This source file includes following definitions.
- GenerateId
- FlattenStringArray
- SendKeysOnWindow
- Base64Decode
- UnzipArchive
- WriteUInt16
- WriteUInt32
- WriteString
- WriteBytes
- buffer
- iter_
- ReadUInt16
- ReadUInt32
- ReadString
- ReadBytes
- remaining
- UnzipEntry
- UnzipSoleFile
#include "chrome/test/chromedriver/util.h"
#include "base/base64.h"
#include "base/file_util.h"
#include "base/files/file_enumerator.h"
#include "base/files/scoped_temp_dir.h"
#include "base/format_macros.h"
#include "base/rand_util.h"
#include "base/strings/string16.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/third_party/icu/icu_utf.h"
#include "base/values.h"
#include "chrome/test/chromedriver/chrome/status.h"
#include "chrome/test/chromedriver/chrome/ui_events.h"
#include "chrome/test/chromedriver/chrome/web_view.h"
#include "chrome/test/chromedriver/key_converter.h"
#include "third_party/zlib/google/zip.h"
std::string GenerateId() {
uint64 msb = base::RandUint64();
uint64 lsb = base::RandUint64();
return base::StringPrintf("%016" PRIx64 "%016" PRIx64, msb, lsb);
}
namespace {
Status FlattenStringArray(const base::ListValue* src, base::string16* dest) {
base::string16 keys;
for (size_t i = 0; i < src->GetSize(); ++i) {
base::string16 keys_list_part;
if (!src->GetString(i, &keys_list_part))
return Status(kUnknownError, "keys should be a string");
for (size_t j = 0; j < keys_list_part.size(); ++j) {
if (CBU16_IS_SURROGATE(keys_list_part[j])) {
return Status(kUnknownError,
"ChromeDriver only supports characters in the BMP");
}
}
keys.append(keys_list_part);
}
*dest = keys;
return Status(kOk);
}
}
Status SendKeysOnWindow(
WebView* web_view,
const base::ListValue* key_list,
bool release_modifiers,
int* sticky_modifiers) {
base::string16 keys;
Status status = FlattenStringArray(key_list, &keys);
if (status.IsError())
return status;
std::list<KeyEvent> events;
int sticky_modifiers_tmp = *sticky_modifiers;
status = ConvertKeysToKeyEvents(
keys, release_modifiers, &sticky_modifiers_tmp, &events);
if (status.IsError())
return status;
status = web_view->DispatchKeyEvents(events);
if (status.IsOk())
*sticky_modifiers = sticky_modifiers_tmp;
return status;
}
bool Base64Decode(const std::string& base64,
std::string* bytes) {
std::string copy = base64;
base::RemoveChars(copy, "\n", ©);
return base::Base64Decode(copy, bytes);
}
namespace {
Status UnzipArchive(const base::FilePath& unzip_dir,
const std::string& bytes) {
base::ScopedTempDir dir;
if (!dir.CreateUniqueTempDir())
return Status(kUnknownError, "unable to create temp dir");
base::FilePath archive = dir.path().AppendASCII("temp.zip");
int length = bytes.length();
if (base::WriteFile(archive, bytes.c_str(), length) != length)
return Status(kUnknownError, "could not write file to temp dir");
if (!zip::Unzip(archive, unzip_dir))
return Status(kUnknownError, "could not unzip archive");
return Status(kOk);
}
class DataOutputStream {
public:
DataOutputStream() {}
~DataOutputStream() {}
void WriteUInt16(uint16 data) {
WriteBytes(&data, sizeof(data));
}
void WriteUInt32(uint32 data) {
WriteBytes(&data, sizeof(data));
}
void WriteString(const std::string& data) {
WriteBytes(data.c_str(), data.length());
}
void WriteBytes(const void* bytes, int size) {
if (!size)
return;
size_t next = buffer_.length();
buffer_.resize(next + size);
memcpy(&buffer_[next], bytes, size);
}
