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cmake/Source/cmCMakeLanguageCommand.cxx

485 lines
16 KiB

/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmCMakeLanguageCommand.h"
#include <algorithm>
#include <array>
#include <cstddef>
#include <memory>
#include <string>
#include <utility>
#include <cm/optional>
#include <cm/string_view>
#include <cmext/string_view>
#include "cmArgumentParser.h"
#include "cmArgumentParserTypes.h"
#include "cmDependencyProvider.h"
#include "cmExecutionStatus.h"
#include "cmGlobalGenerator.h"
#include "cmListFileCache.h"
#include "cmMakefile.h"
#include "cmMessageType.h"
#include "cmRange.h"
#include "cmState.h"
#include "cmStringAlgorithms.h"
#include "cmSystemTools.h"
#include "cmake.h"
namespace {
bool FatalError(cmExecutionStatus& status, std::string const& error)
{
status.SetError(error);
cmSystemTools::SetFatalErrorOccurred();
return false;
}
std::array<cm::static_string_view, 14> InvalidCommands{
{ // clang-format off
"function"_s, "endfunction"_s,
"macro"_s, "endmacro"_s,
"if"_s, "elseif"_s, "else"_s, "endif"_s,
"while"_s, "endwhile"_s,
"foreach"_s, "endforeach"_s,
"block"_s, "endblock"_s
} // clang-format on
};
std::array<cm::static_string_view, 1> InvalidDeferCommands{
{
// clang-format off
"return"_s,
} // clang-format on
};
struct Defer
{
std::string Id;
std::string IdVar;
cmMakefile* Directory = nullptr;
};
bool cmCMakeLanguageCommandCALL(std::vector<cmListFileArgument> const& args,
std::string const& callCommand,
size_t startArg, cm::optional<Defer> defer,
cmExecutionStatus& status)
{
// ensure specified command is valid
// start/end flow control commands are not allowed
auto cmd = cmSystemTools::LowerCase(callCommand);
if (std::find(InvalidCommands.cbegin(), InvalidCommands.cend(), cmd) !=
InvalidCommands.cend()) {
return FatalError(status,
cmStrCat("invalid command specified: "_s, callCommand));
}
if (defer &&
std::find(InvalidDeferCommands.cbegin(), InvalidDeferCommands.cend(),
cmd) != InvalidDeferCommands.cend()) {
return FatalError(status,
cmStrCat("invalid command specified: "_s, callCommand));
}
cmMakefile& makefile = status.GetMakefile();
cmListFileContext context = makefile.GetBacktrace().Top();
std::vector<cmListFileArgument> funcArgs;
funcArgs.reserve(args.size() - startArg);
// The rest of the arguments are passed to the function call above
for (size_t i = startArg; i < args.size(); ++i) {
funcArgs.emplace_back(args[i].Value, args[i].Delim, context.Line);
}
cmListFileFunction func{ callCommand, context.Line, context.Line,
std::move(funcArgs) };
if (defer) {
if (defer->Id.empty()) {
defer->Id = makefile.NewDeferId();
}
if (!defer->IdVar.empty()) {
makefile.AddDefinition(defer->IdVar, defer->Id);
}
cmMakefile* deferMakefile =
defer->Directory ? defer->Directory : &makefile;
if (!deferMakefile->DeferCall(defer->Id, context.FilePath, func)) {
return FatalError(
status,
cmStrCat("DEFER CALL may not be scheduled in directory:\n "_s,
deferMakefile->GetCurrentBinaryDirectory(),
"\nat this time."_s));
}
return true;
}
return makefile.ExecuteCommand(func, status);
}
bool cmCMakeLanguageCommandDEFER(Defer const& defer,
std::vector<std::string> const& args,
size_t arg, cmExecutionStatus& status)
{
cmMakefile* deferMakefile =
defer.Directory ? defer.Directory : &status.GetMakefile();
if (args[arg] == "CANCEL_CALL"_s) {
++arg; // Consume CANCEL_CALL.
