Add new certificateProvider extension API.
[chromium-blink-merge.git] / chrome / installer / util / delete_tree_work_item.cc
blob9cc47ede0058478f9fa718f5d36be482358cfab5
1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "chrome/installer/util/delete_tree_work_item.h"
7 #include <algorithm>
8 #include <limits>
10 #include "base/files/file_util.h"
11 #include "base/logging.h"
13 namespace {
15 // Casts a value of an unsigned type to a signed type of the same size provided
16 // that there is no overflow.
17 template<typename L, typename R>
18 bool SafeCast(L left, R* right) {
19 DCHECK(right);
20 COMPILE_ASSERT(sizeof(left) == sizeof(right),
21 must_add_support_for_crazy_data_types);
22 if (left > static_cast<L>(std::numeric_limits<R>::max()))
23 return false;
24 *right = static_cast<L>(left);
25 return true;
28 } // namespace
30 DeleteTreeWorkItem::DeleteTreeWorkItem(
31 const base::FilePath& root_path,
32 const base::FilePath& temp_path,
33 const std::vector<base::FilePath>& key_paths)
34 : root_path_(root_path),
35 temp_path_(temp_path),
36 copied_to_backup_(false) {
37 if (!SafeCast(key_paths.size(), &num_key_files_)) {
38 NOTREACHED() << "Impossibly large key_paths collection";
39 } else if (num_key_files_ != 0) {
40 key_paths_.reset(new base::FilePath[num_key_files_]);
41 key_backup_paths_.reset(new base::ScopedTempDir[num_key_files_]);
42 std::copy(key_paths.begin(), key_paths.end(), &key_paths_[0]);
46 DeleteTreeWorkItem::~DeleteTreeWorkItem() {
49 // We first try to move key_path_ to backup_path. If it succeeds, we go ahead
50 // and move the rest.
51 bool DeleteTreeWorkItem::Do() {
52 // Go through all the key files and see if we can open them exclusively
53 // with only the FILE_SHARE_DELETE flag. Once we know we have all of them,
54 // we can delete them.
55 std::vector<HANDLE> opened_key_files;
56 opened_key_files.reserve(num_key_files_);
57 bool abort = false;
58 for (ptrdiff_t i = 0; !abort && i != num_key_files_; ++i) {
59 base::FilePath& key_file = key_paths_[i];
60 base::ScopedTempDir& backup = key_backup_paths_[i];
61 if (!ignore_failure_) {
62 if (!backup.CreateUniqueTempDirUnderPath(temp_path_)) {
63 PLOG(ERROR) << "Could not create temp dir in " << temp_path_.value();
64 abort = true;
65 } else if (!base::CopyFile(key_file,
66 backup.path().Append(key_file.BaseName()))) {
67 PLOG(ERROR) << "Could not back up " << key_file.value()
68 << " to directory " << backup.path().value();
69 abort = true;
70 backup.Delete();
73 if (!abort) {
74 HANDLE file = ::CreateFile(key_file.value().c_str(), FILE_ALL_ACCESS,
75 FILE_SHARE_DELETE, NULL, OPEN_EXISTING, 0,
76 NULL);
77 if (file != INVALID_HANDLE_VALUE) {
78 VLOG(1) << "Acquired exclusive lock for key file: " << key_file.value();
79 opened_key_files.push_back(file);
80 } else {
81 if (::GetLastError() != ERROR_FILE_NOT_FOUND)
82 abort = true;
83 PLOG(INFO) << "Failed to open " << key_file.value();
88 if (!abort) {
89 // We now hold exclusive locks with "share delete" permissions for each
90 // of the key files and also have created backups of those files.
91 // We can safely delete the key files now.
92 for (ptrdiff_t i = 0; !abort && i != num_key_files_; ++i) {
93 base::FilePath& key_file = key_paths_[i];
94 if (!base::DeleteFile(key_file, true)) {
95 // This should not really be possible because of the above.
96 PLOG(DFATAL) << "Unexpectedly could not delete " << key_file.value();
97 abort = true;
102 std::for_each(opened_key_files.begin(), opened_key_files.end(), CloseHandle);
103 opened_key_files.clear();
105 if (abort) {
106 LOG(ERROR) << "Could not exclusively hold all key files.";
107 return ignore_failure_;
110 // Now that we've taken care of the key files, take care of the rest.
111 if (!root_path_.empty() && base::PathExists(root_path_)) {
112 if (!ignore_failure_) {
113 if (!backup_path_.CreateUniqueTempDirUnderPath(temp_path_)) {
114 PLOG(ERROR) << "Failed to get backup path in folder "
115 << temp_path_.value();
116 return false;
117 } else {
118 base::FilePath backup =
119 backup_path_.path().Append(root_path_.BaseName());
120 if (!base::CopyDirectory(root_path_, backup, true)) {
121 LOG(ERROR) << "can not copy " << root_path_.value()
122 << " to backup path " << backup.value();
123 return false;
124 } else {
125 copied_to_backup_ = true;
129 if (!base::DeleteFile(root_path_, true)) {
130 LOG(ERROR) << "can not delete " << root_path_.value();
131 return ignore_failure_;
135 return true;
138 // If there are files in backup paths move them back.
139 void DeleteTreeWorkItem::Rollback() {
140 if (ignore_failure_)
141 return;
143 if (copied_to_backup_) {
144 DCHECK(!backup_path_.path().empty());
145 base::FilePath backup = backup_path_.path().Append(root_path_.BaseName());
146 if (base::PathExists(backup))
147 base::Move(backup, root_path_);
150 for (ptrdiff_t i = 0; i != num_key_files_; ++i) {
151 base::ScopedTempDir& backup_dir = key_backup_paths_[i];
152 if (!backup_dir.path().empty()) {
153 base::FilePath& key_file = key_paths_[i];
154 base::FilePath backup_file =
155 backup_dir.path().Append(key_file.BaseName());
156 if (base::PathExists(backup_file) &&
157 !base::Move(backup_file, key_file)) {
158 // This could happen if we could not delete the key file to begin with.
159 PLOG(WARNING) << "Rollback: Failed to move backup file back in place: "
160 << backup_file.value() << " to " << key_file.value();