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// Copyright (c) 2017-2021 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_RPC_UTIL_H
#define BITCOIN_RPC_UTIL_H
#include <node/coinstats.h>
#include <node/transaction.h>
#include <outputtype.h>
#include <protocol.h>
#include <pubkey.h>
#include <rpc/protocol.h>
#include <rpc/request.h>
#include <script/script.h>
#include <script/sign.h>
#include <script/standard.h>
#include <univalue.h>
#include <util/check.h>
#include <string>
#include <variant>
#include <vector>
/**
* String used to describe UNIX epoch time in documentation, factored out to a
* constant for consistency.
*/
extern const std::string UNIX_EPOCH_TIME;
/**
* Example bech32 addresses for the RPCExamples help documentation. They are intentionally
* invalid to prevent accidental transactions by users.
*/
extern const std::string EXAMPLE_ADDRESS[2];
class FillableSigningProvider;
class CPubKey;
class CScript;
struct Sections;
/** Wrapper for UniValue::VType, which includes typeAny:
* Used to denote don't care type. */
struct UniValueType {
UniValueType(UniValue::VType _type) : typeAny(false), type(_type) {}
UniValueType() : typeAny(true) {}
bool typeAny;
UniValue::VType type;
};
/**
* Type-check arguments; throws JSONRPCError if wrong type given. Does not check that
* the right number of arguments are passed, just that any passed are the correct type.
*/
void RPCTypeCheck(const UniValue& params,
const std::list<UniValueType>& typesExpected, bool fAllowNull=false);
/**
* Type-check one argument; throws JSONRPCError if wrong type given.
*/
void RPCTypeCheckArgument(const UniValue& value, const UniValueType& typeExpected);
/*
Check for expected keys/value types in an Object.
*/
void RPCTypeCheckObj(const UniValue& o,
const std::map<std::string, UniValueType>& typesExpected,
bool fAllowNull = false,
bool fStrict = false);
/**
* Utilities: convert hex-encoded Values
* (throws error if not hex).
*/
extern uint256 ParseHashV(const UniValue& v, std::string strName);
extern uint256 ParseHashO(const UniValue& o, std::string strKey);
extern std::vector<unsigned char> ParseHexV(const UniValue& v, std::string strName);
extern std::vector<unsigned char> ParseHexO(const UniValue& o, std::string strKey);
CoinStatsHashType ParseHashType(const UniValue& param, const CoinStatsHashType default_type);
extern CAmount AmountFromValue(const UniValue& value);
extern std::string HelpExampleCli(const std::string& methodname, const std::string& args);
extern std::string HelpExampleRpc(const std::string& methodname, const std::string& args);
CPubKey HexToPubKey(const std::string& hex_in);
CPubKey AddrToPubKey(const FillableSigningProvider& keystore, const std::string& addr_in);
CTxDestination AddAndGetMultisigDestination(const int required, const std::vector<CPubKey>& pubkeys, OutputType type, FillableSigningProvider& keystore, CScript& script_out);
UniValue DescribeAddress(const CTxDestination& dest);
//! Parse a confirm target option and raise an RPC error if it is invalid.
unsigned int ParseConfirmTarget(const UniValue& value, unsigned int max_target);
RPCErrorCode RPCErrorFromTransactionError(TransactionError terr);
UniValue JSONRPCTransactionError(TransactionError terr, const std::string& err_string = "");
//! Parse a JSON range specified as int64, or [int64, int64]
std::pair<int64_t, int64_t> ParseDescriptorRange(const UniValue& value);
/** Evaluate a descriptor given as a string, or as a {"desc":...,"range":...} object, with default range of 1000. */
std::vector<CScript> EvalDescriptorStringOrObject(const UniValue& scanobject, FlatSigningProvider& provider);
/** Returns, given services flags, a list of humanly readable (known) network services */
UniValue GetServicesNames(ServiceFlags services);
/**
* Serializing JSON objects depends on the outer type. Only arrays and
* dictionaries can be nested in json. The top-level outer type is "NONE".
