schema*) = 0;
   virtual std::unique_ptr<Cursor> CreateCursor() = 0;
   virtual int BestIndex(const QueryConstraints& qc, BestIndexInfo* info) = 0;

   // Optional metods to implement.
   using FindFunctionFn = void (**)(sqlite3_context*, int, sqlite3_value**);
   virtual int FindFunction(const char* name, FindFunctionFn fn, void** args);

   // At registration time, the function should also pass true for |read_write|.
   virtual int Update(int, sqlite3_value**, sqlite3_int64*);

   void SetErrorMessage(char* error) {
     sqlite3_free(zErrMsg);
     zErrMsg = error;
   }

   const Schema& schema() const { return schema_; }
   const std::string& name() const { return name_; }

  private:
   template <typename TableType, typename Context>
   static Factory<Context> GetFactory() {
     return [](sqlite3* db, Context ctx) {
       return std::unique_ptr<SqliteTable>(new TableType(db, std::move(ctx)));
     };
   }

   const QueryConstraints& ParseConstraints(int idxNum,
                                            const char* idxStr,
                                            int argc);

   // Overriden functions from sqlite3_vtab.
   int OpenInternal(sqlite3_vtab_cursor**);
   int BestIndexInternal(sqlite3_index_info*);

   SqliteTable(const SqliteTable&) = delete;
   SqliteTable& operator=(const SqliteTable&) = delete;

   std::string name_;
   Schema schema_;

   QueryConstraints qc_cache_;
   int qc_hash_ = 0;
   int best_index_num_ = 0;
 };

 }  // namespace trace_processor
 }  // namespace perfetto

 #endif  // SRC_TRACE_PROCESSOR_SQLITE_SQLITE_TABLE_H_
	/*
	* Copyright (C) 2018 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.
	*/

	#ifndef SRC_TRACE_PROCESSOR_SQLITE_SQLITE_TABLE_H_
	#define SRC_TRACE_PROCESSOR_SQLITE_SQLITE_TABLE_H_

	#include <sqlite3.h>

	#include <functional>
	#include <memory>
	#include <string>
	#include <vector>

	#include "perfetto/ext/base/optional.h"
	#include "perfetto/ext/base/utils.h"
	#include "perfetto/trace_processor/basic_types.h"
	#include "perfetto/trace_processor/status.h"
	#include "src/trace_processor/sqlite/query_constraints.h"

	namespace perfetto {
	namespace trace_processor {

	class TraceStorage;

	// Abstract base class representing a SQLite virtual table. Implements the
	// common bookeeping required across all tables and allows subclasses to
	// implement a friendlier API than that required by SQLite.
	class SqliteTable : public sqlite3_vtab {
	public:
	template <typename Context>
	using Factory =
	std::function<std::unique_ptr<SqliteTable>(sqlite3*, Context)>;

	// Describes a column of this table.
	class Column {
	public:
	Column(size_t idx,
	std::string name,
	SqlValue::Type type,
	bool hidden = false);

	size_t index() const { return index_; }
	const std::string& name() const { return name_; }
	SqlValue::Type type() const { return type_; }
	bool hidden() const { return hidden_; }

	private:
	size_t index_ = 0;
	std::string name_;
	SqlValue::Type type_ = SqlValue::Type::kNull;
	bool hidden_ = false;
	};

	// When set it logs all BestIndex and Filter actions on the console.
	static bool debug;

	// Public for unique_ptr destructor calls.
	virtual ~SqliteTable();

	// Abstract base class representing an SQLite Cursor. Presents a friendlier
	// API for subclasses to implement.
	class Cursor : public sqlite3_vtab_cursor {
	public:
	Cursor(SqliteTable* table);
	virtual ~Cursor();

	// Methods to be implemented by derived table classes.

	// Called to intialise the cursor with the constraints of the query.
	virtual int Filter(const QueryConstraints& qc, sqlite3_value**) = 0;

	// Called to forward the cursor to the next row in the table.
	virtual int Next() = 0;

	// Called to check if the cursor has reached eof. Column will be called iff
	// this method returns true.
	virtual int Eof() = 0;

	// Used to extract the value from the column at index \|N\|.
	virtual int Column(sqlite3_context* context, int N) = 0;

	// Optional methods to implement.
	virtual int RowId(sqlite3_int64*);

	protected:
	Cursor(Cursor&) = delete;
	Cursor& operator=(const Cursor&) = delete;

	Cursor(Cursor&&) noexcept = default;
	Cursor& operator=(Cursor&&) = default;

	private:
	friend class SqliteTable;

