/* * Copyright (C) 2007 The Android Open Source Project * * 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. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sysdeps.h" #include "adb.h" #include "adb_client.h" #include "adb_io.h" #include "adb_utils.h" #include "file_sync_service.h" #include "line_printer.h" #include #include #include struct syncsendbuf { unsigned id; unsigned size; char data[SYNC_DATA_MAX]; }; static void ensure_trailing_separators(std::string& local_path, std::string& remote_path) { if (!adb_is_separator(local_path.back())) { local_path.push_back(OS_PATH_SEPARATOR); } if (remote_path.back() != '/') { remote_path.push_back('/'); } } static bool should_pull_file(mode_t mode) { return mode & (S_IFREG | S_IFBLK | S_IFCHR); } static bool should_push_file(mode_t mode) { mode_t mask = S_IFREG; #if !defined(_WIN32) mask |= S_IFLNK; #endif return mode & mask; } struct copyinfo { std::string lpath; std::string rpath; unsigned int time = 0; unsigned int mode; uint64_t size = 0; bool skip = false; copyinfo(const std::string& local_path, const std::string& remote_path, const std::string& name, unsigned int mode) : lpath(local_path), rpath(remote_path), mode(mode) { ensure_trailing_separators(lpath, rpath); lpath.append(name); rpath.append(name); if (S_ISDIR(mode)) { ensure_trailing_separators(lpath, rpath); } } }; enum class TransferDirection { push, pull, }; struct TransferLedger { std::chrono::steady_clock::time_point start_time; uint64_t files_transferred; uint64_t files_skipped; uint64_t bytes_transferred; uint64_t bytes_expected; bool expect_multiple_files; TransferLedger() { Reset(); } bool operator==(const TransferLedger& other) const { return files_transferred == other.files_transferred && files_skipped == other.files_skipped && bytes_transferred == other.bytes_transferred; } bool operator!=(const TransferLedger& other) const { return !(*this == other); } void Reset() { start_time = std::chrono::steady_clock::now(); files_transferred = 0; files_skipped = 0; bytes_transferred = 0; bytes_expected = 0; } std::string TransferRate() { if (bytes_transferred == 0) return ""; std::chrono::duration duration; duration = std::chrono::steady_clock::now() - start_time; double s = duration.count(); if (s == 0) { return ""; } double rate = (static_cast(bytes_transferred) / s) / (1024 * 1024); return android::base::StringPrintf(" %.1f MB/s (%" PRIu64 " bytes in %.3fs)", rate, bytes_transferred, s); } void ReportProgress(LinePrinter& lp, const std::string& file, uint64_t file_copied_bytes, uint64_t file_total_bytes) { char overall_percentage_str[5] = "?"; if (bytes_expected != 0) { int overall_percentage = static_cast(bytes_transferred * 100 / bytes_expected); // If we're pulling symbolic links, we'll pull the target of the link rather than // just create a local link, and that will cause us to go over 100%. if (overall_percentage <= 100) { snprintf(overall_percentage_str, sizeof(overall_percentage_str), "%d%%", overall_percentage); } } std::string output; if (file_copied_bytes > file_total_bytes || file_total_bytes == 0) { // This case can happen if we're racing against something that wrote to the file // between our stat and our read, or if we're reading a magic file that lies about // its size. Just show how much we've copied. output = android::base::StringPrintf("[%4s] %s: %" PRId64 "/?", overall_percentage_str, file.c_str(), file_copied_bytes); } else { // If we're transferring multiple files, we want to know how far through the current // file we are, as well as the overall percentage. if (expect_multiple_files) { int