const std::string& buffer() const { return buffer_; }
private:
std::string buffer_;
};
class DataInputStream {
public:
DataInputStream(const char* data, int size)
: data_(data), size_(size), iter_(0) {}
~DataInputStream() {}
bool ReadUInt16(uint16* data) {
return ReadBytes(data, sizeof(*data));
}
bool ReadUInt32(uint32* data) {
return ReadBytes(data, sizeof(*data));
}
bool ReadString(std::string* data, int length) {
if (length < 0)
return false;
if (iter_ + length > size_)
return false;
data->resize(length);
if (length == 0)
return true;
return ReadBytes(&(*data)[0], length);
}
bool ReadBytes(void* bytes, int size) {
if (iter_ + size > size_)
return false;
memcpy(bytes, &data_[iter_], size);
iter_ += size;
return true;
}
int remaining() const { return size_ - iter_; }
private:
const char* data_;
int size_;
int iter_;
};
struct ZipEntry {
static bool FromBytes(const std::string& bytes, ZipEntry* zip,
std::string* error_msg) {
DataInputStream stream(bytes.c_str(), bytes.length());
uint32 signature;
if (!stream.ReadUInt32(&signature) || signature != kFileHeaderSignature) {
*error_msg = "invalid file header signature";
return false;
}
if (!stream.ReadUInt16(&zip->version_needed)) {
*error_msg = "invalid version";
return false;
}
if (!stream.ReadUInt16(&zip->bit_flag)) {
*error_msg = "invalid bit flag";
return false;
}
if (!stream.ReadUInt16(&zip->compression_method)) {
*error_msg = "invalid compression method";
return false;
}
if (!stream.ReadUInt16(&zip->mod_time)) {
*error_msg = "invalid file last modified time";
return false;
}
if (!stream.ReadUInt16(&zip->mod_date)) {
*error_msg = "invalid file last modified date";
return false;
}
if (!stream.ReadUInt32(&zip->crc)) {
*error_msg = "invalid crc";
return false;
}
uint32 compressed_size;
if (!stream.ReadUInt32(&compressed_size)) {
*error_msg = "invalid compressed size";
return false;
}
if (!stream.ReadUInt32(&zip->uncompressed_size)) {
*error_msg = "invalid compressed size";
return false;
}
uint16 name_length;
if (!stream.ReadUInt16(&name_length)) {
*error_msg = "invalid name length";
return false;
}
uint16 field_length;
if (!stream.ReadUInt16(&field_length)) {
*error_msg = "invalid field length";
return false;
}
if (!stream.ReadString(&zip->name, name_length)) {
*error_msg = "invalid name";
return false;
}
if (!stream.ReadString(&zip->fields, field_length)) {
*error_msg = "invalid fields";
return false;
}
if (zip->bit_flag & 0x8) {
if (stream.remaining() < 16) {
*error_msg = "too small for data descriptor";
return false;
}
compressed_size = stream.remaining() - 16;
if (!stream.ReadString(&zip->compressed_data, compressed_size)) {
*error_msg = "invalid compressed data before descriptor";
return false;
}
if (!stream.ReadUInt32(&signature) ||
signature != kDataDescriptorSignature) {
*error_msg = "invalid data descriptor signature";
return false;
}
if (!stream.ReadUInt32(&zip->crc)) {
*error_msg = "invalid crc";
return false;
}
if (!stream.ReadUInt32(&compressed_size)) {
*error_msg = "invalid compressed size";
return false;
}
if (compressed_size != zip->compressed_data.length()) {
*error_msg = "compressed data does not match data descriptor";
return false;
}
if (!stream.ReadUInt32(&zip->uncompressed_size)) {
*error_msg = "invalid compressed size";
return false;
}
} else {
if (!stream.ReadString(&zip->compressed_data, compressed_size)) {
*error_msg = "invalid compressed data";
return false;
