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|
// Copyright (c) 2010 Satoshi Nakamoto
// Copyright (c) 2009-2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <rpc/server.h>
#include <common/args.h>
#include <common/system.h>
#include <logging.h>
#include <node/context.h>
#include <rpc/server_util.h>
#include <rpc/util.h>
#include <sync.h>
#include <util/signalinterrupt.h>
#include <util/strencodings.h>
#include <util/string.h>
#include <util/time.h>
#include <boost/signals2/signal.hpp>
#include <cassert>
#include <chrono>
#include <memory>
#include <mutex>
#include <unordered_map>
static GlobalMutex g_rpc_warmup_mutex;
static std::atomic<bool> g_rpc_running{false};
static bool fRPCInWarmup GUARDED_BY(g_rpc_warmup_mutex) = true;
static std::string rpcWarmupStatus GUARDED_BY(g_rpc_warmup_mutex) = "RPC server started";
/* Timer-creating functions */
static RPCTimerInterface* timerInterface = nullptr;
/* Map of name to timer. */
static GlobalMutex g_deadline_timers_mutex;
static std::map<std::string, std::unique_ptr<RPCTimerBase> > deadlineTimers GUARDED_BY(g_deadline_timers_mutex);
static bool ExecuteCommand(const CRPCCommand& command, const JSONRPCRequest& request, UniValue& result, bool last_handler);
struct RPCCommandExecutionInfo
{
std::string method;
SteadyClock::time_point start;
};
struct RPCServerInfo
{
Mutex mutex;
std::list<RPCCommandExecutionInfo> active_commands GUARDED_BY(mutex);
};
static RPCServerInfo g_rpc_server_info;
struct RPCCommandExecution
{
std::list<RPCCommandExecutionInfo>::iterator it;
explicit RPCCommandExecution(const std::string& method)
{
LOCK(g_rpc_server_info.mutex);
it = g_rpc_server_info.active_commands.insert(g_rpc_server_info.active_commands.end(), {method, SteadyClock::now()});
}
~RPCCommandExecution()
{
LOCK(g_rpc_server_info.mutex);
g_rpc_server_info.active_commands.erase(it);
}
};
static struct CRPCSignals
{
boost::signals2::signal<void ()> Started;
boost::signals2::signal<void ()> Stopped;
} g_rpcSignals;
void RPCServer::OnStarted(std::function<void ()> slot)
{
g_rpcSignals.Started.connect(slot);
}
void RPCServer::OnStopped(std::function<void ()> slot)
{
g_rpcSignals.Stopped.connect(slot);
}
std::string CRPCTable::help(const std::string& strCommand, const JSONRPCRequest& helpreq) const
{
std::string strRet;
std::string category;
std::set<intptr_t> setDone;
std::vector<std::pair<std::string, const CRPCCommand*> > vCommands;
vCommands.reserve(mapCommands.size());
for (const auto& entry : mapCommands)
vCommands.emplace_back(entry.second.front()->category + entry.first, entry.second.front());
sort(vCommands.begin(), vCommands.end());
JSONRPCRequest jreq = helpreq;
jreq.mode = JSONRPCRequest::GET_HELP;
jreq.params = UniValue();
for (const std::pair<std::string, const CRPCCommand*>& command : vCommands)
{
const CRPCCommand *pcmd = command.second;
std::string strMethod = pcmd->name;
if ((strCommand != "" || pcmd->category == "hidden") && strMethod != strCommand)
continue;
jreq.strMethod = strMethod;
try
{
UniValue unused_result;
if (setDone.insert(pcmd->unique_id).second)
pcmd->actor(jreq, unused_result, /*last_handler=*/true);
}
catch (const std::exception& e)
{
// Help text is returned in an exception
std::string strHelp = std::string(e.what());
if (strCommand == "")
{
if (strHelp.find('\n') != std::string::npos)
strHelp = strHelp.substr(0, strHelp.find('\n'));
if (category != pcmd->category)
{
if (!category.empty())
