flang-rt/lib/runtime/environment.cpp - mirrors/github.com/llvm/llvm-project - Git at Google

 //===-- lib/runtime/environment.cpp -----------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "flang-rt/runtime/environment.h"
 #include "environment-default-list.h"
 #include "memory.h"
 #include "flang-rt/runtime/tools.h"
 #include <cstdio>
 #include <cstdlib>
 #include <cstring>
 #include <limits>

 #ifdef _WIN32
 #ifdef _MSC_VER
 extern char **_environ;
 #endif
 #elif defined(__FreeBSD__)
 // FreeBSD has environ in crt rather than libc. Using "extern char** environ"
 // in the code of a shared library makes it fail to link with -Wl,--no-undefined
 // See https://reviews.freebsd.org/D30842#840642
 #else
 extern char **environ;
 #endif

 namespace Fortran::runtime {

 #ifndef FLANG_RUNTIME_NO_GLOBAL_VAR_DEFS
 RT_OFFLOAD_VAR_GROUP_BEGIN
 RT_VAR_ATTRS ExecutionEnvironment executionEnvironment;
 RT_OFFLOAD_VAR_GROUP_END
 #endif // FLANG_RUNTIME_NO_GLOBAL_VAR_DEFS

 // Optional callback routines to be invoked pre and post execution
 // environment setup.
 // RTNAME(RegisterConfigureEnv) will return true if callback function(s)
 // is(are) successfully added to small array of pointers.  False if more
 // than nConfigEnvCallback registrations for either pre or post functions.

 static int nPreConfigEnvCallback{0};
 static void (*PreConfigEnvCallback[ExecutionEnvironment::nConfigEnvCallback])(
     int, const char *[], const char *[], const EnvironmentDefaultList *){
     nullptr};

 static int nPostConfigEnvCallback{0};
 static void (*PostConfigEnvCallback[ExecutionEnvironment::nConfigEnvCallback])(
     int, const char *[], const char *[], const EnvironmentDefaultList *){
     nullptr};

 static void SetEnvironmentDefaults(const EnvironmentDefaultList *envDefaults) {
   if (!envDefaults) {
     return;
   }

   for (int itemIndex = 0; itemIndex < envDefaults->numItems; ++itemIndex) {
     const char *name = envDefaults->item[itemIndex].name;
     const char *value = envDefaults->item[itemIndex].value;
 #ifdef _WIN32
     if (auto *x{std::getenv(name)}) {
       continue;
     }
     if (_putenv_s(name, value) != 0) {
 #else
     if (setenv(name, value, /*overwrite=*/0) == -1) {
 #endif
       Fortran::runtime::Terminator{__FILE__, __LINE__}.Crash(
           std::strerror(errno));
     }
   }
 }

 RT_OFFLOAD_API_GROUP_BEGIN
 common::optional<Convert> GetConvertFromString(const char *x, std::size_t n) {
   static const char *keywords[]{
       "UNKNOWN", "NATIVE", "LITTLE_ENDIAN", "BIG_ENDIAN", "SWAP", nullptr};
   switch (IdentifyValue(x, n, keywords)) {
   case 0:
     return Convert::Unknown;
   case 1:
     return Convert::Native;
   case 2:
     return Convert::LittleEndian;
   case 3:
     return Convert::BigEndian;
   case 4:
     return Convert::Swap;
   default:
     return common::nullopt;
   }
 }
 RT_OFFLOAD_API_GROUP_END

 void ExecutionEnvironment::Configure(int ac, const char *av[],
     const char *env[], const EnvironmentDefaultList *envDefaults) {
   argc = ac;
   argv = av;
   SetEnvironmentDefaults(envDefaults);

   if (0 != nPreConfigEnvCallback) {
     // Run an optional callback function after the core of the
     // ExecutionEnvironment() logic.
     for (int i{0}; i != nPreConfigEnvCallback; ++i) {
       PreConfigEnvCallback[i](ac, av, env, envDefaults);
     }
   }

