osquery-1/include/osquery/tables.h

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/*
* Copyright (c) 2014, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD-style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*
*/
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#pragma once
#include <map>
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#include <memory>
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#include <vector>
#include <set>
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#include <boost/lexical_cast.hpp>
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#include <boost/property_tree/ptree.hpp>
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#include <osquery/registry.h>
#include <osquery/core.h>
#include <osquery/database/results.h>
#include <osquery/status.h>
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/// Allow Tables to use "tracked" depricated OS APIs.
#define OSQUERY_USE_DEPRECATED(expr) \
do { \
_Pragma("clang diagnostic push") \
_Pragma("clang diagnostic ignored \"-Wdeprecated-declarations\"") \
expr; \
_Pragma("clang diagnostic pop") \
} while (0)
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namespace osquery {
namespace tables {
/**
* @brief The SQLite type affinities are available as macros
*
* Type affinities: TEXT, INTEGER, BIGINT
*
* You can represent any data that can be lexically casted to a string.
* Using the type affinity names helps table developers understand the data
* types they are storing, and more importantly how they are treated at query
* time.
*/
#define TEXT(x) boost::lexical_cast<std::string>(x)
/// See the affinity type documentation for TEXT.
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#define INTEGER(x) boost::lexical_cast<std::string>(x)
/// See the affinity type documentation for TEXT.
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#define BIGINT(x) boost::lexical_cast<std::string>(x)
/// See the affinity type documentation for TEXT.
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#define UNSIGNED_BIGINT(x) boost::lexical_cast<std::string>(x)
/**
* @brief The SQLite type affinities as represented as implementation literals.
*
* Type affinities: TEXT=std::string, INTEGER=int, BIGINT=long long int
*
* Just as the SQLite data is represented as lexically casted strings, as table
* may make use of the implementation language literals.
*/
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#define TEXT_LITERAL std::string
/// See the literal type documentation for TEXT_LITERAL.
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#define INTEGER_LITERAL int
/// See the literal type documentation for TEXT_LITERAL.
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#define BIGINT_LITERAL long long int
/// See the literal type documentation for TEXT_LITERAL.
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#define UNSIGNED_BIGINT_LITERAL unsigned long long int
/// Cast an SQLite affinity type to the literal type.
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#define AS_LITERAL(literal, value) boost::lexical_cast<literal>(value)
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/// Helper alias for TablePlugin names.
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typedef std::string TableName;
typedef std::vector<std::pair<std::string, std::string> > TableColumns;
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typedef std::map<std::string, std::vector<std::string> > TableData;
/**
* @brief A ConstraintOperator is applied in an query predicate.
*
* If the query contains a join or where clause with a constraint operator and
* expression the table generator may limit the data appropriately.
*/
enum ConstraintOperator {
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EQUALS = 2,
GREATER_THAN = 4,
LESS_THAN_OR_EQUALS = 8,
LESS_THAN = 16,
GREATER_THAN_OR_EQUALS = 32
};
/**
* @brief A Constraint is an operator and expression.
*
* The constraint is applied to columns which have literal and affinity types.
*/
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struct Constraint {
unsigned char op;
std::string expr;
/// Construct a Constraint with the most-basic information, the operator.
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Constraint(unsigned char _op) { op = _op; }
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// A constraint list in a context knows only the operator at creation.
Constraint(unsigned char _op, const std::string& _expr) {
op = _op;
expr = _expr;
}
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};
/**
* @brief A ConstraintList is a set of constraints for a column. This list
* should be mapped to a left-hand-side column name.
*
* The table generator does not need to check each constraint in its decision
* logic. The common constraint checking patterns (match) are abstracted using
* simple logic operators on the literal SQLite affinity types.
*
* A constraint list supports all AS_LITERAL types, and all ConstraintOperators.
*/
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struct ConstraintList {
/// The SQLite affinity type.
std::string affinity;
/**
* @brief Check if an expression matches the query constraints.
*
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* Evaluate ALL constraints in this ConstraintList against the string
* expression. The affinity of the constrait will be used as the affinite
* and lexical type of the expression and set of constraint expressions.
*
* @param expr a SQL type expression of the column literal type to check.
* @return If the expression matched all constraints.
*/
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bool matches(const std::string& expr) const;
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/**
* @brief Check if an expression matches the query constraints.
*
* `matches` also supports the set of SQL affinite types.
* The expression expr will be evaluated as a string and compared using
* the affinity of the constraint.
*
* @param expr a SQL type expression of the column literal type to check.
* @return If the expression matched all constraints.
