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dart / sdk.git / refs/tags/2.17.0-101.0.dev / . / runtime / bin / dfe.cc
blob: b29c8c1e919ddd61c2ef5475dfae9dc230297e81 [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.
#include "bin/dfe.h"
#include "bin/dartutils.h"
#include "bin/directory.h"
#include "bin/error_exit.h"
#include "bin/exe_utils.h"
#include "bin/file.h"
#include "bin/platform.h"
#include "bin/utils.h"
#include "include/dart_tools_api.h"
#include "platform/utils.h"
extern "C" {
#if !defined(EXCLUDE_CFE_AND_KERNEL_PLATFORM)
extern const uint8_t kKernelServiceDill[];
extern intptr_t kKernelServiceDillSize;
extern const uint8_t kPlatformStrongDill[];
extern intptr_t kPlatformStrongDillSize;
#else
const uint8_t* kKernelServiceDill = nullptr;
intptr_t kKernelServiceDillSize = 0;
const uint8_t* kPlatformStrongDill = nullptr;
intptr_t kPlatformStrongDillSize = 0;
#endif // !defined(EXCLUDE_CFE_AND_KERNEL_PLATFORM)
}
namespace dart {
namespace bin {
// The run_vm_tests binary has the DART_PRECOMPILER set in order to allow unit
// tests to exercise JIT and AOT pipeline.
//
// Only on X64 do we have kernel-service.dart.snapshot available otherwise we
// need to fall back to the built-in one (if we have it).
#if defined(EXCLUDE_CFE_AND_KERNEL_PLATFORM) || \
(defined(DART_PRECOMPILER) && defined(TARGET_ARCH_X64))
const uint8_t* kernel_service_dill = nullptr;
const intptr_t kernel_service_dill_size = 0;
#else
const uint8_t* kernel_service_dill = kKernelServiceDill;
const intptr_t kernel_service_dill_size = kKernelServiceDillSize;
#endif
#if defined(EXCLUDE_CFE_AND_KERNEL_PLATFORM)
const uint8_t* platform_strong_dill = nullptr;
const intptr_t platform_strong_dill_size = 0;
#else
const uint8_t* platform_strong_dill = kPlatformStrongDill;
const intptr_t platform_strong_dill_size = kPlatformStrongDillSize;
#endif
#if !defined(DART_PRECOMPILED_RUNTIME)
DFE dfe;
#endif
const char kKernelServiceSnapshot[] = "kernel-service.dart.snapshot";
const char kSnapshotsDirectory[] = "snapshots";
DFE::DFE()
: use_dfe_(false),
use_incremental_compiler_(false),
frontend_filename_(nullptr),
application_kernel_buffer_(nullptr),
application_kernel_buffer_size_(0) {
}
DFE::~DFE() {
if (frontend_filename_ != nullptr) {
free(frontend_filename_);
}
frontend_filename_ = nullptr;
free(application_kernel_buffer_);
application_kernel_buffer_ = nullptr;
application_kernel_buffer_size_ = 0;
}
void DFE::Init() {
if (platform_strong_dill == nullptr) {
return;
}
InitKernelServiceAndPlatformDills();
Dart_SetDartLibrarySourcesKernel(platform_strong_dill,
platform_strong_dill_size);
}
void DFE::InitKernelServiceAndPlatformDills() {
if (frontend_filename_ != nullptr) {
return;
}
// |dir_prefix| includes the last path seperator.
auto dir_prefix = EXEUtils::GetDirectoryPrefixFromExeName();
// Look for the frontend snapshot next to the executable.
frontend_filename_ =
Utils::SCreate("%s%s", dir_prefix.get(), kKernelServiceSnapshot);
if (File::Exists(nullptr, frontend_filename_)) {
return;
}
free(frontend_filename_);
frontend_filename_ = nullptr;
// If the frontend snapshot is not found next to the executable, then look for
// it in the "snapshots" directory.
