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// Copyright 2015 The Bazel Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
// ijar.cpp -- .jar -> _interface.jar tool.
//
#include <errno.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <memory>
#include "third_party/ijar/zip.h"
namespace devtools_ijar {
bool verbose = false;
// Reads a JVM class from classdata_in (of the specified length), and
// writes out a simplified class to classdata_out, advancing the
// pointer. Returns true if the class should be kept.
bool StripClass(u1 *&classdata_out, const u1 *classdata_in, size_t in_length);
const char *CLASS_EXTENSION = ".class";
const size_t CLASS_EXTENSION_LENGTH = strlen(CLASS_EXTENSION);
const char *TRANSITIVE_PREFIX = "META-INF/TRANSITIVE/";
const size_t TRANSITIVE_PREFIX_LENGTH = strlen(TRANSITIVE_PREFIX);
const char *KOTLIN_BUILTINS_EXTENSION = ".kotlin_builtins";
const size_t KOTLIN_BUILTINS_EXTENSION_LENGTH =
strlen(KOTLIN_BUILTINS_EXTENSION);
const char *KOTLIN_MODULE_EXTENSION = ".kotlin_module";
const size_t KOTLIN_MODULE_EXTENSION_LENGTH = strlen(KOTLIN_MODULE_EXTENSION);
const char *SCALA_TASTY_EXTENSION = ".tasty";
const size_t SCALA_TASTY_EXTENSION_LENGTH = strlen(SCALA_TASTY_EXTENSION);
const char *KOTLIN_PKG_PATH = "kotlin/";
const size_t KOTLIN_PKG_PATH_LENGTH = strlen(KOTLIN_PKG_PATH);
const char *MANIFEST_DIR_PATH = "META-INF/";
const size_t MANIFEST_DIR_PATH_LENGTH = strlen(MANIFEST_DIR_PATH);
const char *MANIFEST_PATH = "META-INF/MANIFEST.MF";
const size_t MANIFEST_PATH_LENGTH = strlen(MANIFEST_PATH);
const char *MANIFEST_HEADER =
"Manifest-Version: 1.0\r\n"
"Created-By: bazel\r\n";
const size_t MANIFEST_HEADER_LENGTH = strlen(MANIFEST_HEADER);
// These attributes are used by JavaBuilder, Turbine, and ijar.
// They must all be kept in sync.
const char *TARGET_LABEL_KEY = "Target-Label: ";
const size_t TARGET_LABEL_KEY_LENGTH = strlen(TARGET_LABEL_KEY);
const char *INJECTING_RULE_KIND_KEY = "Injecting-Rule-Kind: ";
const size_t INJECTING_RULE_KIND_KEY_LENGTH = strlen(INJECTING_RULE_KIND_KEY);
const char *DUMMY_FILE = "dummy";
const size_t DUMMY_PATH_LENGTH = strlen(DUMMY_FILE);
// The size of an output jar containing only an empty dummy file:
const size_t JAR_WITH_DUMMY_FILE_SIZE = 98ull + 2 * DUMMY_PATH_LENGTH;
class JarExtractorProcessor : public ZipExtractorProcessor {
public:
// Set the ZipBuilder to add the ijar class to the output zip file.
// This pointer should not be deleted while this class is still in use and
// it should be set before any call to the Process() method.
void SetZipBuilder(ZipBuilder *builder) { this->builder_ = builder; }
virtual void WriteManifest(const char *target_label,
const char *injecting_rule_kind) = 0;
protected:
// Not owned by JarStripperProcessor, see SetZipBuilder().
ZipBuilder *builder_;
};
// ZipExtractorProcessor that select only .class file and use
// StripClass to generate an interface class, storing as a new file
// in the specified ZipBuilder.
class JarStripperProcessor : public JarExtractorProcessor {
public:
JarStripperProcessor() {}
virtual ~JarStripperProcessor() {}
virtual void Process(const char *filename, u4 attr, const u1 *data,
size_t size);
virtual bool Accept(const char *filename, u4 attr);
virtual void WriteManifest(const char *target_label,
const char *injecting_rule_kind);
};
static bool StartsWith(const char *str, const size_t str_len,
const char *prefix, const size_t prefix_len) {
return str_len >= prefix_len && strncmp(str, prefix, prefix_len) == 0;
}
static bool EndsWith(const char *str, const size_t str_len, const char *suffix,
const size_t suffix_len) {
return str_len >= suffix_len &&
strcmp(str + str_len - suffix_len, suffix) == 0;
}
// Returns true for .kotlin_module and the similar .kotlin_builtins files.