file_percentage = static_cast(file_copied_bytes * 100 / file_total_bytes); output = android::base::StringPrintf("[%4s] %s: %d%%", overall_percentage_str, file.c_str(), file_percentage); } else { output = android::base::StringPrintf("[%4s] %s", overall_percentage_str, file.c_str()); } } lp.Print(output, LinePrinter::LineType::INFO); } void ReportTransferRate(LinePrinter& lp, const std::string& name, TransferDirection direction) { const char* direction_str = (direction == TransferDirection::push) ? "pushed" : "pulled"; std::stringstream ss; if (!name.empty()) { ss << name << ": "; } ss << files_transferred << " file" << ((files_transferred == 1) ? "" : "s") << " " << direction_str << "."; if (files_skipped > 0) { ss << " " << files_skipped << " file" << ((files_skipped == 1) ? "" : "s") << " skipped."; } ss << TransferRate(); lp.Print(ss.str(), LinePrinter::LineType::INFO); lp.KeepInfoLine(); } }; class SyncConnection { public: SyncConnection() : expect_done_(false) { max = SYNC_DATA_MAX; // TODO: decide at runtime. std::string error; fd = adb_connect("sync:", &error); if (fd < 0) { Error("connect failed: %s", error.c_str()); } } ~SyncConnection() { if (!IsValid()) return; if (SendQuit()) { // We sent a quit command, so the server should be doing orderly // shutdown soon. But if we encountered an error while we were using // the connection, the server might still be sending data (before // doing orderly shutdown), in which case we won't wait for all of // the data nor the coming orderly shutdown. In the common success // case, this will wait for the server to do orderly shutdown. ReadOrderlyShutdown(fd); } adb_close(fd); line_printer_.KeepInfoLine(); } bool IsValid() { return fd >= 0; } bool ReceivedError(const char* from, const char* to) { adb_pollfd pfd = {.fd = fd, .events = POLLIN}; int rc = adb_poll(&pfd, 1, 0); if (rc < 0) { Error("failed to poll: %s", strerror(errno)); return true; } return rc != 0; } void NewTransfer() { current_ledger_.Reset(); } void RecordBytesTransferred(size_t bytes) { current_ledger_.bytes_transferred += bytes; global_ledger_.bytes_transferred += bytes; } void RecordFilesTransferred(size_t files) { current_ledger_.files_transferred += files; global_ledger_.files_transferred += files; } void RecordFilesSkipped(size_t files) { current_ledger_.files_skipped += files; global_ledger_.files_skipped += files; } void ReportProgress(const std::string& file, uint64_t file_copied_bytes, uint64_t file_total_bytes) { current_ledger_.ReportProgress(line_printer_, file, file_copied_bytes, file_total_bytes); } void ReportTransferRate(const std::string& file, TransferDirection direction) { current_ledger_.ReportTransferRate(line_printer_, file, direction); } void ReportOverallTransferRate(TransferDirection direction) { if (current_ledger_ != global_ledger_) { global_ledger_.ReportTransferRate(line_printer_, "", direction); } } bool SendRequest(int id, const char* path_and_mode) { size_t path_length = strlen(path_and_mode); if (path_length > 1024) { Error("SendRequest failed: path too long: %zu", path_length); errno = ENAMETOOLONG; return false; } // Sending header and payload in a single write makes a noticeable // difference to "adb sync" performance. std::vector buf(sizeof(SyncRequest) + path_length); SyncRequest* req = reinterpret_cast(&buf[0]); req->id = id; req->path_length = path_length; char* data = reinterpret_cast(req + 1); memcpy(data, path_and_mode, path_length); return WriteFdExactly(fd, &buf[0], buf.size()); } // Sending header, payload, and footer in a single write makes a huge // difference to "adb