frontend_filename_ =
Utils::SCreate("%s%s%s%s", dir_prefix.get(), kSnapshotsDirectory,
File::PathSeparator(), kKernelServiceSnapshot);
if (File::Exists(nullptr, frontend_filename_)) {
return;
}
free(frontend_filename_);
frontend_filename_ = nullptr;
}
bool DFE::KernelServiceDillAvailable() const {
return kernel_service_dill != nullptr;
}
void DFE::LoadKernelService(const uint8_t** kernel_service_buffer,
intptr_t* kernel_service_buffer_size) {
*kernel_service_buffer = kernel_service_dill;
*kernel_service_buffer_size = kernel_service_dill_size;
}
void DFE::LoadPlatform(const uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size) {
*kernel_buffer = platform_strong_dill;
*kernel_buffer_size = platform_strong_dill_size;
}
bool DFE::CanUseDartFrontend() const {
return (platform_strong_dill != nullptr) &&
(KernelServiceDillAvailable() || (frontend_filename() != nullptr));
}
PathSanitizer::PathSanitizer(const char* path) {
#if defined(DART_HOST_OS_WINDOWS)
// For Windows we need to massage the paths a bit according to
// http://blogs.msdn.com/b/ie/archive/2006/12/06/file-uris-in-windows.aspx
//
// Convert
// C:\one\two\three
// to
// /C:/one/two/three
//
// (see builtin.dart#_sanitizeWindowsPath)
if (path == nullptr) {
return;
}
intptr_t len = strlen(path);
char* uri = reinterpret_cast<char*>(new char[len + 1 + 1]);
if (uri == nullptr) {
OUT_OF_MEMORY();
}
char* s = uri;
if (len > 2 && path[1] == ':') {
*s++ = '/';
}
for (const char* p = path; *p != '\0'; ++p, ++s) {
*s = *p == '\\' ? '/' : *p;
}
*s = '\0';
sanitized_uri_ = std::unique_ptr<char[]>(uri);
#else
sanitized_uri_ = path;
#endif // defined(DART_HOST_OS_WINDOWS)
}
const char* PathSanitizer::sanitized_uri() const {
#if defined(DART_HOST_OS_WINDOWS)
return sanitized_uri_.get();
#else
return sanitized_uri_;
#endif // defined(DART_HOST_OS_WINDOWS)
}
Dart_KernelCompilationResult DFE::CompileScript(const char* script_uri,
bool incremental,
const char* package_config,
bool snapshot) {
// TODO(aam): When Frontend is ready, VM should be passing vm_outline.dill
// instead of vm_platform.dill to Frontend for compilation.
PathSanitizer path_sanitizer(script_uri);
const char* sanitized_uri = path_sanitizer.sanitized_uri();
return Dart_CompileToKernel(sanitized_uri, platform_strong_dill,
platform_strong_dill_size, incremental, snapshot,
package_config, verbosity());
}
Dart_KernelCompilationResult DFE::CompileScriptWithGivenNullsafety(
const char* script_uri,
const char* package_config,
bool snapshot,
bool null_safety) {
// TODO(aam): When Frontend is ready, VM should be passing vm_outline.dill
// instead of vm_platform.dill to Frontend for compilation.
PathSanitizer path_sanitizer(script_uri);
const char* sanitized_uri = path_sanitizer.sanitized_uri();
return Dart_CompileToKernelWithGivenNullsafety(
sanitized_uri, platform_strong_dill, platform_strong_dill_size, snapshot,
package_config, null_safety, verbosity());
}
void DFE::CompileAndReadScript(const char* script_uri,
uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size,
char** error,
int* exit_code,
const char* package_config,
bool snapshot) {
Dart_KernelCompilationResult result = CompileScript(
script_uri, use_incremental_compiler(), package_config, snapshot);
switch (result.status) {
case Dart_KernelCompilationStatus_Ok:
*kernel_buffer = result.kernel;
*kernel_buffer_size = result.kernel_size;
*error = nullptr;
*exit_code = 0;
break;
case Dart_KernelCompilationStatus_Error:
free(result.kernel);
*error = result.error; // Copy error message.