auto ids = cmMakeRange(args).advance(arg);
for (std::string const& id : ids) {
if (id[0] >= 'A' && id[0] <= 'Z') {
return FatalError(
status, cmStrCat("DEFER CANCEL_CALL unknown argument:\n "_s, id));
}
if (!deferMakefile->DeferCancelCall(id)) {
return FatalError(
status,
cmStrCat("DEFER CANCEL_CALL may not update directory:\n "_s,
deferMakefile->GetCurrentBinaryDirectory(),
"\nat this time."_s));
}
}
return true;
}
if (args[arg] == "GET_CALL_IDS"_s) {
++arg; // Consume GET_CALL_IDS.
if (arg == args.size()) {
return FatalError(status, "DEFER GET_CALL_IDS missing output variable");
}
std::string const& var = args[arg++];
if (arg != args.size()) {
return FatalError(status, "DEFER GET_CALL_IDS given too many arguments");
}
cm::optional<std::string> ids = deferMakefile->DeferGetCallIds();
if (!ids) {
return FatalError(
status,
cmStrCat("DEFER GET_CALL_IDS may not access directory:\n "_s,
deferMakefile->GetCurrentBinaryDirectory(),
"\nat this time."_s));
}
status.GetMakefile().AddDefinition(var, *ids);
return true;
}
if (args[arg] == "GET_CALL"_s) {
++arg; // Consume GET_CALL.
if (arg == args.size()) {
return FatalError(status, "DEFER GET_CALL missing id");
}
std::string const& id = args[arg++];
if (arg == args.size()) {
return FatalError(status, "DEFER GET_CALL missing output variable");
}
std::string const& var = args[arg++];
if (arg != args.size()) {
return FatalError(status, "DEFER GET_CALL given too many arguments");
}
if (id.empty()) {
return FatalError(status, "DEFER GET_CALL id may not be empty");
}
if (id[0] >= 'A' && id[0] <= 'Z') {
return FatalError(status,
cmStrCat("DEFER GET_CALL unknown argument:\n "_s, id));
}
cm::optional<std::string> call = deferMakefile->DeferGetCall(id);
if (!call) {
return FatalError(
status,
cmStrCat("DEFER GET_CALL may not access directory:\n "_s,
deferMakefile->GetCurrentBinaryDirectory(),
"\nat this time."_s));
}
status.GetMakefile().AddDefinition(var, *call);
return true;
}
return FatalError(status,
cmStrCat("DEFER operation unknown: "_s, args[arg]));
}
bool cmCMakeLanguageCommandEVAL(std::vector<cmListFileArgument> const& args,
cmExecutionStatus& status)
{
cmMakefile& makefile = status.GetMakefile();
cmListFileContext context = makefile.GetBacktrace().Top();
std::vector<std::string> expandedArgs;
makefile.ExpandArguments(args, expandedArgs);
if (expandedArgs.size() < 2) {
return FatalError(status, "called with incorrect number of arguments");
}
if (expandedArgs[1] != "CODE") {
auto code_iter =
std::find(expandedArgs.begin() + 2, expandedArgs.end(), "CODE");
if (code_iter == expandedArgs.end()) {
return FatalError(status, "called without CODE argument");
}
return FatalError(
status,
"called with unsupported arguments between EVAL and CODE arguments");
}
const std::string code =
cmJoin(cmMakeRange(expandedArgs.begin() + 2, expandedArgs.end()), " ");
return makefile.ReadListFileAsString(
code, cmStrCat(context.FilePath, ":", context.Line, ":EVAL"));
}
bool cmCMakeLanguageCommandSET_DEPENDENCY_PROVIDER(
std::vector<std::string> const& args, cmExecutionStatus& status)
{
cmState* state = status.GetMakefile().GetState();
if (!state->InTopLevelIncludes()) {
return FatalError(
status,
"Dependency providers can only be set as part of the first call to "
"project(). More specifically, cmake_language(SET_DEPENDENCY_PROVIDER) "
"can only be called while the first project() command processes files "
"listed in CMAKE_PROJECT_TOP_LEVEL_INCLUDES.");
}
struct SetProviderArgs
{
std::string Command;
ArgumentParser::NonEmpty<std::vector<std::string>> Methods;
};
auto const ArgsParser =
cmArgumentParser<SetProviderArgs>()
.Bind("SET_DEPENDENCY_PROVIDER"_s, &SetProviderArgs::Command)
.Bind("SUPPORTED_METHODS"_s, &SetProviderArgs::Methods);
std::vector<std::string> unparsed;
auto parsedArgs = ArgsParser.Parse(args, &unparsed);
if (!unparsed.empty()) {
return FatalError(
status, cmStrCat("Unrecognized keyword: \"", unparsed.front(), "\""));
}
// We store the command that FetchContent_MakeAvailable() can call in a
// global (but considered internal) property. If the provider doesn't
// support this method, we set this property to an empty string instead.