static bool IsKotlinModule(const char *filename, const size_t filename_len) {
return (StartsWith(filename, filename_len, MANIFEST_DIR_PATH,
MANIFEST_DIR_PATH_LENGTH) &&
EndsWith(filename, filename_len, KOTLIN_MODULE_EXTENSION,
KOTLIN_MODULE_EXTENSION_LENGTH)) ||
(StartsWith(filename, filename_len, KOTLIN_PKG_PATH,
KOTLIN_PKG_PATH_LENGTH) &&
EndsWith(filename, filename_len, KOTLIN_BUILTINS_EXTENSION,
KOTLIN_BUILTINS_EXTENSION_LENGTH));
}
static bool IsScalaTasty(const char *filename, const size_t filename_len) {
return EndsWith(filename, filename_len, SCALA_TASTY_EXTENSION,
SCALA_TASTY_EXTENSION_LENGTH);
}
bool JarStripperProcessor::Accept(const char *filename, const u4 /*attr*/) {
const size_t filename_len = strlen(filename);
if (IsKotlinModule(filename, filename_len) ||
IsScalaTasty(filename, filename_len)) {
return true;
}
if (filename_len < CLASS_EXTENSION_LENGTH ||
strcmp(filename + filename_len - CLASS_EXTENSION_LENGTH,
CLASS_EXTENSION) != 0) {
return false;
}
if (StartsWith(filename, filename_len, TRANSITIVE_PREFIX,
TRANSITIVE_PREFIX_LENGTH)) {
return false;
}
return true;
}
static bool IsModuleInfo(const char *filename) {
const char *slash = strrchr(filename, '/');
if (slash == NULL) {
slash = filename;
} else {
slash++;
}
return strcmp(slash, "module-info.class") == 0;
}
void JarStripperProcessor::Process(const char *filename, const u4 /*attr*/,
const u1 *data, const size_t size) {
if (verbose) {
fprintf(stderr, "INFO: StripClass: %s\n", filename);
}
if (IsModuleInfo(filename) || IsKotlinModule(filename, strlen(filename)) ||
IsScalaTasty(filename, strlen(filename))) {
u1 *q = builder_->NewFile(filename, 0);
memcpy(q, data, size);
builder_->FinishFile(size, /* compress: */ false, /* compute_crc: */ true);
} else {
u1 *buf = reinterpret_cast<u1 *>(malloc(size));
u1 *classdata_out = buf;
if (!StripClass(buf, data, size)) {
free(classdata_out);
return;
}
u1 *q = builder_->NewFile(filename, 0);
size_t out_length = buf - classdata_out;
memcpy(q, classdata_out, out_length);
builder_->FinishFile(out_length, /* compress: */ false,
/* compute_crc: */ true);
free(classdata_out);
}
}
// Copies the string into the buffer without the null terminator, returns
// updated buffer pointer
static u1 *WriteStr(u1 *buf, const char *str) {
size_t len = strlen(str);
memcpy(buf, str, len);
return buf + len;
}
// Writes a manifest attribute including a "\r\n" line break, returns updated
// buffer pointer.
static u1 *WriteManifestAttr(u1 *buf, const char *key, const char *val) {
buf = WriteStr(buf, key);
buf = WriteStr(buf, val);
*buf++ = '\r';
*buf++ = '\n';
return buf;
}
void JarStripperProcessor::WriteManifest(const char *target_label,
const char *injecting_rule_kind) {
if (target_label == nullptr) {
return;
}
builder_->WriteEmptyFile(MANIFEST_DIR_PATH);
u1 *start = builder_->NewFile(MANIFEST_PATH, 0);
u1 *buf = start;
buf = WriteStr(buf, MANIFEST_HEADER);
buf = WriteManifestAttr(buf, TARGET_LABEL_KEY, target_label);
if (injecting_rule_kind) {
buf = WriteManifestAttr(buf, INJECTING_RULE_KIND_KEY, injecting_rule_kind);
}
size_t total_len = buf - start;
builder_->FinishFile(total_len, /* compress: */ false,
/* compute_crc: */ true);
}
class JarCopierProcessor : public JarExtractorProcessor {
public:
JarCopierProcessor(const char *jar) : jar_(jar) {}
virtual ~JarCopierProcessor() {}
virtual void Process(const char *filename, u4 /*attr*/, const u1 *data,
size_t size);
virtual bool Accept(const char *filename, u4 /*attr*/);
virtual void WriteManifest(const char *target_label,
const char *injecting_rule_kind);
private:
class ManifestLocator : public ZipExtractorProcessor {
public:
ManifestLocator() : manifest_buf_(nullptr), manifest_size_(0) {}
virtual ~ManifestLocator() { free(manifest_buf_); }
u1 *manifest_buf_;
size_t manifest_size_;
virtual bool Accept(const char *filename, const u4 /*attr*/) {
return strcmp(filename, MANIFEST_PATH) == 0;
}
virtual void Process(const char * /*filename*/, const u4 /*attr*/,
const u1 *data, const size_t size) {
manifest_buf_ = (u1 *)malloc(size);
memmove(manifest_buf_, data, size);
manifest_size_ = size;
}
};
const char *jar_;
u1 *AppendTargetLabelToManifest(u1 *buf, const u1 *manifest_data, size_t size,