	SqliteTable* table_ = nullptr;
	};

	// The schema of the table. Created by subclasses to allow the table class to
	// do filtering and inform SQLite about the CREATE table statement.
	class Schema {
	public:
	Schema();
	Schema(std::vector<Column>, std::vector<size_t> primary_keys);

	// This class is explicitly copiable.
	Schema(const Schema&);
	Schema& operator=(const Schema& t);

	std::string ToCreateTableStmt() const;

	const std::vector<Column>& columns() const { return columns_; }
	const std::vector<size_t> primary_keys() { return primary_keys_; }

	private:
	// The names and types of the columns of the table.
	std::vector<Column> columns_;

	// The primary keys of the table given by an offset into \|columns\|.
	std::vector<size_t> primary_keys_;
	};

	protected:
	// Populated by a BestIndex call to allow subclasses to tweak SQLite's
	// handling of sets of constraints.
	struct BestIndexInfo {
	// Contains info about a single constraint.
	struct ConstraintInfo {
	// Gives the index of this constraint in the QueryConstraints class.
	uint32_t qc_idx = 0;

	// Indicates whether this constraint should be removed from the
	// QueryConstraint class when passed to SqliteTable::Filter.
	bool prune = false;

	// Indiciates whether SQLite should omit double checking this constraint.
	//
	// If \|prune\| is set to true, this value will be ignored and SQLite will
	// be told that it can omit double checking (i.e. this value will
	// implicitly be taken to be true).
	bool sqlite_omit = false;
	};

	// Stores the estimated cost of this query.
	uint32_t estimated_cost = 0;

	// Stores the information about each constraint.
	std::vector<ConstraintInfo> constraint_info;

	// Indicates that all the order by constraints should be pruned. This should
	// be set to true if the table is exactly ordered by the order by terms in
	// QueryConstraints.
	bool prune_order_by = false;

	// Indicates that SQLite should not double check the result of the order by
	// clause.
	//
	// If \|prune_order_by\| is set to true, this value will be ignored and SQLite
	// will be told that it can omit double checking (i.e. this value will
	// implicitly be taken to be true).
	bool sqlite_omit_order_by = false;
	};

	template <typename Context>
	struct TableDescriptor {
	SqliteTable::Factory<Context> factory;
	Context context;
	std::string name;
	sqlite3_module module = {};
	};

	SqliteTable();

	// Called by derived classes to register themselves with the SQLite db.
	// \|read_write\| specifies whether the table can also be written to.
	// \|requires_args\| should be true if the table requires arguments in order to
	// be instantiated.
	// Note: this function is inlined here because we use the TTable template to
	// devirtualise the function calls.
	template <typename TTable, typename Context = const TraceStorage*>
	static void Register(sqlite3* db,
	Context ctx,
	const std::string& table_name,
	bool read_write = false,
	bool requires_args = false) {
	using TCursor = typename TTable::Cursor;

	std::unique_ptr<TableDescriptor<Context>> desc(
	new TableDescriptor<Context>());
	desc->context = std::move(ctx);
	desc->factory = GetFactory<TTable, Context>();
	desc->name = table_name;
	sqlite3_module* module = &desc->module;
	memset(module, 0, sizeof(*module));

	auto create_fn = [](sqlite3* xdb, void* arg, int argc,
	const char* const* argv, sqlite3_vtab** tab,
	char** pzErr) {
	const auto* xdesc = static_cast<const TableDescriptor<Context>*>(arg);
	auto table = xdesc->factory(xdb, std::move(xdesc->context));
	table->name_ = xdesc->name;

	Schema schema;
	util::Status status = table->Init(argc, argv, &schema);
	if (!status.ok()) {
	*pzErr = sqlite3_mprintf("%s", status.c_message());
	return SQLITE_ERROR;
	}

	auto create_stmt = schema.ToCreateTableStmt();
	PERFETTO_DLOG("Create table statement: %s", create_stmt.c_str());

	int res = sqlite3_declare_vtab(xdb, create_stmt.c_str());
	if (res != SQLITE_OK)
	return res;