// This simplifies the logic in FetchContent_MakeAvailable() and doesn't
// require us to define a new internal command or sub-command.
std::string fcmasProperty = "__FETCHCONTENT_MAKEAVAILABLE_SERIAL_PROVIDER";
if (parsedArgs.Command.empty()) {
if (!parsedArgs.Methods.empty()) {
return FatalError(status,
"Must specify a non-empty command name when provider "
"methods are given");
}
state->ClearDependencyProvider();
state->SetGlobalProperty(fcmasProperty, "");
return true;
}
cmState::Command command = state->GetCommand(parsedArgs.Command);
if (!command) {
return FatalError(status,
cmStrCat("Command \"", parsedArgs.Command,
"\" is not a defined command"));
}
if (parsedArgs.Methods.empty()) {
return FatalError(status, "Must specify at least one provider method");
}
bool supportsFetchContentMakeAvailableSerial = false;
std::vector<cmDependencyProvider::Method> methods;
for (auto const& method : parsedArgs.Methods) {
if (method == "FIND_PACKAGE") {
methods.emplace_back(cmDependencyProvider::Method::FindPackage);
} else if (method == "FETCHCONTENT_MAKEAVAILABLE_SERIAL") {
supportsFetchContentMakeAvailableSerial = true;
methods.emplace_back(
cmDependencyProvider::Method::FetchContentMakeAvailableSerial);
} else {
return FatalError(
status,
cmStrCat("Unknown dependency provider method \"", method, "\""));
}
}
state->SetDependencyProvider({ parsedArgs.Command, methods });
state->SetGlobalProperty(
fcmasProperty,
supportsFetchContentMakeAvailableSerial ? parsedArgs.Command.c_str() : "");
return true;
}
bool cmCMakeLanguageCommandGET_MESSAGE_LOG_LEVEL(
std::vector<cmListFileArgument> const& args, cmExecutionStatus& status)
{
cmMakefile& makefile = status.GetMakefile();
std::vector<std::string> expandedArgs;
makefile.ExpandArguments(args, expandedArgs);
if (args.size() < 2 || expandedArgs.size() > 2) {
return FatalError(
status,
"sub-command GET_MESSAGE_LOG_LEVEL expects exactly one argument");
}
Message::LogLevel logLevel = makefile.GetCurrentLogLevel();
std::string outputValue = cmake::LogLevelToString(logLevel);
const std::string& outputVariable = expandedArgs[1];
makefile.AddDefinition(outputVariable, outputValue);
return true;
}
}
bool cmCMakeLanguageCommand(std::vector<cmListFileArgument> const& args,
cmExecutionStatus& status)
{
std::vector<std::string> expArgs;
size_t rawArg = 0;
size_t expArg = 0;
// Helper to consume and expand one raw argument at a time.
auto moreArgs = [&]() -> bool {
while (expArg >= expArgs.size()) {
if (rawArg >= args.size()) {
return false;
}
std::vector<cmListFileArgument> tmpArg;
tmpArg.emplace_back(args[rawArg++]);
status.GetMakefile().ExpandArguments(tmpArg, expArgs);
}
return true;
};
auto finishArgs = [&]() {
std::vector<cmListFileArgument> tmpArgs(args.begin() + rawArg, args.end());
status.GetMakefile().ExpandArguments(tmpArgs, expArgs);
rawArg = args.size();
};
if (!moreArgs()) {
return FatalError(status, "called with incorrect number of arguments");
}
if (expArgs[expArg] == "SET_DEPENDENCY_PROVIDER"_s) {
finishArgs();
return cmCMakeLanguageCommandSET_DEPENDENCY_PROVIDER(expArgs, status);
}
cm::optional<Defer> maybeDefer;
if (expArgs[expArg] == "DEFER"_s) {
++expArg; // Consume "DEFER".