const char *target_label,
const char *injecting_rule_kind);
};
void JarCopierProcessor::Process(const char *filename, const u4 /*attr*/,
const u1 *data, const size_t size) {
if (verbose) {
fprintf(stderr, "INFO: CopyFile: %s\n", filename);
}
// We already handled the manifest in WriteManifest
if (strcmp(filename, MANIFEST_DIR_PATH) == 0 ||
strcmp(filename, MANIFEST_PATH) == 0) {
return;
}
u1 *q = builder_->NewFile(filename, 0);
memcpy(q, data, size);
builder_->FinishFile(size, /* compress: */ false, /* compute_crc: */ true);
}
bool JarCopierProcessor::Accept(const char * /*filename*/, const u4 /*attr*/) {
return true;
}
void JarCopierProcessor::WriteManifest(const char *target_label,
const char *injecting_rule_kind) {
ManifestLocator manifest_locator;
std::unique_ptr<ZipExtractor> in(
ZipExtractor::Create(jar_, &manifest_locator));
in->ProcessAll();
bool wants_manifest =
manifest_locator.manifest_buf_ != nullptr || target_label != nullptr;
if (wants_manifest) {
builder_->WriteEmptyFile(MANIFEST_DIR_PATH);
u1 *start = builder_->NewFile(MANIFEST_PATH, 0);
u1 *buf = start;
// Three cases:
// 1. We need to merge the target label into a pre-existing manifest
// 2. Write a manifest from scratch with a target label
// 3. Copy existing manifest without adding target label
if (manifest_locator.manifest_buf_ != nullptr && target_label != nullptr) {
buf = AppendTargetLabelToManifest(buf, manifest_locator.manifest_buf_,
manifest_locator.manifest_size_,
target_label, injecting_rule_kind);
} else if (target_label != nullptr) {
buf = WriteStr(buf, MANIFEST_HEADER);
buf = WriteManifestAttr(buf, TARGET_LABEL_KEY, target_label);
if (injecting_rule_kind) {
buf = WriteManifestAttr(buf, INJECTING_RULE_KIND_KEY,
injecting_rule_kind);
}
} else {
memcpy(buf, manifest_locator.manifest_buf_,
manifest_locator.manifest_size_);
buf += manifest_locator.manifest_size_;
}
size_t total_len = buf - start;
builder_->FinishFile(total_len, /* compress: */ false,
/* compute_crc: */ true);
}
}
u1 *JarCopierProcessor::AppendTargetLabelToManifest(
u1 *buf, const u1 *manifest_data, const size_t size,
const char *target_label, const char *injecting_rule_kind) {
const char *line_start = (const char *)manifest_data;
const char *data_end = (const char *)manifest_data + size;
// Write main attributes part
while (line_start < data_end && line_start[0] != '\r' &&
line_start[0] != '\n') {
const char *line_end = strchr(line_start, '\n');
// Go past return char to point to next line, or to end of data buffer
line_end = line_end != nullptr ? line_end + 1 : data_end;
// Copy line unless it's Target-Label/Injecting-Rule-Kind and we're writing
// that ourselves
if (strncmp(line_start, TARGET_LABEL_KEY, TARGET_LABEL_KEY_LENGTH) != 0 &&
strncmp(line_start, INJECTING_RULE_KIND_KEY,
INJECTING_RULE_KIND_KEY_LENGTH) != 0) {
size_t len = line_end - line_start;
memcpy(buf, line_start, len);
buf += len;
}
line_start = line_end;
}
// Append target label and, if given, rule kind
buf = WriteManifestAttr(buf, TARGET_LABEL_KEY, target_label);
if (injecting_rule_kind != nullptr) {
buf = WriteManifestAttr(buf, INJECTING_RULE_KIND_KEY, injecting_rule_kind);
}
// Write the rest of the manifest file
size_t sections_len = data_end - line_start;
if (sections_len > 0) {
memcpy(buf, line_start, sections_len);
buf += sections_len;
}
return buf;
}
// WriteManifest, including zip file format overhead.
static size_t EstimateManifestOutputSize(const char *target_label,
const char *injecting_rule_kind) {
if (target_label == nullptr) {
return 0;
}
// local headers
size_t length = 30 * 2 + MANIFEST_DIR_PATH_LENGTH + MANIFEST_PATH_LENGTH;
// central directory
length += 46 * 2 + MANIFEST_DIR_PATH_LENGTH + MANIFEST_PATH_LENGTH;
// zip64 EOCD entries
length += 56 * 2;
// manifest content
length += MANIFEST_HEADER_LENGTH;
// target label manifest entry, including newline
length += TARGET_LABEL_KEY_LENGTH + strlen(target_label) + 2;
if (injecting_rule_kind) {
// injecting rule kind manifest entry, including newline
length += INJECTING_RULE_KIND_KEY_LENGTH + strlen(injecting_rule_kind) + 2;
}
return length;
}
// Opens "file_in" (a .jar file) for reading, and writes an interface
// .jar to "file_out".