*/
template <typename T>
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bool matches(const T& expr) const {
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return matches(TEXT(expr));
}
/**
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* @brief Check and return if there are any constraints on this column.
*
* A ConstraintList is used in a ConstraintMap with a column name as the
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* map index. Tables that act on optional constraints should check if any
* constraint was provided.
*
* @return true if any constraint exists.
*/
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bool exists() const { return (constraints_.size() > 0); }
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/**
* @brief Check if a constrait exist AND matches the type expression.
*
* See ConstraintList::exists and ConstraintList::matches.
*
* @param expr The expression to match.
* @return true if any constraint exists AND matches the type expression.
*/
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template <typename T>
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bool existsAndMatches(const T& expr) const {
return (exists() && matches(expr));
}
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/**
* @brief Check if a constraint is missing or matches a type expression.
*
* A ConstraintList is used in a ConstraintMap with a column name as the
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* map index. Tables that act on required constraints can make decisions
* on missing constraints or a constraint match.
*
* @param expr The expression to match.
* @return true if constraint is missing or matches the type expression.
*/
template <typename T>
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bool notExistsOrMatches(const T& expr) const {
return (!exists() || matches(expr));
}
/**
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* @brief Helper templated function for ConstraintList::matches.
*/
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template <typename T>
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bool literal_matches(const T& base_expr) const;
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/**
* @brief Get all expressions for a given ConstraintOperator.
*
* This is most useful if the table generation requires as column.
* The generator may `getAll(EQUALS)` then iterate.
*
* @param op the ConstraintOperator.
* @return A list of TEXT%-represented types matching the operator.
*/
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std::set<std::string> getAll(ConstraintOperator op) const;
template<typename T>
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std::set<T> getAll(ConstraintOperator op) const {
std::set<T> literal_matches;
auto matches = getAll(op);
for (const auto& match : matches) {
literal_matches.insert(AS_LITERAL(T, match));
}
return literal_matches;
}
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/**
* @brief Add a new Constraint to the list of constraints.
*
* @param constraint a new operator/expression to constrain.
*/
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void add(const struct Constraint& constraint) {
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constraints_.push_back(constraint);
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}
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/**
* @brief Serialize a ConstraintList into a property tree.
*
* The property tree will use the format:
* {
* "affinity": affinity,
* "list": [
* {"op": op, "expr": expr}, ...
* ]
* }
*/
void serialize(boost::property_tree::ptree& tree) const;
void unserialize(const boost::property_tree::ptree& tree);
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ConstraintList() { affinity = "TEXT"; }
private:
/// List of constraint operator/expressions.
std::vector<struct Constraint> constraints_;
private:
FRIEND_TEST(TablesTests, test_constraint_list);
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};
/// Pass a constraint map to the query request.
typedef std::map<std::string, struct ConstraintList> ConstraintMap;
/// Populate a containst list from a query's parsed predicate.
typedef std::vector<std::pair<std::string, struct Constraint> > ConstraintSet;
/**
* @brief A QueryContext is provided to every table generator for optimization
* on query components like predicate constraints and limits.
*/
struct QueryContext {
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ConstraintMap constraints;
/// Support a limit to the number of results.
int limit;
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QueryContext() : limit(0) {}
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};
typedef struct QueryContext QueryContext;
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typedef struct Constraint Constraint;
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/**
* @brief The TablePlugin defines the name, types, and column information.
*
* To attach a virtual table create a TablePlugin subclass and register the
* virtual table name as the plugin ID. osquery will enumerate all registered
* TablePlugins and attempt to attach them to SQLite at instanciation.
*
* Note: When updating this class, be sure to update the corresponding template
* in osquery/tables/templates/default.cpp.in
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*/
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class TablePlugin : public Plugin {
protected:
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/// Helper method to generate the virtual table CREATE statement.
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virtual std::string statement() const;
virtual std::string columnDefinition() const;
virtual TableColumns columns() const {
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TableColumns columns;
return columns;
}
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virtual QueryData generate(QueryContext& request) {
QueryData data;
return data;
}
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public:
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/// Public API methods.
Status call(const PluginRequest& request, PluginResponse& response);
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public:
/// Helper data structure transformation methods
static void setRequestFromContext(const QueryContext& context,
PluginRequest& request);
static void setResponseFromQueryData(const QueryData& data,
PluginResponse& response);
static void setContextFromRequest(const PluginRequest& request,
QueryContext& context);
private:
FRIEND_TEST(VirtualTableTests, test_tableplugin_columndefinition);
FRIEND_TEST(VirtualTableTests, test_tableplugin_statement);
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};
CREATE_REGISTRY(TablePlugin, "table");
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}
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}