if (!moreArgs()) {
return FatalError(status, "DEFER requires at least one argument");
}
Defer defer;
// Process optional arguments.
while (moreArgs()) {
if (expArgs[expArg] == "CALL"_s) {
break;
}
if (expArgs[expArg] == "CANCEL_CALL"_s ||
expArgs[expArg] == "GET_CALL_IDS"_s ||
expArgs[expArg] == "GET_CALL"_s) {
if (!defer.Id.empty() || !defer.IdVar.empty()) {
return FatalError(status,
cmStrCat("DEFER "_s, expArgs[expArg],
" does not accept ID or ID_VAR."_s));
}
finishArgs();
return cmCMakeLanguageCommandDEFER(defer, expArgs, expArg, status);
}
if (expArgs[expArg] == "DIRECTORY"_s) {
++expArg; // Consume "DIRECTORY".
if (defer.Directory) {
return FatalError(status,
"DEFER given multiple DIRECTORY arguments");
}
if (!moreArgs()) {
return FatalError(status, "DEFER DIRECTORY missing value");
}
std::string dir = expArgs[expArg++];
if (dir.empty()) {
return FatalError(status, "DEFER DIRECTORY may not be empty");
}
dir = cmSystemTools::CollapseFullPath(
dir, status.GetMakefile().GetCurrentSourceDirectory());
defer.Directory =
status.GetMakefile().GetGlobalGenerator()->FindMakefile(dir);
if (!defer.Directory) {
return FatalError(status,
cmStrCat("DEFER DIRECTORY:\n "_s, dir,
"\nis not known. "_s,
"It may not have been processed yet."_s));
}
} else if (expArgs[expArg] == "ID"_s) {
++expArg; // Consume "ID".
if (!defer.Id.empty()) {
return FatalError(status, "DEFER given multiple ID arguments");
}
if (!moreArgs()) {
return FatalError(status, "DEFER ID missing value");
}
defer.Id = expArgs[expArg++];
if (defer.Id.empty()) {
return FatalError(status, "DEFER ID may not be empty");
}
if (defer.Id[0] >= 'A' && defer.Id[0] <= 'Z') {
return FatalError(status, "DEFER ID may not start in A-Z.");
}
} else if (expArgs[expArg] == "ID_VAR"_s) {
++expArg; // Consume "ID_VAR".
if (!defer.IdVar.empty()) {
return FatalError(status, "DEFER given multiple ID_VAR arguments");
}
if (!moreArgs()) {
return FatalError(status, "DEFER ID_VAR missing variable name");
}
defer.IdVar = expArgs[expArg++];
if (defer.IdVar.empty()) {
return FatalError(status, "DEFER ID_VAR may not be empty");
}
} else {
return FatalError(
status, cmStrCat("DEFER unknown option:\n "_s, expArgs[expArg]));
}
}
if (!(moreArgs() && expArgs[expArg] == "CALL"_s)) {
return FatalError(status, "DEFER must be followed by a CALL argument");
}
maybeDefer = std::move(defer);
}
if (expArgs[expArg] == "CALL") {
++expArg; // Consume "CALL".
// CALL requires a command name.
if (!moreArgs()) {
return FatalError(status, "CALL missing command name");
}
std::string const& callCommand = expArgs[expArg++];
// CALL accepts no further expanded arguments.
if (expArg != expArgs.size()) {
return FatalError(status, "CALL command's arguments must be literal");
}
// Run the CALL.
return cmCMakeLanguageCommandCALL(args, callCommand, rawArg,
std::move(maybeDefer), status);
}
if (expArgs[expArg] == "EVAL") {
return cmCMakeLanguageCommandEVAL(args, status);
}
if (expArgs[expArg] == "GET_MESSAGE_LOG_LEVEL") {
return cmCMakeLanguageCommandGET_MESSAGE_LOG_LEVEL(args, status);
}
return FatalError(status, "called with unknown meta-operation");
}