strRet += "\n";
category = pcmd->category;
strRet += "== " + Capitalize(category) + " ==\n";
}
}
strRet += strHelp + "\n";
}
}
if (strRet == "")
strRet = strprintf("help: unknown command: %s\n", strCommand);
strRet = strRet.substr(0,strRet.size()-1);
return strRet;
}
static RPCHelpMan help()
{
return RPCHelpMan{"help",
"\nList all commands, or get help for a specified command.\n",
{
{"command", RPCArg::Type::STR, RPCArg::DefaultHint{"all commands"}, "The command to get help on"},
},
{
RPCResult{RPCResult::Type::STR, "", "The help text"},
RPCResult{RPCResult::Type::ANY, "", ""},
},
RPCExamples{""},
[&](const RPCHelpMan& self, const JSONRPCRequest& jsonRequest) -> UniValue
{
std::string strCommand;
if (jsonRequest.params.size() > 0) {
strCommand = jsonRequest.params[0].get_str();
}
if (strCommand == "dump_all_command_conversions") {
// Used for testing only, undocumented
return tableRPC.dumpArgMap(jsonRequest);
}
return tableRPC.help(strCommand, jsonRequest);
},
};
}
static RPCHelpMan stop()
{
static const std::string RESULT{PACKAGE_NAME " stopping"};
return RPCHelpMan{"stop",
// Also accept the hidden 'wait' integer argument (milliseconds)
// For instance, 'stop 1000' makes the call wait 1 second before returning
// to the client (intended for testing)
"\nRequest a graceful shutdown of " PACKAGE_NAME ".",
{
{"wait", RPCArg::Type::NUM, RPCArg::Optional::OMITTED, "how long to wait in ms", RPCArgOptions{.hidden=true}},
},
RPCResult{RPCResult::Type::STR, "", "A string with the content '" + RESULT + "'"},
RPCExamples{""},
[&](const RPCHelpMan& self, const JSONRPCRequest& jsonRequest) -> UniValue
{
// Event loop will exit after current HTTP requests have been handled, so
// this reply will get back to the client.
CHECK_NONFATAL((*CHECK_NONFATAL(EnsureAnyNodeContext(jsonRequest.context).shutdown))());
if (jsonRequest.params[0].isNum()) {
UninterruptibleSleep(std::chrono::milliseconds{jsonRequest.params[0].getInt<int>()});
}
return RESULT;
},
};
}
static RPCHelpMan uptime()
{
return RPCHelpMan{"uptime",
"\nReturns the total uptime of the server.\n",
{},
RPCResult{
RPCResult::Type::NUM, "", "The number of seconds that the server has been running"
},
RPCExamples{
HelpExampleCli("uptime", "")
+ HelpExampleRpc("uptime", "")
},
[&](const RPCHelpMan& self, const JSONRPCRequest& request) -> UniValue
{
return GetTime() - GetStartupTime();
}
};
}
static RPCHelpMan getrpcinfo()
{
return RPCHelpMan{"getrpcinfo",
"\nReturns details of the RPC server.\n",
{},
RPCResult{
RPCResult::Type::OBJ, "", "",
{
{RPCResult::Type::ARR, "active_commands", "All active commands",
{
{RPCResult::Type::OBJ, "", "Information about an active command",
{
{RPCResult::Type::STR, "method", "The name of the RPC command"},
{RPCResult::Type::NUM, "duration", "The running time in microseconds"},
}},
}},
{RPCResult::Type::STR, "logpath", "The complete file path to the debug log"},
}
},
RPCExamples{
HelpExampleCli("getrpcinfo", "")
+ HelpExampleRpc("getrpcinfo", "")},
[&](const RPCHelpMan& self, const JSONRPCRequest& request) -> UniValue
{
LOCK(g_rpc_server_info.mutex);
UniValue active_commands(UniValue::VARR);
for (const RPCCommandExecutionInfo& info : g_rpc_server_info.active_commands) {
UniValue entry(UniValue::VOBJ);
entry.pushKV("method", info.method);
entry.pushKV("duration", int64_t{Ticks<std::chrono::microseconds>(SteadyClock::now() - info.start)});
active_commands.push_back(entry);
}