sync" performance. bool SendSmallFile(const char* path_and_mode, const char* lpath, const char* rpath, unsigned mtime, const char* data, size_t data_length) { size_t path_length = strlen(path_and_mode); if (path_length > 1024) { Error("SendSmallFile failed: path too long: %zu", path_length); errno = ENAMETOOLONG; return false; } std::vector buf(sizeof(SyncRequest) + path_length + sizeof(SyncRequest) + data_length + sizeof(SyncRequest)); char* p = &buf[0]; SyncRequest* req_send = reinterpret_cast(p); req_send->id = ID_SEND; req_send->path_length = path_length; p += sizeof(SyncRequest); memcpy(p, path_and_mode, path_length); p += path_length; SyncRequest* req_data = reinterpret_cast(p); req_data->id = ID_DATA; req_data->path_length = data_length; p += sizeof(SyncRequest); memcpy(p, data, data_length); p += data_length; SyncRequest* req_done = reinterpret_cast(p); req_done->id = ID_DONE; req_done->path_length = mtime; p += sizeof(SyncRequest); WriteOrDie(lpath, rpath, &buf[0], (p - &buf[0])); expect_done_ = true; // RecordFilesTransferred gets called in CopyDone. RecordBytesTransferred(data_length); ReportProgress(rpath, data_length, data_length); return true; } bool SendLargeFile(const char* path_and_mode, const char* lpath, const char* rpath, unsigned mtime) { if (!SendRequest(ID_SEND, path_and_mode)) { Error("failed to send ID_SEND message '%s': %s", path_and_mode, strerror(errno)); return false; } struct stat st; if (stat(lpath, &st) == -1) { Error("cannot stat '%s': %s", lpath, strerror(errno)); return false; } uint64_t total_size = st.st_size; uint64_t bytes_copied = 0; int lfd = adb_open(lpath, O_RDONLY); if (lfd < 0) { Error("opening '%s' locally failed: %s", lpath, strerror(errno)); return false; } syncsendbuf sbuf; sbuf.id = ID_DATA; while (true) { int bytes_read = adb_read(lfd, sbuf.data, max); if (bytes_read == -1) { Error("reading '%s' locally failed: %s", lpath, strerror(errno)); adb_close(lfd); return false; } else if (bytes_read == 0) { break; } sbuf.size = bytes_read; WriteOrDie(lpath, rpath, &sbuf, sizeof(SyncRequest) + bytes_read); RecordBytesTransferred(bytes_read); bytes_copied += bytes_read; // Check to see if we've received an error from the other side. if (ReceivedError(lpath, rpath)) { break; } ReportProgress(rpath, bytes_copied, total_size); } adb_close(lfd); syncmsg msg; msg.data.id = ID_DONE; msg.data.size = mtime; expect_done_ = true; // RecordFilesTransferred gets called in CopyDone. return WriteOrDie(lpath, rpath, &msg.data, sizeof(msg.data)); } bool CopyDone(const char* from, const char* to) { syncmsg msg; if (!ReadFdExactly(fd, &msg.status, sizeof(msg.status))) { Error("failed to copy '%s' to '%s': couldn't read from device", from, to); return false; } if (msg.status.id == ID_OKAY) { if (expect_done_) { expect_done_ = false; RecordFilesTransferred(1); return true; } else { Error("failed to copy '%s' to '%s': received premature success", from, to); return true; } } if (msg.status.id != ID_FAIL) { Error("failed to copy '%s' to '%s': unknown reason %d", from, to, msg.status.id); return false; } return ReportCopyFailure(from, to, msg); } bool ReportCopyFailure(const char* from, const char* to, const syncmsg& msg) { std::vector buf(msg.status.msglen + 1); if (!ReadFdExactly(fd, &buf[0], msg.status.msglen)) { Error("failed to copy '%s' to '%s'; failed to read reason (!): %s", from, to, strerror(errno)); return false; } buf[msg.status.msglen] = 0; Error("failed to copy '%s' to '%s': %s", from, to, &buf[0]); return false; } void Printf(const char* fmt, ...) __attribute__((__format__(ADB_FORMAT_ARCHETYPE, 2, 3))) { std::string