 #ifdef _WIN32
   envp = _environ;
 #elif defined(__FreeBSD__)
   auto envpp{reinterpret_cast<char ***>(dlsym(RTLD_DEFAULT, "environ"))};
   if (envpp) {
     envp = *envpp;
   }
 #else
   envp = environ;
 #endif
   listDirectedOutputLineLengthLimit = 79; // PGI default
   defaultOutputRoundingMode =
       decimal::FortranRounding::RoundNearest; // RP(==RN)
   conversion = Convert::Unknown;

   if (auto *x{std::getenv("FORT_FMT_RECL")}) {
     char *end;
     auto n{std::strtol(x, &end, 10)};
     if (n > 0 && n < std::numeric_limits<int>::max() && *end == '\0') {
       listDirectedOutputLineLengthLimit = n;
     } else {
       std::fprintf(
           stderr, "Fortran runtime: FORT_FMT_RECL=%s is invalid; ignored\n", x);
     }
   }

   if (auto *x{std::getenv("FORT_CONVERT")}) {
     if (auto convert{GetConvertFromString(x, std::strlen(x))}) {
       conversion = *convert;
     } else {
       std::fprintf(
           stderr, "Fortran runtime: FORT_CONVERT=%s is invalid; ignored\n", x);
     }
   }

   if (auto *x{std::getenv("FORT_TRUNCATE_STREAM")}) {
     char *end;
     auto n{std::strtol(x, &end, 10)};
     if (n >= 0 && n <= 1 && *end == '\0') {
       truncateStream = n != 0;
     } else {
       std::fprintf(stderr,
           "Fortran runtime: FORT_TRUNCATE_STREAM=%s is invalid; ignored\n", x);
     }
   }

   if (auto *x{std::getenv("NO_STOP_MESSAGE")}) {
     char *end;
     auto n{std::strtol(x, &end, 10)};
     if (n >= 0 && n <= 1 && *end == '\0') {
       noStopMessage = n != 0;
     } else {
       std::fprintf(stderr,
           "Fortran runtime: NO_STOP_MESSAGE=%s is invalid; ignored\n", x);
     }
   }

   if (auto *x{std::getenv("DEFAULT_UTF8")}) {
     char *end;
     auto n{std::strtol(x, &end, 10)};
     if (n >= 0 && n <= 1 && *end == '\0') {
       defaultUTF8 = n != 0;
     } else {
       std::fprintf(
           stderr, "Fortran runtime: DEFAULT_UTF8=%s is invalid; ignored\n", x);
     }
   }

   if (auto *x{std::getenv("FORT_CHECK_POINTER_DEALLOCATION")}) {
     char *end;
     auto n{std::strtol(x, &end, 10)};
     if (n >= 0 && n <= 1 && *end == '\0') {
       checkPointerDeallocation = n != 0;
     } else {
       std::fprintf(stderr,
           "Fortran runtime: FORT_CHECK_POINTER_DEALLOCATION=%s is invalid; "
           "ignored\n",
           x);
     }
   }

   if (auto *x{std::getenv("FLANG_RT_DEBUG")}) {
     internalDebugging = std::strtol(x, nullptr, 10);
   }

   if (auto *x{std::getenv("ACC_OFFLOAD_STACK_SIZE")}) {
     char *end;
     auto n{std::strtoul(x, &end, 10)};
     if (n > 0 && n < std::numeric_limits<std::size_t>::max() && *end == '\0') {
       cudaStackLimit = n;
     } else {
       std::fprintf(stderr,
           "Fortran runtime: ACC_OFFLOAD_STACK_SIZE=%s is invalid; ignored\n",
           x);
     }
   }

   if (auto *x{std::getenv("NV_CUDAFOR_DEVICE_IS_MANAGED")}) {
     char *end;
     auto n{std::strtol(x, &end, 10)};
     if (n >= 0 && n <= 1 && *end == '\0') {
       cudaDeviceIsManaged = n != 0;
     } else {
       std::fprintf(stderr,
           "Fortran runtime: NV_CUDAFOR_DEVICE_IS_MANAGED=%s is invalid; "
           "ignored\n",
           x);
     }
   }

   // TODO: Set RP/ROUND='PROCESSOR_DEFINED' from environment

   if (0 != nPostConfigEnvCallback) {
     // Run an optional callback function in reverse order of registration
     // after the core of the ExecutionEnvironment() logic.
     for (int i{0}; i != nPostConfigEnvCallback; ++i) {
       PostConfigEnvCallback[i](ac, av, env, envDefaults);
     }
   }
 }

 const char *ExecutionEnvironment::GetEnv(
     const char *name, std::size_t name_length, const Terminator &terminator) {
   RUNTIME_CHECK(terminator, name && name_length);

   OwningPtr<char> cStyleName{
       SaveDefaultCharacter(name, name_length, terminator)};
   RUNTIME_CHECK(terminator, cStyleName);

   return std::getenv(cStyleName.get());
 }

 std::int32_t ExecutionEnvironment::SetEnv(const char *name,
     std::size_t name_length, const char *value, std::size_t value_length,
     const Terminator &terminator) {

   RUNTIME_CHECK(terminator, name && name_length && value && value_length);