*exit_code = kCompilationErrorExitCode;
break;
case Dart_KernelCompilationStatus_Crash:
free(result.kernel);
*error = result.error; // Copy error message.
*exit_code = kDartFrontendErrorExitCode;
break;
case Dart_KernelCompilationStatus_Unknown:
case Dart_KernelCompilationStatus_MsgFailed:
free(result.kernel);
*error = result.error; // Copy error message.
*exit_code = kErrorExitCode;
break;
}
}
void DFE::ReadScript(const char* script_uri,
uint8_t** kernel_buffer,
intptr_t* kernel_buffer_size,
bool decode_uri) const {
int64_t start = Dart_TimelineGetMicros();
if (!TryReadKernelFile(script_uri, kernel_buffer, kernel_buffer_size,
decode_uri)) {
return;
}
if (!Dart_IsKernel(*kernel_buffer, *kernel_buffer_size)) {
free(*kernel_buffer);
*kernel_buffer = nullptr;
*kernel_buffer_size = -1;
}
int64_t end = Dart_TimelineGetMicros();
Dart_TimelineEvent("DFE::ReadScript", start, end,
Dart_Timeline_Event_Duration, 0, nullptr, nullptr);
}
// Attempts to treat [buffer] as a in-memory kernel byte representation.
// If successful, returns [true] and places [buffer] into [kernel_ir], byte size
// into [kernel_ir_size].
// If unsuccessful, returns [false], puts [nullptr] into [kernel_ir], -1 into
// [kernel_ir_size].
static bool TryReadSimpleKernelBuffer(uint8_t* buffer,
uint8_t** p_kernel_ir,
intptr_t* p_kernel_ir_size) {
DartUtils::MagicNumber magic_number =
DartUtils::SniffForMagicNumber(buffer, *p_kernel_ir_size);
if (magic_number == DartUtils::kKernelMagicNumber) {
// Do not free buffer if this is a kernel file - kernel_file will be
// backed by the same memory as the buffer and caller will own it.
// Caller is responsible for freeing the buffer when this function
// returns true.
*p_kernel_ir = buffer;
return true;
}
free(buffer);
*p_kernel_ir = nullptr;
*p_kernel_ir_size = -1;
return false;
}
/// Reads [script_uri] file, returns [true] if successful, [false] otherwise.
///
/// If successful, newly allocated buffer with file contents is returned in
/// [buffer], file contents byte count - in [size].
static bool TryReadFile(const char* script_uri,
uint8_t** buffer,
intptr_t* size,
bool decode_uri = true) {
void* script_file = decode_uri ? DartUtils::OpenFileUri(script_uri, false)
: DartUtils::OpenFile(script_uri, false);
if (script_file == nullptr) {
return false;
}
DartUtils::ReadFile(buffer, size, script_file);
DartUtils::CloseFile(script_file);
return *buffer != nullptr;
}
class KernelIRNode {
public:
KernelIRNode(uint8_t* kernel_ir, intptr_t kernel_size)
: kernel_ir_(kernel_ir), kernel_size_(kernel_size) {}
~KernelIRNode() {
free(kernel_ir_);
}
static void Add(KernelIRNode** p_head, KernelIRNode** p_tail,
KernelIRNode* node) {
if (*p_head == nullptr) {
*p_head = node;
} else {
(*p_tail)->next_ = node;
}
*p_tail = node;
}
static void Merge(KernelIRNode* head, uint8_t** p_bytes,
intptr_t* p_size) {
intptr_t size = 0;
for (KernelIRNode* node = head; node != nullptr; node = node->next_) {
size = size + node->kernel_size_;
}
*p_bytes = reinterpret_cast<uint8_t*>(malloc(size));
uint8_t* p = *p_bytes;
KernelIRNode* node = head;
while (node != nullptr) {
memmove(p, node->kernel_ir_, node->kernel_size_);
p += node->kernel_size_;
KernelIRNode* next = node->next_;
node = next;
}
*p_size = size;
}
static void Delete(KernelIRNode* head) {
KernelIRNode* node = head;
while (node != nullptr) {
KernelIRNode* next = node->next_;
delete (node);
node = next;
}
}
private:
uint8_t* kernel_ir_;
intptr_t kernel_size_;
KernelIRNode* next_ = nullptr;
DISALLOW_COPY_AND_ASSIGN(KernelIRNode);
};
class StringPointer {
public:
explicit StringPointer(char* c_str) : c_str_(c_str) {}
~StringPointer() { free(c_str_); }
const char* c_str() { return c_str_; }
private:
char* c_str_;
DISALLOW_COPY_AND_ASSIGN(StringPointer);
};
// Supports "kernel list" files as input.