s; va_list ap; va_start(ap, fmt); android::base::StringAppendV(&s, fmt, ap); va_end(ap); line_printer_.Print(s, LinePrinter::INFO); } void Println(const char* fmt, ...) __attribute__((__format__(ADB_FORMAT_ARCHETYPE, 2, 3))) { std::string s; va_list ap; va_start(ap, fmt); android::base::StringAppendV(&s, fmt, ap); va_end(ap); line_printer_.Print(s, LinePrinter::INFO); line_printer_.KeepInfoLine(); } void Error(const char* fmt, ...) __attribute__((__format__(ADB_FORMAT_ARCHETYPE, 2, 3))) { std::string s = "adb: error: "; va_list ap; va_start(ap, fmt); android::base::StringAppendV(&s, fmt, ap); va_end(ap); line_printer_.Print(s, LinePrinter::ERROR); } void Warning(const char* fmt, ...) __attribute__((__format__(ADB_FORMAT_ARCHETYPE, 2, 3))) { std::string s = "adb: warning: "; va_list ap; va_start(ap, fmt); android::base::StringAppendV(&s, fmt, ap); va_end(ap); line_printer_.Print(s, LinePrinter::WARNING); } void ComputeExpectedTotalBytes(const std::vector& file_list) { current_ledger_.bytes_expected = 0; for (const copyinfo& ci : file_list) { // Unfortunately, this doesn't work for symbolic links, because we'll copy the // target of the link rather than just creating a link. (But ci.size is the link size.) if (!ci.skip) current_ledger_.bytes_expected += ci.size; } current_ledger_.expect_multiple_files = true; } void SetExpectedTotalBytes(uint64_t expected_total_bytes) { current_ledger_.bytes_expected = expected_total_bytes; current_ledger_.expect_multiple_files = false; } // TODO: add a char[max] buffer here, to replace syncsendbuf... int fd; size_t max; private: bool expect_done_; TransferLedger global_ledger_; TransferLedger current_ledger_; LinePrinter line_printer_; bool SendQuit() { return SendRequest(ID_QUIT, ""); // TODO: add a SendResponse? } bool WriteOrDie(const char* from, const char* to, const void* data, size_t data_length) { if (!WriteFdExactly(fd, data, data_length)) { if (errno == ECONNRESET) { // Assume adbd told us why it was closing the connection, and // try to read failure reason from adbd. syncmsg msg; if (!ReadFdExactly(fd, &msg.status, sizeof(msg.status))) { Error("failed to copy '%s' to '%s': no response: %s", from, to, strerror(errno)); } else if (msg.status.id != ID_FAIL) { Error("failed to copy '%s' to '%s': not ID_FAIL: %d", from, to, msg.status.id); } else { ReportCopyFailure(from, to, msg); } } else { Error("%zu-byte write failed: %s", data_length, strerror(errno)); } _exit(1); } return true; } }; typedef void (sync_ls_cb)(unsigned mode, unsigned size, unsigned time, const char* name); static bool sync_ls(SyncConnection& sc, const char* path, const std::function& func) { if (!sc.SendRequest(ID_LIST, path)) return false; while (true) { syncmsg msg; if (!ReadFdExactly(sc.fd, &msg.dent, sizeof(msg.dent))) return false; if (msg.dent.id == ID_DONE) return true; if (msg.dent.id != ID_DENT) return false; size_t len = msg.dent.namelen; if (len > 256) return false; // TODO: resize buffer? continue? char buf[257]; if (!ReadFdExactly(sc.fd, buf, len)) return false; buf[len] = 0; func(msg.dent.mode, msg.dent.size, msg.dent.time, buf); } } static bool sync_finish_stat(SyncConnection& sc, unsigned int* timestamp, unsigned int* mode, unsigned int* size) { syncmsg msg; if (!ReadFdExactly(sc.fd, &msg.stat, sizeof(msg.stat)) || msg.stat.id != ID_STAT) { return false; } if (timestamp) *timestamp = msg.stat.time; if (mode) *mode = msg.stat.mode; if (size) *size = msg.stat.size; return true; } static bool sync_stat(SyncConnection& sc, const char* path, unsigned int* timestamp, unsigned int* mode, unsigned