}
if (stream.remaining() != 0) {
*error_msg = "leftover data after zip entry";
return false;
}
}
return true;
}
std::string ToZip() {
DataOutputStream stream;
stream.WriteUInt32(kFileHeaderSignature);
stream.WriteUInt16(version_needed);
stream.WriteUInt16(bit_flag);
stream.WriteUInt16(compression_method);
stream.WriteUInt16(mod_time);
stream.WriteUInt16(mod_date);
stream.WriteUInt32(crc);
stream.WriteUInt32(compressed_data.length());
stream.WriteUInt32(uncompressed_size);
stream.WriteUInt16(name.length());
stream.WriteUInt16(fields.length());
stream.WriteString(name);
stream.WriteString(fields);
stream.WriteString(compressed_data);
uint32 entry_size = stream.buffer().length();
stream.WriteUInt32(kCentralDirSignature);
stream.WriteUInt16(0x14);
stream.WriteUInt16(version_needed);
stream.WriteUInt16(bit_flag);
stream.WriteUInt16(compression_method);
stream.WriteUInt16(mod_time);
stream.WriteUInt16(mod_date);
stream.WriteUInt32(crc);
stream.WriteUInt32(compressed_data.length());
stream.WriteUInt32(uncompressed_size);
stream.WriteUInt16(name.length());
stream.WriteUInt16(fields.length());
stream.WriteUInt16(0);
stream.WriteUInt16(0);
stream.WriteUInt16(0);
stream.WriteUInt32(0);
stream.WriteUInt32(0);
stream.WriteString(name);
stream.WriteString(fields);
uint32 cd_size = stream.buffer().length() - entry_size;
stream.WriteUInt32(kEndOfCentralDirSignature);
stream.WriteUInt16(0);
stream.WriteUInt16(0);
stream.WriteUInt16(1);
stream.WriteUInt16(1);
stream.WriteUInt32(cd_size);
stream.WriteUInt32(entry_size);
stream.WriteUInt16(0);
return stream.buffer();
}
static const uint32 kFileHeaderSignature;
static const uint32 kDataDescriptorSignature;
static const uint32 kCentralDirSignature;
static const uint32 kEndOfCentralDirSignature;
uint16 version_needed;
uint16 bit_flag;
uint16 compression_method;
uint16 mod_time;
uint16 mod_date;
uint32 crc;
uint32 uncompressed_size;
std::string name;
std::string fields;
std::string compressed_data;
};
const uint32 ZipEntry::kFileHeaderSignature = 0x04034b50;
const uint32 ZipEntry::kDataDescriptorSignature = 0x08074b50;
const uint32 ZipEntry::kCentralDirSignature = 0x02014b50;
const uint32 ZipEntry::kEndOfCentralDirSignature = 0x06054b50;
Status UnzipEntry(const base::FilePath& unzip_dir,
const std::string& bytes) {
ZipEntry entry;
std::string zip_error_msg;
if (!ZipEntry::FromBytes(bytes, &entry, &zip_error_msg))
return Status(kUnknownError, zip_error_msg);
std::string archive = entry.ToZip();
return UnzipArchive(unzip_dir, archive);
}
}
Status UnzipSoleFile(const base::FilePath& unzip_dir,
const std::string& bytes,
base::FilePath* file) {
std::string archive_error, entry_error;
Status status = UnzipArchive(unzip_dir, bytes);
if (status.IsError()) {
Status entry_status = UnzipEntry(unzip_dir, bytes);
if (entry_status.IsError()) {
return Status(kUnknownError, base::StringPrintf(
"archive error: (%s), entry error: (%s)",
status.message().c_str(), entry_status.message().c_str()));
}
}
base::FileEnumerator enumerator(unzip_dir, false ,
base::FileEnumerator::FILES | base::FileEnumerator::DIRECTORIES);
base::FilePath first_file = enumerator.Next();
if (first_file.empty())
return Status(kUnknownError, "contained 0 files");
base::FilePath second_file = enumerator.Next();
if (!second_file.empty())
return Status(kUnknownError, "contained multiple files");
*file = first_file;
return Status(kOk);
}