// Those are text files that start with '#@dill' on new line, followed
// by absolute paths to kernel files or relative paths, that are relative
// to [script_uri] "kernel list" file.
// Below is an example of valid kernel list file:
// ```
// #@dill
// /projects/mytest/build/bin/main.vm.dill
// /projects/mytest/build/packages/mytest/lib.vm.dill
// ```
static bool TryReadKernelListBuffer(const char* script_uri,
uint8_t* buffer,
intptr_t buffer_size,
uint8_t** kernel_ir,
intptr_t* kernel_ir_size) {
const char* kernel_list_dirname = DartUtils::DirName(script_uri);
if (strcmp(kernel_list_dirname, script_uri) == 0) {
kernel_list_dirname = "";
}
KernelIRNode* kernel_ir_head = nullptr;
KernelIRNode* kernel_ir_tail = nullptr;
// Add all kernels to the linked list
char* filename =
reinterpret_cast<char*>(buffer + kernel_list_magic_number.length);
intptr_t filename_size = buffer_size - kernel_list_magic_number.length;
char* tail = reinterpret_cast<char*>(memchr(filename, '\n', filename_size));
while (tail != nullptr) {
*tail = '\0';
intptr_t this_kernel_size;
uint8_t* this_buffer;
StringPointer resolved_filename(
File::IsAbsolutePath(filename)
? Utils::StrDup(filename)
: Utils::SCreate("%s%s", kernel_list_dirname, filename));
if (!TryReadFile(resolved_filename.c_str(), &this_buffer,
&this_kernel_size)) {
return false;
}
uint8_t* this_kernel_ir;
if (!TryReadSimpleKernelBuffer(this_buffer, &this_kernel_ir,
&this_kernel_size)) {
// Abandon read if any of the files in the list are invalid.
KernelIRNode::Delete(kernel_ir_head);
*kernel_ir = nullptr;
*kernel_ir_size = -1;
return false;
}
KernelIRNode::Add(&kernel_ir_head, &kernel_ir_tail,
new KernelIRNode(this_kernel_ir, this_kernel_size));
filename_size -= tail + 1 - filename;
filename = tail + 1;
tail = reinterpret_cast<char*>(memchr(filename, '\n', filename_size));
}
free(buffer);
KernelIRNode::Merge(kernel_ir_head, kernel_ir, kernel_ir_size);
KernelIRNode::Delete(kernel_ir_head);
return true;
}
bool DFE::TryReadKernelFile(const char* script_uri,
uint8_t** kernel_ir,
intptr_t* kernel_ir_size,
bool decode_uri) {
*kernel_ir = nullptr;
*kernel_ir_size = -1;
uint8_t* buffer;
if (!TryReadFile(script_uri, &buffer, kernel_ir_size, decode_uri)) {
return false;
}
DartUtils::MagicNumber magic_number =
DartUtils::SniffForMagicNumber(buffer, *kernel_ir_size);
if (magic_number == DartUtils::kKernelListMagicNumber) {
return TryReadKernelListBuffer(script_uri, buffer, *kernel_ir_size,
kernel_ir, kernel_ir_size);
}
return TryReadSimpleKernelBuffer(buffer, kernel_ir, kernel_ir_size);
}
} // namespace bin
} // namespace dart