int* size) { return sc.SendRequest(ID_STAT, path) && sync_finish_stat(sc, timestamp, mode, size); } static bool sync_send(SyncConnection& sc, const char* lpath, const char* rpath, unsigned mtime, mode_t mode) { std::string path_and_mode = android::base::StringPrintf("%s,%d", rpath, mode); if (S_ISLNK(mode)) { #if !defined(_WIN32) char buf[PATH_MAX]; ssize_t data_length = readlink(lpath, buf, PATH_MAX - 1); if (data_length == -1) { sc.Error("readlink '%s' failed: %s", lpath, strerror(errno)); return false; } buf[data_length++] = '\0'; if (!sc.SendSmallFile(path_and_mode.c_str(), lpath, rpath, mtime, buf, data_length)) { return false; } return sc.CopyDone(lpath, rpath); #endif } struct stat st; if (stat(lpath, &st) == -1) { sc.Error("failed to stat local file '%s': %s", lpath, strerror(errno)); return false; } if (st.st_size < SYNC_DATA_MAX) { std::string data; if (!android::base::ReadFileToString(lpath, &data)) { sc.Error("failed to read all of '%s': %s", lpath, strerror(errno)); return false; } if (!sc.SendSmallFile(path_and_mode.c_str(), lpath, rpath, mtime, data.data(), data.size())) { return false; } } else { if (!sc.SendLargeFile(path_and_mode.c_str(), lpath, rpath, mtime)) { return false; } } return sc.CopyDone(lpath, rpath); } static bool sync_recv(SyncConnection& sc, const char* rpath, const char* lpath, const char* name=nullptr) { unsigned size = 0; if (!sync_stat(sc, rpath, nullptr, nullptr, &size)) return false; if (!sc.SendRequest(ID_RECV, rpath)) return false; adb_unlink(lpath); int lfd = adb_creat(lpath, 0644); if (lfd < 0) { sc.Error("cannot create '%s': %s", lpath, strerror(errno)); return false; } uint64_t bytes_copied = 0; while (true) { syncmsg msg; if (!ReadFdExactly(sc.fd, &msg.data, sizeof(msg.data))) { adb_close(lfd); adb_unlink(lpath); return false; } if (msg.data.id == ID_DONE) break; if (msg.data.id != ID_DATA) { adb_close(lfd); adb_unlink(lpath); sc.ReportCopyFailure(rpath, lpath, msg); return false; } if (msg.data.size > sc.max) { sc.Error("msg.data.size too large: %u (max %zu)", msg.data.size, sc.max); adb_close(lfd); adb_unlink(lpath); return false; } char buffer[SYNC_DATA_MAX]; if (!ReadFdExactly(sc.fd, buffer, msg.data.size)) { adb_close(lfd); adb_unlink(lpath); return false; } if (!WriteFdExactly(lfd, buffer, msg.data.size)) { sc.Error("cannot write '%s': %s", lpath, strerror(errno)); adb_close(lfd); adb_unlink(lpath); return false; } bytes_copied += msg.data.size; sc.RecordBytesTransferred(msg.data.size); sc.ReportProgress(name != nullptr ? name : rpath, bytes_copied, size); } sc.RecordFilesTransferred(1); adb_close(lfd); return true; } bool do_sync_ls(const char* path) { SyncConnection sc; if (!sc.IsValid()) return false; return sync_ls(sc, path, [](unsigned mode, unsigned size, unsigned time, const char* name) { printf("%08x %08x %08x %s\n", mode, size, time, name); }); } static bool IsDotOrDotDot(const char* name) { return name[0] == '.' && (name[1] == '\0' || (name[1] == '.' && name[2] == '\0')); } static bool local_build_list(SyncConnection& sc, std::vector* file_list, const std::string& lpath, const std::string& rpath) { std::vector dirlist; std::unique_ptr dir(opendir(lpath.c_str()), closedir); if (!dir) { sc.Error("cannot open '%s': %s", lpath.c_str(), strerror(errno)); return false; } bool empty_dir = true; dirent* de; while ((de = readdir(dir.get()))) { if (IsDotOrDotDot(de->d_name)) { continue; } empty_dir = false; std::string stat_path = lpath + de->d_name; struct stat st; if (lstat(stat_path.c_str(), &st) == -1) { sc.Error("cannot lstat '%s': %s", stat_path.c_str(), strerror(errno)); continue; } copyinfo