   OwningPtr<char> cStyleName{
       SaveDefaultCharacter(name, name_length, terminator)};
   RUNTIME_CHECK(terminator, cStyleName);

   OwningPtr<char> cStyleValue{
       SaveDefaultCharacter(value, value_length, terminator)};
   RUNTIME_CHECK(terminator, cStyleValue);

   std::int32_t status{0};

 #ifdef _WIN32

   status = _putenv_s(cStyleName.get(), cStyleValue.get());

 #else

   constexpr int overwrite = 1;
   status = setenv(cStyleName.get(), cStyleValue.get(), overwrite);

 #endif

   if (status != 0) {
     status = errno;
   }

   return status;
 }

 std::int32_t ExecutionEnvironment::UnsetEnv(
     const char *name, std::size_t name_length, const Terminator &terminator) {

   RUNTIME_CHECK(terminator, name && name_length);

   OwningPtr<char> cStyleName{
       SaveDefaultCharacter(name, name_length, terminator)};
   RUNTIME_CHECK(terminator, cStyleName);

   std::int32_t status{0};

 #ifdef _WIN32

   // Passing empty string as value will unset the variable
   status = _putenv_s(cStyleName.get(), "");

 #else

   status = unsetenv(cStyleName.get());

 #endif

   if (status != 0) {
     status = errno;
   }

   return status;
 }

 extern "C" {

 // User supplied callback functions to further customize the configuration
 // of the runtime environment.
 // The pre and post callback functions are called upon entry and exit
 // of ExecutionEnvironment::Configure() respectively.

 bool RTNAME(RegisterConfigureEnv)(
     ExecutionEnvironment::ConfigEnvCallbackPtr pre,
     ExecutionEnvironment::ConfigEnvCallbackPtr post) {
   bool ret{true};

   if (nullptr != pre) {
     if (nPreConfigEnvCallback < ExecutionEnvironment::nConfigEnvCallback) {
       PreConfigEnvCallback[nPreConfigEnvCallback++] = pre;
     } else {
       ret = false;
     }
   }

   if (ret && nullptr != post) {
     if (nPostConfigEnvCallback < ExecutionEnvironment::nConfigEnvCallback) {
       PostConfigEnvCallback[nPostConfigEnvCallback++] = post;
     } else {
       ret = false;
     }
   }

   return ret;
 }
 } // extern "C"

 } // namespace Fortran::runtime
	//===-- lib/runtime/environment.cpp ------------------------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "flang-rt/runtime/environment.h"
	#include "environment-default-list.h"
	#include "memory.h"
	#include "flang-rt/runtime/tools.h"
	#include <cstdio>
	#include <cstdlib>
	#include <cstring>
	#include <limits>

	#ifdef _WIN32
	#ifdef _MSC_VER
	extern char **_environ;
	#endif
	#elif defined(__FreeBSD__)
	// FreeBSD has environ in crt rather than libc. Using "extern char** environ"
	// in the code of a shared library makes it fail to link with -Wl,--no-undefined
	// See https://reviews.freebsd.org/D30842#840642
	#else
	extern char **environ;
	#endif

	namespace Fortran::runtime {

	#ifndef FLANG_RUNTIME_NO_GLOBAL_VAR_DEFS
	RT_OFFLOAD_VAR_GROUP_BEGIN
	RT_VAR_ATTRS ExecutionEnvironment executionEnvironment;
	RT_OFFLOAD_VAR_GROUP_END
	#endif // FLANG_RUNTIME_NO_GLOBAL_VAR_DEFS

	// Optional callback routines to be invoked pre and post execution
	// environment setup.
	// RTNAME(RegisterConfigureEnv) will return true if callback function(s)
	// is(are) successfully added to small array of pointers. False if more
	// than nConfigEnvCallback registrations for either pre or post functions.

	static int nPreConfigEnvCallback{0};
	static void (*PreConfigEnvCallback[ExecutionEnvironment::nConfigEnvCallback])(
	int, const char [], const char [], const EnvironmentDefaultList *){
	nullptr};

	static int nPostConfigEnvCallback{0};
	static void (*PostConfigEnvCallback[ExecutionEnvironment::nConfigEnvCallback])(
	int, const char [], const char [], const EnvironmentDefaultList *){
	nullptr};

	static void SetEnvironmentDefaults(const EnvironmentDefaultList *envDefaults) {
	if (!envDefaults) {
	return;
	}

	for (int itemIndex = 0; itemIndex < envDefaults->numItems; ++itemIndex) {
	const char *name = envDefaults->item[itemIndex].name;
	const char *value = envDefaults->item[itemIndex].value;
	#ifdef _WIN32
	if (auto *x{std::getenv(name)}) {
	continue;
	}
	if (_putenv_s(name, value) != 0) {
	#else
	if (setenv(name, value, /overwrite=/0) == -1) {
	#endif
	Fortran::runtime::Terminator{__FILE__, __LINE__}.Crash(
	std::strerror(errno));
	}
	}
	}