static void OpenFilesAndProcessJar(const char *file_out, const char *file_in,
bool strip_jar, const char *target_label,
const char *injecting_rule_kind) {
std::unique_ptr<JarExtractorProcessor> processor;
if (strip_jar) {
processor =
std::unique_ptr<JarExtractorProcessor>(new JarStripperProcessor());
} else {
processor =
std::unique_ptr<JarExtractorProcessor>(new JarCopierProcessor(file_in));
}
std::unique_ptr<ZipExtractor> in(
ZipExtractor::Create(file_in, processor.get()));
if (in == NULL) {
fprintf(stderr, "Unable to open Zip file %s: %s\n", file_in,
strerror(errno));
abort();
}
u8 output_length = in->CalculateOutputLength();
if (output_length < JAR_WITH_DUMMY_FILE_SIZE) {
output_length = JAR_WITH_DUMMY_FILE_SIZE;
}
output_length +=
EstimateManifestOutputSize(target_label, injecting_rule_kind);
std::unique_ptr<ZipBuilder> out(ZipBuilder::Create(file_out, output_length));
if (out == NULL) {
fprintf(stderr, "Unable to open output file %s: %s\n", file_out,
strerror(errno));
abort();
}
processor->SetZipBuilder(out.get());
processor->WriteManifest(target_label, injecting_rule_kind);
// Process all files in the zip
if (in->ProcessAll() < 0) {
fprintf(stderr, "%s\n", in->GetError());
abort();
}
// Add dummy file, since javac doesn't like truly empty jars.
if (out->GetNumberFiles() == 0) {
out->WriteEmptyFile(DUMMY_FILE);
}
// Finish writing the output file
if (out->Finish() < 0) {
fprintf(stderr, "%s\n", out->GetError());
abort();
}
// Get all file size
size_t in_length = in->GetSize();
size_t out_length = out->GetSize();
if (verbose) {
fprintf(stderr, "INFO: produced interface jar: %s -> %s (%d%%).\n", file_in,
file_out, static_cast<int>(100.0 * out_length / in_length));
}
}
} // namespace devtools_ijar
//
// main method
//
static void usage() {
fprintf(stderr,
"Usage: ijar "
"[-v] [--[no]strip_jar] "
"[--target label label] [--injecting_rule_kind kind] "
"x.jar [x_interface.jar>]\n");
fprintf(stderr, "Creates an interface jar from the specified jar file.\n");
exit(1);
}
int main(int argc, char **argv) {
bool strip_jar = true;
const char *target_label = NULL;
const char *injecting_rule_kind = NULL;
const char *filename_in = NULL;
const char *filename_out = NULL;
for (int ii = 1; ii < argc; ++ii) {
if (strcmp(argv[ii], "-v") == 0) {
devtools_ijar::verbose = true;
} else if (strcmp(argv[ii], "--strip_jar") == 0) {
strip_jar = true;
} else if (strcmp(argv[ii], "--nostrip_jar") == 0) {
strip_jar = false;
} else if (strcmp(argv[ii], "--target_label") == 0) {
if (++ii >= argc) {
usage();
}
target_label = argv[ii];
} else if (strcmp(argv[ii], "--injecting_rule_kind") == 0) {
if (++ii >= argc) {
usage();
}
injecting_rule_kind = argv[ii];
} else if (filename_in == NULL) {
filename_in = argv[ii];
} else if (filename_out == NULL) {
filename_out = argv[ii];
} else {
usage();
}
}
if (filename_in == NULL) {
usage();
}
// Guess output filename from input:
char filename_out_buf[PATH_MAX];
if (filename_out == NULL) {
size_t len = strlen(filename_in);
if (len > 4 && strncmp(filename_in + len - 4, ".jar", 4) == 0) {
strcpy(filename_out_buf, filename_in);
strcpy(filename_out_buf + len - 4, "-interface.jar");
filename_out = filename_out_buf;
} else {
fprintf(stderr,
"Can't determine output filename since input filename "
"doesn't end with '.jar'.\n");
return 1;
}
}
if (devtools_ijar::verbose) {
fprintf(stderr, "INFO: writing to '%s'.\n", filename_out);
}
devtools_ijar::OpenFilesAndProcessJar(filename_out, filename_in, strip_jar,
target_label, injecting_rule_kind);
return 0;
}