*/
enum class OuterType {
ARR,
OBJ,
NONE, // Only set on first recursion
};
struct RPCArg {
enum class Type {
OBJ,
ARR,
STR,
NUM,
BOOL,
OBJ_USER_KEYS, //!< Special type where the user must set the keys e.g. to define multiple addresses; as opposed to e.g. an options object where the keys are predefined
AMOUNT, //!< Special type representing a floating point amount (can be either NUM or STR)
STR_HEX, //!< Special type that is a STR with only hex chars
RANGE, //!< Special type that is a NUM or [NUM,NUM]
};
enum class Optional {
/** Required arg */
NO,
/**
* Optional arg that is a named argument and has a default value of
* `null`. When possible, the default value should be specified.
*/
OMITTED_NAMED_ARG,
/**
* Optional argument with default value omitted because they are
* implicitly clear. That is, elements in an array or object may not
* exist by default.
* When possible, the default value should be specified.
*/
OMITTED,
};
using Fallback = std::variant<Optional, /* default value for optional args */ std::string>;
const std::string m_names; //!< The name of the arg (can be empty for inner args, can contain multiple aliases separated by | for named request arguments)
const Type m_type;
const bool m_hidden;
const std::vector<RPCArg> m_inner; //!< Only used for arrays or dicts
const Fallback m_fallback;
const std::string m_description;
const std::string m_oneline_description; //!< Should be empty unless it is supposed to override the auto-generated summary line
const std::vector<std::string> m_type_str; //!< Should be empty unless it is supposed to override the auto-generated type strings. Vector length is either 0 or 2, m_type_str.at(0) will override the type of the value in a key-value pair, m_type_str.at(1) will override the type in the argument description.
RPCArg(
const std::string name,
const Type type,
const Fallback fallback,
const std::string description,
const std::string oneline_description = "",
const std::vector<std::string> type_str = {},
const bool hidden = false)
: m_names{std::move(name)},
m_type{std::move(type)},
m_hidden{hidden},
m_fallback{std::move(fallback)},
m_description{std::move(description)},
m_oneline_description{std::move(oneline_description)},
m_type_str{std::move(type_str)}
{
CHECK_NONFATAL(type != Type::ARR && type != Type::OBJ);
}
RPCArg(
const std::string name,
const Type type,
const Fallback fallback,
const std::string description,
const std::vector<RPCArg> inner,
const std::string oneline_description = "",
const std::vector<std::string> type_str = {})
: m_names{std::move(name)},
m_type{std::move(type)},
m_hidden{false},
m_inner{std::move(inner)},
m_fallback{std::move(fallback)},
m_description{std::move(description)},
m_oneline_description{std::move(oneline_description)},
m_type_str{std::move(type_str)}
{
CHECK_NONFATAL(type == Type::ARR || type == Type::OBJ);
}
bool IsOptional() const;
/** Return the first of all aliases */
std::string GetFirstName() const;
/** Return the name, throws when there are aliases */
std::string GetName() const;
/**
* Return the type string of the argument.
* Set oneline to allow it to be overridden by a custom oneline type string (m_oneline_description).
*/
std::string ToString(bool oneline) const;
/**
* Return the type string of the argument when it is in an object (dict).
* Set oneline to get the oneline representation (less whitespace)
*/
std::string ToStringObj(bool oneline) const;
/**
* Return the description string, including the argument type and whether
* the argument is required.
*/
std::string ToDescriptionString() const;
};
struct RPCResult {
enum class Type {
OBJ,
ARR,
STR,
NUM,
BOOL,
NONE,
STR_AMOUNT, //!< Special string to represent a floating point amount
STR_HEX, //!< Special string with only hex chars
OBJ_DYN, //!< Special dictionary with keys that are not literals
ARR_FIXED, //!< Special array that has a fixed number of entries
NUM_TIME, //!< Special numeric to denote unix epoch time
ELISION, //!< Special type to denote elision (...)