ci(lpath, rpath, de->d_name, st.st_mode); if (S_ISDIR(st.st_mode)) { dirlist.push_back(ci); } else { if (!should_push_file(st.st_mode)) { sc.Warning("skipping special file '%s' (mode = 0o%o)", lpath.c_str(), st.st_mode); ci.skip = true; } ci.time = st.st_mtime; ci.size = st.st_size; file_list->push_back(ci); } } // Close this directory and recurse. dir.reset(); // Add the current directory to the list if it was empty, to ensure that // it gets created. if (empty_dir) { // TODO(b/25566053): Make pushing empty directories work. // TODO(b/25457350): We don't preserve permissions on directories. sc.Warning("skipping empty directory '%s'", lpath.c_str()); copyinfo ci(adb_dirname(lpath), adb_dirname(rpath), adb_basename(lpath), S_IFDIR); ci.skip = true; file_list->push_back(ci); return true; } for (const copyinfo& ci : dirlist) { local_build_list(sc, file_list, ci.lpath, ci.rpath); } return true; } static bool copy_local_dir_remote(SyncConnection& sc, std::string lpath, std::string rpath, bool check_timestamps, bool list_only) { sc.NewTransfer(); // Make sure that both directory paths end in a slash. // Both paths are known to be nonempty, so we don't need to check. ensure_trailing_separators(lpath, rpath); // Recursively build the list of files to copy. std::vector file_list; int skipped = 0; if (!local_build_list(sc, &file_list, lpath, rpath)) { return false; } if (check_timestamps) { for (const copyinfo& ci : file_list) { if (!sc.SendRequest(ID_STAT, ci.rpath.c_str())) { return false; } } for (copyinfo& ci : file_list) { unsigned int timestamp, mode, size; if (!sync_finish_stat(sc, ×tamp, &mode, &size)) { return false; } if (size == ci.size) { // For links, we cannot update the atime/mtime. if ((S_ISREG(ci.mode & mode) && timestamp == ci.time) || (S_ISLNK(ci.mode & mode) && timestamp >= ci.time)) { ci.skip = true; } } } } sc.ComputeExpectedTotalBytes(file_list); for (const copyinfo& ci : file_list) { if (!ci.skip) { if (list_only) { sc.Println("would push: %s -> %s", ci.lpath.c_str(), ci.rpath.c_str()); } else { if (!sync_send(sc, ci.lpath.c_str(), ci.rpath.c_str(), ci.time, ci.mode)) { return false; } } } else { skipped++; } } sc.RecordFilesSkipped(skipped); sc.ReportTransferRate(lpath, TransferDirection::push); return true; } bool do_sync_push(const std::vector& srcs, const char* dst) { SyncConnection sc; if (!sc.IsValid()) return false; bool success = true; unsigned dst_mode; if (!sync_stat(sc, dst, nullptr, &dst_mode, nullptr)) return false; bool dst_exists = (dst_mode != 0); bool dst_isdir = S_ISDIR(dst_mode); if (!dst_isdir) { if (srcs.size() > 1) { sc.Error("target '%s' is not a directory", dst); return false; } else { size_t dst_len = strlen(dst); // A path that ends with a slash doesn't have to be a directory if // it doesn't exist yet. if (dst[dst_len - 1] == '/' && dst_exists) { sc.Error("failed to access '%s': Not a directory", dst); return false; } } } for (const char* src_path : srcs) { const char* dst_path = dst; struct stat st; if (stat(src_path, &st) == -1) { sc.Error("cannot stat '%s': %s", src_path, strerror(errno)); success = false; continue; } if (S_ISDIR(st.st_mode)) { std::string dst_dir = dst; // If the destination path existed originally, the source directory // should be copied as a child of the destination. if (dst_exists) { if (!dst_isdir) { sc.Error("target '%s' is not a directory", dst); return false; } // dst is a POSIX path, so we don't want to use the sysdeps // helpers here. if (dst_dir.back() != '/') { dst_dir.push_back('/'); } dst_dir.append(adb_basename(src_path)); } success &= copy_local_dir_remote(sc, src_path, dst_dir.c_str(), false, false); continue; } else if (!should_push_file(st.st_mode)) { sc.Warning("skipping special file '%s' (mode = 0o%o)", src_path, st.st_mode); continue; } std::string path_holder; if (dst_isdir) { // If we're copying a local file to a remote directory, // we really want to copy to remote_dir + "/" + local_filename. path_holder = dst_path; if (path_holder.back() != '/') { path_holder.push_back('/'); } path_holder += adb_basename(src_path); dst_path = path_holder.c_str(); } sc.NewTransfer(); sc.SetExpectedTotalBytes(st.st_size); success &= sync_send(sc, src_path, dst_path, st.st_mtime, st.st_mode); sc.ReportTransferRate(src_path, TransferDirection::push); } sc.ReportOverallTransferRate(TransferDirection::push); return success; } static bool remote_symlink_isdir(SyncConnection& sc, const std::string& rpath) { unsigned mode; std::string dir_path = rpath; dir_path.push_back('/'); if (!sync_stat(sc, dir_path.c_str(), nullptr, &mode, nullptr)) { sc.Error("failed to stat remote symlink '%s'", dir_path.c_str()); return false; } return S_ISDIR(mode); } static bool remote_build_list(SyncConnection& sc, std::vector* file_list, const std::string& rpath, const std::string& lpath) { std::vector dirlist; std::vector linklist; // Add an entry for the current directory to ensure it gets created before pulling its contents. copyinfo ci(adb_dirname(lpath), adb_dirname(rpath), adb_basename(lpath), S_IFDIR); file_list->push_back(ci); // Put the files/dirs in rpath on the lists. auto callback = [&](unsigned mode, unsigned size, unsigned time, const char* name) { if (IsDotOrDotDot(name)) { return; } copyinfo ci(lpath, rpath, name, mode); if (S_ISDIR(mode)) { dirlist.push_back(ci); } else if (S_ISLNK(mode)) { linklist.push_back(ci); } else { if (!should_pull_file(ci.mode)) { sc.Warning("skipping special file '%s' (mode = 0o%o)", ci.rpath.c_str(), ci.mode); ci.skip = true; } ci.time = time; ci.size = size; file_list->push_back(ci); } }; if (!sync_ls(sc, rpath.c_str(), callback)) { return false; } // Check each symlink we found to see whether it's a file or directory. for (copyinfo& link_ci : linklist) { if (remote_symlink_isdir(sc, link_ci.rpath)) { dirlist.emplace_back(std::move(link_ci)); } else { file_list->emplace_back(std::move(link_ci)); } } // Recurse into each directory we found. while (!dirlist.empty()) { copyinfo current = dirlist.back(); dirlist.pop_back(); if (!remote_build_list(sc, file_list, current.rpath, current.lpath)) { return false; } } return true; } static int set_time_and_mode(const std::string& lpath, time_t time, unsigned int mode) { struct utimbuf times = { time, time }; int r1 = utime(lpath.c_str(), ×); /* use umask for permissions */ mode_t mask = umask(0000); umask(mask); int r2 = chmod(lpath.c_str(), mode & ~mask); return r1 ? r1 : r2; } static bool copy_remote_dir_local(SyncConnection& sc, std::string rpath, std::string lpath, bool copy_attrs) { sc.NewTransfer(); // Make sure that both directory paths end in a slash. // Both paths are known to be nonempty, so we don't need to check. ensure_trailing_separators(lpath, rpath); // Recursively build the list of files to copy. sc.Printf("pull: building file list..."); std::vector file_list; if (!remote_build_list(sc, &file_list, rpath.c_str(), lpath.c_str())) { return false; } sc.ComputeExpectedTotalBytes(file_list); int skipped = 0; for (const copyinfo &ci : file_list) { if (!ci.skip) { if (S_ISDIR(ci.mode)) { // Entry is for an empty directory, create it and continue. // TODO(b/25457350): We don't preserve permissions on directories. if (!mkdirs(ci.lpath)) { sc.Error("failed to create directory '%s': %s", ci.lpath.c_str(), strerror(errno)); return false; } continue; } if (!sync_recv(sc, ci.rpath.c_str(), ci.lpath.c_str())) { return false; } if (copy_attrs && set_time_and_mode(ci.lpath, ci.time, ci.mode)) { return false; } } else { skipped++; } } sc.RecordFilesSkipped(skipped); sc.ReportTransferRate(rpath, TransferDirection::pull); return true; } bool do_sync_pull(const std::vector& srcs, const char* dst, bool copy_attrs, const char* name) { SyncConnection sc; if (!sc.IsValid()) return false; bool success = true; struct stat st; bool dst_exists = true; if (stat(dst, &st) == -1) { dst_exists = false; // If we're only pulling one path, the destination path might point to // a path that doesn't exist yet. if (srcs.size() == 1 && errno == ENOENT) { // However, its parent must exist. struct stat parent_st; if (stat(adb_dirname(dst).c_str(), &parent_st) == -1) { sc.Error("cannot create file/directory '%s': %s", dst, strerror(errno)); return false; } } else { sc.Error("failed to access '%s': %s", dst, strerror(errno)); return false; } } bool dst_isdir = dst_exists && S_ISDIR(st.st_mode); if (!dst_isdir) { if (srcs.size() > 1) { sc.Error("target '%s' is not a directory", dst); return false; } else { size_t dst_len = strlen(dst); // A path that ends with a slash doesn't have to be a directory if // it doesn't exist yet. if (adb_is_separator(dst[dst_len - 1]) && dst_exists) { sc.Error("failed to access '%s': Not a directory", dst); return false; } } } for (const char* src_path : srcs) { const char* dst_path = dst; unsigned src_mode, src_time, src_size; if (!sync_stat(sc, src_path, &src_time, &src_mode, &src_size)) { sc.Error("failed to stat remote object '%s'", src_path); return false; } if (src_mode == 0) { sc.Error("remote object '%s' does not exist", src_path); success = false; continue; } bool src_isdir = S_ISDIR(src_mode); if (S_ISLNK(src_mode)) { src_isdir = remote_symlink_isdir(sc, src_path); } if (src_isdir) { std::string dst_dir = dst; // If the destination path existed originally, the source directory // should be copied as a child of the destination. if (dst_exists) { if (!dst_isdir) { sc.Error("target '%s' is not a directory", dst); return false; } if (!adb_is_separator(dst_dir.back())) { dst_dir.push_back(OS_PATH_SEPARATOR); } dst_dir.append(adb_basename(src_path)); } success &= copy_remote_dir_local(sc, src_path, dst_dir.c_str(), copy_attrs); continue; } else if (!should_pull_file(src_mode)) { sc.Warning("skipping special file '%s' (mode = 0o%o)", src_path, src_mode); continue; } std::string path_holder; if (dst_isdir) { // If we're copying a remote file to a local directory, we // really want to copy to local_dir + OS_PATH_SEPARATOR + // basename(remote). path_holder = android::base::StringPrintf("%s%c%s", dst_path, OS_PATH_SEPARATOR, adb_basename(src_path).c_str()); dst_path = path_holder.c_str(); } sc.NewTransfer(); sc.SetExpectedTotalBytes(src_size); if (!sync_recv(sc, src_path, dst_path, name)) { success = false; continue; } if (copy_attrs && set_time_and_mode(dst_path, src_time, src_mode) != 0) { success = false; continue; } sc.ReportTransferRate(src_path, TransferDirection::pull); } sc.ReportOverallTransferRate(TransferDirection::pull); return success; } bool do_sync_sync(const std::string& lpath, const std::string& rpath, bool list_only) { SyncConnection sc; if (!sc.IsValid()) return false; bool success = copy_local_dir_remote(sc, lpath, rpath, true, list_only); if (!list_only) { sc.ReportOverallTransferRate(TransferDirection::push); } return success; }