UniValue result(UniValue::VOBJ);
result.pushKV("active_commands", active_commands);
const std::string path = LogInstance().m_file_path.utf8string();
UniValue log_path(UniValue::VSTR, path);
result.pushKV("logpath", log_path);
return result;
}
};
}
static const CRPCCommand vRPCCommands[]{
/* Overall control/query calls */
{"control", &getrpcinfo},
{"control", &help},
{"control", &stop},
{"control", &uptime},
};
CRPCTable::CRPCTable()
{
for (const auto& c : vRPCCommands) {
appendCommand(c.name, &c);
}
}
void CRPCTable::appendCommand(const std::string& name, const CRPCCommand* pcmd)
{
CHECK_NONFATAL(!IsRPCRunning()); // Only add commands before rpc is running
mapCommands[name].push_back(pcmd);
}
bool CRPCTable::removeCommand(const std::string& name, const CRPCCommand* pcmd)
{
auto it = mapCommands.find(name);
if (it != mapCommands.end()) {
auto new_end = std::remove(it->second.begin(), it->second.end(), pcmd);
if (it->second.end() != new_end) {
it->second.erase(new_end, it->second.end());
return true;
}
}
return false;
}
void StartRPC()
{
LogPrint(BCLog::RPC, "Starting RPC\n");
g_rpc_running = true;
g_rpcSignals.Started();
}
void InterruptRPC()
{
static std::once_flag g_rpc_interrupt_flag;
// This function could be called twice if the GUI has been started with -server=1.
std::call_once(g_rpc_interrupt_flag, []() {
LogPrint(BCLog::RPC, "Interrupting RPC\n");
// Interrupt e.g. running longpolls
g_rpc_running = false;
});
}
void StopRPC()
{
static std::once_flag g_rpc_stop_flag;
// This function could be called twice if the GUI has been started with -server=1.
assert(!g_rpc_running);
std::call_once(g_rpc_stop_flag, []() {
LogPrint(BCLog::RPC, "Stopping RPC\n");
WITH_LOCK(g_deadline_timers_mutex, deadlineTimers.clear());
DeleteAuthCookie();
g_rpcSignals.Stopped();
});
}
bool IsRPCRunning()
{
return g_rpc_running;
}
void RpcInterruptionPoint()
{
if (!IsRPCRunning()) throw JSONRPCError(RPC_CLIENT_NOT_CONNECTED, "Shutting down");
}
void SetRPCWarmupStatus(const std::string& newStatus)
{
LOCK(g_rpc_warmup_mutex);
rpcWarmupStatus = newStatus;
}
void SetRPCWarmupFinished()
{
LOCK(g_rpc_warmup_mutex);
assert(fRPCInWarmup);
fRPCInWarmup = false;
}
bool RPCIsInWarmup(std::string *outStatus)
{
LOCK(g_rpc_warmup_mutex);
if (outStatus)
*outStatus = rpcWarmupStatus;
return fRPCInWarmup;
}
bool IsDeprecatedRPCEnabled(const std::string& method)
{
const std::vector<std::string> enabled_methods = gArgs.GetArgs("-deprecatedrpc");
return find(enabled_methods.begin(), enabled_methods.end(), method) != enabled_methods.end();
}
static UniValue JSONRPCExecOne(JSONRPCRequest jreq, const UniValue& req)
{
UniValue rpc_result(UniValue::VOBJ);
try {
jreq.parse(req);
UniValue result = tableRPC.execute(jreq);
rpc_result = JSONRPCReplyObj(result, NullUniValue, jreq.id);
}
catch (const UniValue& objError)
{
rpc_result = JSONRPCReplyObj(NullUniValue, objError, jreq.id);
}
catch (const std::exception& e)
{
rpc_result = JSONRPCReplyObj(NullUniValue,
JSONRPCError(RPC_PARSE_ERROR, e.what()), jreq.id);
}
return rpc_result;
}
std::string JSONRPCExecBatch(const JSONRPCRequest& jreq, const UniValue& vReq)
{
UniValue ret(UniValue::VARR);
for (unsigned int reqIdx = 0; reqIdx < vReq.size(); reqIdx++)
ret.push_back(JSONRPCExecOne(jreq, vReq[reqIdx]));
return ret.write() + "\n";
}
/**
* Process named arguments into a vector of positional arguments, based on the
* passed-in specification for the RPC call's arguments.