};
const Type m_type;
const std::string m_key_name; //!< Only used for dicts
const std::vector<RPCResult> m_inner; //!< Only used for arrays or dicts
const bool m_optional;
const std::string m_description;
const std::string m_cond;
RPCResult(
const std::string cond,
const Type type,
const std::string m_key_name,
const bool optional,
const std::string description,
const std::vector<RPCResult> inner = {})
: m_type{std::move(type)},
m_key_name{std::move(m_key_name)},
m_inner{std::move(inner)},
m_optional{optional},
m_description{std::move(description)},
m_cond{std::move(cond)}
{
CHECK_NONFATAL(!m_cond.empty());
const bool inner_needed{type == Type::ARR || type == Type::ARR_FIXED || type == Type::OBJ || type == Type::OBJ_DYN};
CHECK_NONFATAL(inner_needed != inner.empty());
}
RPCResult(
const std::string cond,
const Type type,
const std::string m_key_name,
const std::string description,
const std::vector<RPCResult> inner = {})
: RPCResult{cond, type, m_key_name, false, description, inner} {}
RPCResult(
const Type type,
const std::string m_key_name,
const bool optional,
const std::string description,
const std::vector<RPCResult> inner = {})
: m_type{std::move(type)},
m_key_name{std::move(m_key_name)},
m_inner{std::move(inner)},
m_optional{optional},
m_description{std::move(description)},
m_cond{}
{
const bool inner_needed{type == Type::ARR || type == Type::ARR_FIXED || type == Type::OBJ || type == Type::OBJ_DYN};
CHECK_NONFATAL(inner_needed != inner.empty());
}
RPCResult(
const Type type,
const std::string m_key_name,
const std::string description,
const std::vector<RPCResult> inner = {})
: RPCResult{type, m_key_name, false, description, inner} {}
/** Append the sections of the result. */
void ToSections(Sections& sections, OuterType outer_type = OuterType::NONE, const int current_indent = 0) const;
/** Return the type string of the result when it is in an object (dict). */
std::string ToStringObj() const;
/** Return the description string, including the result type. */
std::string ToDescriptionString() const;
};
struct RPCResults {
const std::vector<RPCResult> m_results;
RPCResults(RPCResult result)
: m_results{{result}}
{
}
RPCResults(std::initializer_list<RPCResult> results)
: m_results{results}
{
}
/**
* Return the description string.
*/
std::string ToDescriptionString() const;
};
struct RPCExamples {
const std::string m_examples;
explicit RPCExamples(
std::string examples)
: m_examples(std::move(examples))
{
}
std::string ToDescriptionString() const;
};
class RPCHelpMan
{
public:
RPCHelpMan(std::string name, std::string description, std::vector<RPCArg> args, RPCResults results, RPCExamples examples);
using RPCMethodImpl = std::function<UniValue(const RPCHelpMan&, const JSONRPCRequest&)>;
RPCHelpMan(std::string name, std::string description, std::vector<RPCArg> args, RPCResults results, RPCExamples examples, RPCMethodImpl fun);
std::string ToString() const;
UniValue HandleRequest(const JSONRPCRequest& request)
{
Check(request);
return m_fun(*this, request);
}
/** If the supplied number of args is neither too small nor too high */
bool IsValidNumArgs(size_t num_args) const;
/**
* Check if the given request is valid according to this command or if
* the user is asking for help information, and throw help when appropriate.
*/
inline void Check(const JSONRPCRequest& request) const {
if (request.fHelp || !IsValidNumArgs(request.params.size())) {
throw std::runtime_error(ToString());
}
}
std::vector<std::string> GetArgNames() const;
const std::string m_name;
private:
const RPCMethodImpl m_fun;
const std::string m_description;
const std::vector<RPCArg> m_args;
const RPCResults m_results;
const RPCExamples m_examples;
};
#endif // BITCOIN_RPC_UTIL_H
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