	// Freed in xDisconnect().
	table->schema_ = std::move(schema);
	*tab = table.release();

	return SQLITE_OK;
	};
	auto destroy_fn = [](sqlite3_vtab* t) {
	delete static_cast<TTable*>(t);
	return SQLITE_OK;
	};

	module->xCreate = create_fn;
	module->xConnect = create_fn;
	module->xDisconnect = destroy_fn;
	module->xDestroy = destroy_fn;
	module->xOpen = [](sqlite3_vtab* t, sqlite3_vtab_cursor** c) {
	return static_cast<TTable*>(t)->OpenInternal(c);
	};
	module->xClose = [](sqlite3_vtab_cursor* c) {
	delete static_cast<TCursor*>(c);
	return SQLITE_OK;
	};
	module->xBestIndex = [](sqlite3_vtab* t, sqlite3_index_info* i) {
	return static_cast<TTable*>(t)->BestIndexInternal(i);
	};
	module->xFilter = [](sqlite3_vtab_cursor* c, int i, const char* s, int a,
	sqlite3_value** v) {
	const auto& qc =
	static_cast<Cursor*>(c)->table_->ParseConstraints(i, s, a);
	return static_cast<TCursor*>(c)->Filter(qc, v);
	};
	module->xNext = [](sqlite3_vtab_cursor* c) {
	return static_cast<TCursor*>(c)->Next();
	};
	module->xEof = [](sqlite3_vtab_cursor* c) {
	return static_cast<TCursor*>(c)->Eof();
	};
	module->xColumn = [](sqlite3_vtab_cursor* c, sqlite3_context* a, int b) {
	return static_cast<TCursor*>(c)->Column(a, b);
	};
	module->xRowid = [](sqlite3_vtab_cursor* c, sqlite3_int64* r) {
	return static_cast<TCursor*>(c)->RowId(r);
	};
	module->xFindFunction =
	[](sqlite3_vtab* t, int, const char* name,
	void (*fn)(sqlite3_context, int, sqlite3_value), void args) {
	return static_cast<TTable*>(t)->FindFunction(name, fn, args);
	};

	if (read_write) {
	module->xUpdate = [](sqlite3_vtab* t, int a, sqlite3_value** v,
	sqlite3_int64* r) {
	return static_cast<TTable*>(t)->Update(a, v, r);
	};
	}

	int res = sqlite3_create_module_v2(
	db, table_name.c_str(), module, desc.release(),
	[](void* arg) { delete static_cast<TableDescriptor<Context>*>(arg); });
	PERFETTO_CHECK(res == SQLITE_OK);

	// Register virtual tables into an internal 'perfetto_tables' table. This is
	// used for iterating through all the tables during a database export. Note
	// that virtual tables requiring arguments aren't registered because they
	// can't be automatically instantiated for exporting.
	if (!requires_args) {
	char* insert_sql = sqlite3_mprintf(
	"INSERT INTO perfetto_tables(name) VALUES('%q')", table_name.c_str());
	char* error = nullptr;
	sqlite3_exec(db, insert_sql, nullptr, nullptr, &error);
	sqlite3_free(insert_sql);
	if (error) {
	PERFETTO_ELOG("Error registering table: %s", error);
	sqlite3_free(error);
	}
	}
	}

	// Methods to be implemented by derived table classes.
	virtual util::Status Init(int argc, const char* const* argv, Schema*) = 0;
	virtual std::unique_ptr<Cursor> CreateCursor() = 0;
	virtual int BestIndex(const QueryConstraints& qc, BestIndexInfo* info) = 0;

	// Optional metods to implement.
	using FindFunctionFn = void (*)(sqlite3_context, int, sqlite3_value**);
	virtual int FindFunction(const char* name, FindFunctionFn fn, void** args);

	// At registration time, the function should also pass true for \|read_write\|.
	virtual int Update(int, sqlite3_value*, sqlite3_int64);

	void SetErrorMessage(char* error) {
	sqlite3_free(zErrMsg);
	zErrMsg = error;
	}

	const Schema& schema() const { return schema_; }
	const std::string& name() const { return name_; }

	private:
	template <typename TableType, typename Context>
	static Factory<Context> GetFactory() {
	return [](sqlite3* db, Context ctx) {
	return std::unique_ptr<SqliteTable>(new TableType(db, std::move(ctx)));
	};
	}

	const QueryConstraints& ParseConstraints(int idxNum,
	const char* idxStr,
	int argc);

	// Overriden functions from sqlite3_vtab.
	int OpenInternal(sqlite3_vtab_cursor**);
	int BestIndexInternal(sqlite3_index_info*);

	SqliteTable(const SqliteTable&) = delete;
	SqliteTable& operator=(const SqliteTable&) = delete;

	std::string name_;
	Schema schema_;

	QueryConstraints qc_cache_;
	int qc_hash_ = 0;
	int best_index_num_ = 0;
	};

	} // namespace trace_processor
	} // namespace perfetto

	#endif // SRC_TRACE_PROCESSOR_SQLITE_SQLITE_TABLE_H_