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 "ipc/file_descriptor_set_posix.h"
11 #include "base/logging.h"
12 #include "base/posix/eintr_wrapper.h"
14 FileDescriptorSet::FileDescriptorSet()
15 : consumed_descriptor_highwater_(0) {
18 FileDescriptorSet::~FileDescriptorSet() {
19 if (consumed_descriptor_highwater_
== descriptors_
.size())
22 LOG(WARNING
) << "FileDescriptorSet destroyed with unconsumed descriptors";
23 // We close all the descriptors where the close flag is set. If this
24 // message should have been transmitted, then closing those with close
25 // flags set mirrors the expected behaviour.
27 // If this message was received with more descriptors than expected
28 // (which could a DOS against the browser by a rogue renderer) then all
29 // the descriptors have their close flag set and we free all the extra
31 for (unsigned i
= consumed_descriptor_highwater_
;
32 i
< descriptors_
.size(); ++i
) {
33 if (descriptors_
[i
].auto_close
)
34 if (HANDLE_EINTR(close(descriptors_
[i
].fd
)) < 0)
35 PLOG(ERROR
) << "close";
39 bool FileDescriptorSet::Add(int fd
) {
40 if (descriptors_
.size() == kMaxDescriptorsPerMessage
)
43 struct base::FileDescriptor sd
;
45 sd
.auto_close
= false;
46 descriptors_
.push_back(sd
);
50 bool FileDescriptorSet::AddAndAutoClose(int fd
) {
51 if (descriptors_
.size() == kMaxDescriptorsPerMessage
)
54 struct base::FileDescriptor sd
;
57 descriptors_
.push_back(sd
);
58 DCHECK(descriptors_
.size() <= kMaxDescriptorsPerMessage
);
62 int FileDescriptorSet::GetDescriptorAt(unsigned index
) const {
63 if (index
>= descriptors_
.size())
66 // We should always walk the descriptors in order, so it's reasonable to
67 // enforce this. Consider the case where a compromised renderer sends us
68 // the following message:
71 // num_fds:2 msg:FD(index = 1) control:SCM_RIGHTS {n, m}
73 // Here the renderer sent us a message which should have a descriptor, but
74 // actually sent two in an attempt to fill our fd table and kill us. By
75 // setting the index of the descriptor in the message to 1 (it should be
76 // 0), we would record a highwater of 1 and then consider all the
77 // descriptors to have been used.
79 // So we can either track of the use of each descriptor in a bitset, or we
80 // can enforce that we walk the indexes strictly in order.
82 // There's one more wrinkle: When logging messages, we may reparse them. So
83 // we have an exception: When the consumed_descriptor_highwater_ is at the
84 // end of the array and index 0 is requested, we reset the highwater value.
85 if (index
== 0 && consumed_descriptor_highwater_
== descriptors_
.size())
86 consumed_descriptor_highwater_
= 0;
88 if (index
!= consumed_descriptor_highwater_
)
91 consumed_descriptor_highwater_
= index
+ 1;
92 return descriptors_
[index
].fd
;
95 void FileDescriptorSet::GetDescriptors(int* buffer
) const {
96 for (std::vector
<base::FileDescriptor
>::const_iterator
97 i
= descriptors_
.begin(); i
!= descriptors_
.end(); ++i
) {
102 bool FileDescriptorSet::ContainsDirectoryDescriptor() const {
105 for (std::vector
<base::FileDescriptor
>::const_iterator
106 i
= descriptors_
.begin(); i
!= descriptors_
.end(); ++i
) {
107 if (fstat(i
->fd
, &st
) == 0 && S_ISDIR(st
.st_mode
))
114 void FileDescriptorSet::CommitAll() {
115 for (std::vector
<base::FileDescriptor
>::iterator
116 i
= descriptors_
.begin(); i
!= descriptors_
.end(); ++i
) {
118 if (HANDLE_EINTR(close(i
->fd
)) < 0)
119 PLOG(ERROR
) << "close";
121 descriptors_
.clear();
122 consumed_descriptor_highwater_
= 0;
125 void FileDescriptorSet::SetDescriptors(const int* buffer
, unsigned count
) {
126 DCHECK(count
<= kMaxDescriptorsPerMessage
);
127 DCHECK_EQ(descriptors_
.size(), 0u);
128 DCHECK_EQ(consumed_descriptor_highwater_
, 0u);
130 descriptors_
.reserve(count
);
131 for (unsigned i
= 0; i
< count
; ++i
) {
132 struct base::FileDescriptor sd
;
134 sd
.auto_close
= true;
135 descriptors_
.push_back(sd
);