*/
static inline JSONRPCRequest transformNamedArguments(const JSONRPCRequest& in, const std::vector<std::pair<std::string, bool>>& argNames)
{
JSONRPCRequest out = in;
out.params = UniValue(UniValue::VARR);
// Build a map of parameters, and remove ones that have been processed, so that we can throw a focused error if
// there is an unknown one.
const std::vector<std::string>& keys = in.params.getKeys();
const std::vector<UniValue>& values = in.params.getValues();
std::unordered_map<std::string, const UniValue*> argsIn;
for (size_t i=0; i<keys.size(); ++i) {
auto [_, inserted] = argsIn.emplace(keys[i], &values[i]);
if (!inserted) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "Parameter " + keys[i] + " specified multiple times");
}
}
// Process expected parameters. If any parameters were left unspecified in
// the request before a parameter that was specified, null values need to be
// inserted at the unspecified parameter positions, and the "hole" variable
// below tracks the number of null values that need to be inserted.
// The "initial_hole_size" variable stores the size of the initial hole,
// i.e. how many initial positional arguments were left unspecified. This is
// used after the for-loop to add initial positional arguments from the
// "args" parameter, if present.
int hole = 0;
int initial_hole_size = 0;
const std::string* initial_param = nullptr;
UniValue options{UniValue::VOBJ};
for (const auto& [argNamePattern, named_only]: argNames) {
std::vector<std::string> vargNames = SplitString(argNamePattern, '|');
auto fr = argsIn.end();
for (const std::string & argName : vargNames) {
fr = argsIn.find(argName);
if (fr != argsIn.end()) {
break;
}
}
// Handle named-only parameters by pushing them into a temporary options
// object, and then pushing the accumulated options as the next
// positional argument.
if (named_only) {
if (fr != argsIn.end()) {
if (options.exists(fr->first)) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "Parameter " + fr->first + " specified multiple times");
}
options.pushKVEnd(fr->first, *fr->second);
argsIn.erase(fr);
}
continue;
}
if (!options.empty() || fr != argsIn.end()) {
for (int i = 0; i < hole; ++i) {
// Fill hole between specified parameters with JSON nulls,
// but not at the end (for backwards compatibility with calls
// that act based on number of specified parameters).
out.params.push_back(UniValue());
}
hole = 0;
if (!initial_param) initial_param = &argNamePattern;
} else {
hole += 1;
if (out.params.empty()) initial_hole_size = hole;
}
// If named input parameter "fr" is present, push it onto out.params. If
// options are present, push them onto out.params. If both are present,
// throw an error.
if (fr != argsIn.end()) {
if (!options.empty()) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "Parameter " + fr->first + " conflicts with parameter " + options.getKeys().front());
}
out.params.push_back(*fr->second);
argsIn.erase(fr);
}
if (!options.empty()) {
out.params.push_back(std::move(options));
options = UniValue{UniValue::VOBJ};
}
}
// If leftover "args" param was found, use it as a source of positional
// arguments and add named arguments after. This is a convenience for
// clients that want to pass a combination of named and positional
// arguments as described in doc/JSON-RPC-interface.md#parameter-passing
auto positional_args{argsIn.extract("args")};
if (positional_args && positional_args.mapped()->isArray()) {
if (initial_hole_size < (int)positional_args.mapped()->size() && initial_param) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "Parameter " + *initial_param + " specified twice both as positional and named argument");
}
// Assign positional_args to out.params and append named_args after.