	RT_OFFLOAD_API_GROUP_BEGIN
	common::optional<Convert> GetConvertFromString(const char *x, std::size_t n) {
	static const char *keywords[]{
	"UNKNOWN", "NATIVE", "LITTLE_ENDIAN", "BIG_ENDIAN", "SWAP", nullptr};
	switch (IdentifyValue(x, n, keywords)) {
	case 0:
	return Convert::Unknown;
	case 1:
	return Convert::Native;
	case 2:
	return Convert::LittleEndian;
	case 3:
	return Convert::BigEndian;
	case 4:
	return Convert::Swap;
	default:
	return common::nullopt;
	}
	}
	RT_OFFLOAD_API_GROUP_END

	void ExecutionEnvironment::Configure(int ac, const char *av[],
	const char env[], const EnvironmentDefaultList envDefaults) {
	argc = ac;
	argv = av;
	SetEnvironmentDefaults(envDefaults);

	if (0 != nPreConfigEnvCallback) {
	// Run an optional callback function after the core of the
	// ExecutionEnvironment() logic.
	for (int i{0}; i != nPreConfigEnvCallback; ++i) {
	PreConfigEnvCallback[i](ac, av, env, envDefaults);
	}
	}

	#ifdef _WIN32
	envp = _environ;
	#elif defined(__FreeBSD__)
	auto envpp{reinterpret_cast<char ***>(dlsym(RTLD_DEFAULT, "environ"))};
	if (envpp) {
	envp = *envpp;
	}
	#else
	envp = environ;
	#endif
	listDirectedOutputLineLengthLimit = 79; // PGI default
	defaultOutputRoundingMode =
	decimal::FortranRounding::RoundNearest; // RP(==RN)
	conversion = Convert::Unknown;

	if (auto *x{std::getenv("FORT_FMT_RECL")}) {
	char *end;
	auto n{std::strtol(x, &end, 10)};
	if (n > 0 && n < std::numeric_limits<int>::max() && *end == '\0') {
	listDirectedOutputLineLengthLimit = n;
	} else {
	std::fprintf(
	stderr, "Fortran runtime: FORT_FMT_RECL=%s is invalid; ignored\n", x);
	}
	}

	if (auto *x{std::getenv("FORT_CONVERT")}) {
	if (auto convert{GetConvertFromString(x, std::strlen(x))}) {
	conversion = *convert;
	} else {
	std::fprintf(
	stderr, "Fortran runtime: FORT_CONVERT=%s is invalid; ignored\n", x);
	}
	}

	if (auto *x{std::getenv("FORT_TRUNCATE_STREAM")}) {
	char *end;
	auto n{std::strtol(x, &end, 10)};
	if (n >= 0 && n <= 1 && *end == '\0') {
	truncateStream = n != 0;
	} else {
	std::fprintf(stderr,
	"Fortran runtime: FORT_TRUNCATE_STREAM=%s is invalid; ignored\n", x);
	}
	}

	if (auto *x{std::getenv("NO_STOP_MESSAGE")}) {
	char *end;
	auto n{std::strtol(x, &end, 10)};
	if (n >= 0 && n <= 1 && *end == '\0') {
	noStopMessage = n != 0;
	} else {
	std::fprintf(stderr,
	"Fortran runtime: NO_STOP_MESSAGE=%s is invalid; ignored\n", x);
	}
	}

	if (auto *x{std::getenv("DEFAULT_UTF8")}) {
	char *end;
	auto n{std::strtol(x, &end, 10)};
	if (n >= 0 && n <= 1 && *end == '\0') {
	defaultUTF8 = n != 0;
	} else {
	std::fprintf(
	stderr, "Fortran runtime: DEFAULT_UTF8=%s is invalid; ignored\n", x);
	}
	}

	if (auto *x{std::getenv("FORT_CHECK_POINTER_DEALLOCATION")}) {
	char *end;
	auto n{std::strtol(x, &end, 10)};
	if (n >= 0 && n <= 1 && *end == '\0') {
	checkPointerDeallocation = n != 0;
	} else {
	std::fprintf(stderr,
	"Fortran runtime: FORT_CHECK_POINTER_DEALLOCATION=%s is invalid; "
	"ignored\n",
	x);
	}
	}

