blob: 932936f9c2e237a85e1b44e470742cbb69299eb8 [file] [log] [blame]
// Copyright (c) 2017, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#ifndef RUNTIME_BIN_DFE_H_
#define RUNTIME_BIN_DFE_H_
#include "include/dart_api.h"
#include "include/dart_native_api.h"
#include "platform/assert.h"
#include "platform/globals.h"
namespace dart {
namespace bin {
class DFE {
public:
DFE();
~DFE();
// Call Init before Dart_Initialize to prevent races between the
// different isolates.
void Init();
void Init(int target_abi_version);
char* frontend_filename() const { return frontend_filename_; }
void set_frontend_filename(const char* name) {
if (frontend_filename_ != NULL) {
free(frontend_filename_);
}
frontend_filename_ = strdup(name);
set_use_dfe();
}
void set_use_dfe(bool value = true) { use_dfe_ = value; }
bool UseDartFrontend() const { return use_dfe_; }
void set_use_incremental_compiler(bool value) {
use_incremental_compiler_ = value;
}
bool use_incremental_compiler() const { return use_incremental_compiler_; }
// Returns the platform binary file name if the path to
// kernel binaries was set using SetKernelBinaries.
const char* GetPlatformBinaryFilename();
// Set the kernel program for the main application if it was specified
// as a dill file.
void set_application_kernel_buffer(uint8_t* buffer, intptr_t size) {
application_kernel_buffer_ = buffer;
application_kernel_buffer_size_ = size;
}
void application_kernel_buffer(const uint8_t** buffer, intptr_t* size) const {
*buffer = application_kernel_buffer_;
*size = application_kernel_buffer_size_;
}
// Compiles specified script.
// Returns result from compiling the script.
Dart_KernelCompilationResult CompileScript(const char* script_uri,
bool incremental,
const char* package_config);
// Compiles specified script and reads the resulting kernel file.
// If the compilation is successful, returns a valid in memory kernel
// representation of the script, NULL otherwise
// 'error' and 'exit_code' have the error values in case of errors.
void CompileAndReadScript(const char* script_uri,
uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size,
char** error,
int* exit_code,
const char* package_config);
// Reads the script kernel file if specified 'script_uri' is a kernel file.
// Returns an in memory kernel representation of the specified script is a
// valid kernel file, false otherwise.
void ReadScript(const char* script_uri,
uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size) const;
bool KernelServiceDillAvailable() const;
// Tries to read [script_uri] as a Kernel IR file.
// Returns `true` if successful and sets [kernel_file] and [kernel_length]
// to be the kernel IR contents.
// The caller is responsible for free()ing [kernel_file] if `true`
// was returned.
static bool TryReadKernelFile(const char* script_uri,
uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size);
// We distinguish between "intent to use Dart frontend" vs "can actually
// use Dart frontend". The method UseDartFrontend tells us about the
// intent to use DFE. This method tells us if Dart frontend can actually
// be used.
bool CanUseDartFrontend() const;
void LoadPlatform(const uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size);
void LoadKernelService(const uint8_t** kernel_service_buffer,
intptr_t* kernel_service_buffer_size);
private:
bool use_dfe_;
bool use_incremental_compiler_;
char* frontend_filename_;
const uint8_t* kernel_service_dill_;
intptr_t kernel_service_dill_size_;
const uint8_t* platform_strong_dill_;
intptr_t platform_strong_dill_size_;
// Kernel binary specified on the cmd line.
uint8_t* application_kernel_buffer_;
intptr_t application_kernel_buffer_size_;
bool InitKernelServiceAndPlatformDills(int target_abi_version);
DISALLOW_COPY_AND_ASSIGN(DFE);
};
#if !defined(DART_PRECOMPILED_RUNTIME)
extern DFE dfe;
#endif
} // namespace bin
} // namespace dart
#endif // RUNTIME_BIN_DFE_H_