UniValue named_args{std::move(out.params)};
out.params = *positional_args.mapped();
for (size_t i{out.params.size()}; i < named_args.size(); ++i) {
out.params.push_back(named_args[i]);
}
}
// If there are still arguments in the argsIn map, this is an error.
if (!argsIn.empty()) {
throw JSONRPCError(RPC_INVALID_PARAMETER, "Unknown named parameter " + argsIn.begin()->first);
}
// Return request with named arguments transformed to positional arguments
return out;
}
static bool ExecuteCommands(const std::vector<const CRPCCommand*>& commands, const JSONRPCRequest& request, UniValue& result)
{
for (const auto& command : commands) {
if (ExecuteCommand(*command, request, result, &command == &commands.back())) {
return true;
}
}
return false;
}
UniValue CRPCTable::execute(const JSONRPCRequest &request) const
{
// Return immediately if in warmup
{
LOCK(g_rpc_warmup_mutex);
if (fRPCInWarmup)
throw JSONRPCError(RPC_IN_WARMUP, rpcWarmupStatus);
}
// Find method
auto it = mapCommands.find(request.strMethod);
if (it != mapCommands.end()) {
UniValue result;
if (ExecuteCommands(it->second, request, result)) {
return result;
}
}
throw JSONRPCError(RPC_METHOD_NOT_FOUND, "Method not found");
}
static bool ExecuteCommand(const CRPCCommand& command, const JSONRPCRequest& request, UniValue& result, bool last_handler)
{
try {
RPCCommandExecution execution(request.strMethod);
// Execute, convert arguments to array if necessary
if (request.params.isObject()) {
return command.actor(transformNamedArguments(request, command.argNames), result, last_handler);
} else {
return command.actor(request, result, last_handler);
}
} catch (const UniValue::type_error& e) {
throw JSONRPCError(RPC_TYPE_ERROR, e.what());
} catch (const std::exception& e) {
throw JSONRPCError(RPC_MISC_ERROR, e.what());
}
}
std::vector<std::string> CRPCTable::listCommands() const
{
std::vector<std::string> commandList;
commandList.reserve(mapCommands.size());
for (const auto& i : mapCommands) commandList.emplace_back(i.first);
return commandList;
}
UniValue CRPCTable::dumpArgMap(const JSONRPCRequest& args_request) const
{
JSONRPCRequest request = args_request;
request.mode = JSONRPCRequest::GET_ARGS;
UniValue ret{UniValue::VARR};
for (const auto& cmd : mapCommands) {
UniValue result;
if (ExecuteCommands(cmd.second, request, result)) {
for (const auto& values : result.getValues()) {
ret.push_back(values);
}
}
}
return ret;
}
void RPCSetTimerInterfaceIfUnset(RPCTimerInterface *iface)
{
if (!timerInterface)
timerInterface = iface;
}
void RPCSetTimerInterface(RPCTimerInterface *iface)
{
timerInterface = iface;
}
void RPCUnsetTimerInterface(RPCTimerInterface *iface)
{
if (timerInterface == iface)
timerInterface = nullptr;
}
void RPCRunLater(const std::string& name, std::function<void()> func, int64_t nSeconds)
{
if (!timerInterface)
throw JSONRPCError(RPC_INTERNAL_ERROR, "No timer handler registered for RPC");
LOCK(g_deadline_timers_mutex);
deadlineTimers.erase(name);
LogPrint(BCLog::RPC, "queue run of timer %s in %i seconds (using %s)\n", name, nSeconds, timerInterface->Name());
deadlineTimers.emplace(name, std::unique_ptr<RPCTimerBase>(timerInterface->NewTimer(func, nSeconds*1000)));
}
bool RPCSerializationWithoutWitness()
{
return (gArgs.GetIntArg("-rpcserialversion", DEFAULT_RPC_SERIALIZE_VERSION) == 0);
}
CRPCTable tableRPC;
|