	if (auto *x{std::getenv("FLANG_RT_DEBUG")}) {
	internalDebugging = std::strtol(x, nullptr, 10);
	}

	if (auto *x{std::getenv("ACC_OFFLOAD_STACK_SIZE")}) {
	char *end;
	auto n{std::strtoul(x, &end, 10)};
	if (n > 0 && n < std::numeric_limits<std::size_t>::max() && *end == '\0') {
	cudaStackLimit = n;
	} else {
	std::fprintf(stderr,
	"Fortran runtime: ACC_OFFLOAD_STACK_SIZE=%s is invalid; ignored\n",
	x);
	}
	}

	if (auto *x{std::getenv("NV_CUDAFOR_DEVICE_IS_MANAGED")}) {
	char *end;
	auto n{std::strtol(x, &end, 10)};
	if (n >= 0 && n <= 1 && *end == '\0') {
	cudaDeviceIsManaged = n != 0;
	} else {
	std::fprintf(stderr,
	"Fortran runtime: NV_CUDAFOR_DEVICE_IS_MANAGED=%s is invalid; "
	"ignored\n",
	x);
	}
	}

	// TODO: Set RP/ROUND='PROCESSOR_DEFINED' from environment

	if (0 != nPostConfigEnvCallback) {
	// Run an optional callback function in reverse order of registration
	// after the core of the ExecutionEnvironment() logic.
	for (int i{0}; i != nPostConfigEnvCallback; ++i) {
	PostConfigEnvCallback[i](ac, av, env, envDefaults);
	}
	}
	}

	const char *ExecutionEnvironment::GetEnv(
	const char *name, std::size_t name_length, const Terminator &terminator) {
	RUNTIME_CHECK(terminator, name && name_length);

	OwningPtr<char> cStyleName{
	SaveDefaultCharacter(name, name_length, terminator)};
	RUNTIME_CHECK(terminator, cStyleName);

	return std::getenv(cStyleName.get());
	}

	std::int32_t ExecutionEnvironment::SetEnv(const char *name,
	std::size_t name_length, const char *value, std::size_t value_length,
	const Terminator &terminator) {

	RUNTIME_CHECK(terminator, name && name_length && value && value_length);

	OwningPtr<char> cStyleName{
	SaveDefaultCharacter(name, name_length, terminator)};
	RUNTIME_CHECK(terminator, cStyleName);

	OwningPtr<char> cStyleValue{
	SaveDefaultCharacter(value, value_length, terminator)};
	RUNTIME_CHECK(terminator, cStyleValue);

	std::int32_t status{0};

	#ifdef _WIN32

	status = _putenv_s(cStyleName.get(), cStyleValue.get());

	#else

	constexpr int overwrite = 1;
	status = setenv(cStyleName.get(), cStyleValue.get(), overwrite);

	#endif

	if (status != 0) {
	status = errno;
	}

	return status;
	}

	std::int32_t ExecutionEnvironment::UnsetEnv(
	const char *name, std::size_t name_length, const Terminator &terminator) {

	RUNTIME_CHECK(terminator, name && name_length);

	OwningPtr<char> cStyleName{
	SaveDefaultCharacter(name, name_length, terminator)};
	RUNTIME_CHECK(terminator, cStyleName);

	std::int32_t status{0};

	#ifdef _WIN32

	// Passing empty string as value will unset the variable
	status = _putenv_s(cStyleName.get(), "");

	#else

	status = unsetenv(cStyleName.get());

	#endif

	if (status != 0) {
	status = errno;
	}

	return status;
	}

	extern "C" {

	// User supplied callback functions to further customize the configuration
	// of the runtime environment.
	// The pre and post callback functions are called upon entry and exit
	// of ExecutionEnvironment::Configure() respectively.

	bool RTNAME(RegisterConfigureEnv)(
	ExecutionEnvironment::ConfigEnvCallbackPtr pre,
	ExecutionEnvironment::ConfigEnvCallbackPtr post) {
	bool ret{true};

	if (nullptr != pre) {
	if (nPreConfigEnvCallback < ExecutionEnvironment::nConfigEnvCallback) {
	PreConfigEnvCallback[nPreConfigEnvCallback++] = pre;
	} else {
	ret = false;
	}
	}

	if (ret && nullptr != post) {
	if (nPostConfigEnvCallback < ExecutionEnvironment::nConfigEnvCallback) {
	PostConfigEnvCallback[nPostConfigEnvCallback++] = post;
	} else {
	ret = false;
	}
	}

	return ret;
	}
	} // extern "C"

	} // namespace Fortran::runtime