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2015-02-13Fix search for Python 2 with CMakeOliver Lee1-8/+7
Do not assume that Python has already been found by CMake. Fix value of CMake variable PYTHON_EXECUTABLE if Python 3 was found. Change minimum supported Python version to 2.6. This fixes a bug introduced by this commit: d8d3b75e2e3b348d016f48cebc1be764061975d2
2015-02-13Updates for the CMake rule file.Oliver Lee1-4/+45
1) Search explicitly for python2.7 In systems where python3 is default or in build cases where the user has already searched for and found python3 in CMake, store the python3 executable and search for python2.7. 2) Generate nanopb core protobuf files with CMake Generate python output files used in turn by the nanopb generator script. This removes the requirement of manually calling 'make' in the nanopb/generator/proto directory. 3) Use nanopb options file if it exists Look for nanopb options file and use in protobuf source and header generation if it exists. The options file must have the same name and path as the proto file, excluding the extension.
2015-01-27Fix generator bug when oneof is first field in a message.Petteri Aimonen3-38/+104
Added test case for the same. Update issue 142 Status: FixedInGit
2015-01-24Setting version to nanopb-0.3.3-devPetteri Aimonen2-2/+2
2015-01-24Publishing nanopb-0.3.2Petteri Aimonen4-5/+5
2015-01-23Fix encoded_size #defines for oneof messages.Petteri Aimonen4-1/+76
The sizes are represented as EncodedSize() instances, which cause max() operation to sort them by address instead of value. This caused pretty much random item to be selected for the maximum. Update issue 141 Status: FixedInGit
2015-01-15Update changelogPetteri Aimonen1-0/+11
2015-01-15Fix clang compiler warning in intsizes unit test.Petteri Aimonen1-13/+13
2015-01-15Release memory when overwriting oneof fields.Petteri Aimonen3-22/+144
Update issue 131 Status: FixedInGit
2015-01-11Add oneofs to AllTypes test casePetteri Aimonen12-2/+53
2015-01-11Bugfixes for oneof support.Petteri Aimonen3-15/+24
Fixes crashes / memory leaks when using pointer type fields. Also fixes initialization of which_oneof fields.
2015-01-11New generator options for oneofs: allow skipping or generating as normal ↵Petteri Aimonen3-10/+42
'optional' fields. The behaviour with no_unions:true is the same as of nanopb 0.3.1 and earlier.
2015-01-07Fix generator error with OneOfsPetteri Aimonen1-2/+3
2015-01-05Allow using 8/16/32/64 as values in int_size settingPetteri Aimonen1-4/+4
2015-01-04Actually make the protoc version check workPetteri Aimonen2-6/+10
2015-01-04Only run oneof test when protoc >= 2.6 is availablePetteri Aimonen2-15/+27
2015-01-04Fix build failurePetteri Aimonen1-1/+1
2015-01-04Implement support for oneofs (C unions).Petteri Aimonen9-73/+415
Basic test included, should probably add an oneof to the AllTypes test also. Update issue 131 Status: Started
2015-01-04Detect too large varint values when decoding.Petteri Aimonen3-17/+53
Because Issue #139 now allows limiting integer fields, it is good to check the values received from other protobuf libraries against the lower limits.
2015-01-04Add int_size option for generator.Petteri Aimonen8-16/+212
This allows overriding the integer field types to e.g. uint8_t for saving RAM. Update issue 139 Status: FixedInGit
2015-01-03Change PB_RETURN_ERROR() macro to avoid compiler warnings.Petteri Aimonen2-14/+10
Update issue 140 Status: FixedInGit
2014-12-27Fix build failure due to missing dependency in SConscriptPetteri Aimonen1-2/+2
2014-12-26Fix memory leaks with PB_ENABLE_MALLOC and certain submessage type combinations.Petteri Aimonen1-20/+45
There was a memory leak when: 1) A statically allocated submessage or 2) an extension field submessage contained A) a pointer-type field or B) a submessage that further contained a pointer-type field. This was because pb_release() didn't recurse into non-pointer fields. Update issue 138 Status: FixedInGit
2014-12-26Initialize also extension fields to defaults in pb_decode().Petteri Aimonen1-54/+83
This makes the behaviour more consistent with non-extension fields, and also makes sure that all 'found' fields of extensions are initially false.
2014-12-26Fix bug in backwards_compatibility test case.Petteri Aimonen1-4/+1
The memset() filled also the extensions field, which was just waiting for a crash to happen.
2014-12-26Add testcase for releasing memory in submessages/extensionsPetteri Aimonen3-0/+149
2014-12-26Add support for POINTER type in extensionsPetteri Aimonen3-3/+24
2014-12-26Include the field type in a comment for extension fieldsPetteri Aimonen1-1/+2
2014-12-26Move malloc support to tests/common directoryPetteri Aimonen5-73/+60
2014-12-26Move malloc_wrappers.c to tests/commonPetteri Aimonen7-7/+10
2014-12-22Verify build with protobuf-3.0.0, fix problems.Petteri Aimonen4-28/+126
Also updated descriptor.proto from protobuf-3.0.0.
2014-12-22Add compilation option to disable struct packing.Petteri Aimonen2-1/+13
Update issue 136 Status: FixedInGit
2014-09-16Set version to nanopb-0.3.2-devPetteri Aimonen2-2/+2
2014-09-11Publishing nanopb-0.3.1Petteri Aimonen2-2/+2
2014-09-11Update changelogPetteri Aimonen1-0/+8
2014-09-11Add a fuzz testing stub for ability to use external generators alsoPetteri Aimonen5-0/+209
2014-09-11Protect against size_t overflows in pb_dec_bytes/pb_dec_string.Petteri Aimonen1-7/+13
Possible consequences of bug: 1) Denial of service by causing a crash Possible when all of the following apply: - Untrusted data is passed to pb_decode() - The top-level message contains a static string field as the first field. Causes a single write of '0' byte to 1 byte before the message struct. 2) Remote code execution Possible when all of the following apply: - 64-bit platform - The message or a submessage contains a static/pointer string field. - Decoding directly from a custom pb_istream_t - bytes_left on the stream is set to larger than 4 GB Causes a write of up to 4 GB of data past the string field. 3) Possible heap corruption or remote code execution Possible when all of the following apply: - less than 64-bit platform - The message or a submessage contains a pointer-type bytes field. Causes a write of sizeof(pb_size_t) bytes of data past a 0-byte long malloc()ed buffer. On many malloc() implementations, this causes at most a crash. However, remote code execution through a controlled jump cannot be ruled out. -- Detailed analysis follows In the following consideration, I define "platform bitness" as equal to number of bits in size_t datatype. Therefore most 8-bit platforms are regarded as 16-bit for the purposes of this discussion. 1. The overflow in pb_dec_string The overflow happens in this computation: uint32_t size; size_t alloc_size; alloc_size = size + 1; There are two ways in which the overflow can occur: In the uint32_t addition, or in the cast to size_t. This depends on the platform bitness. On 32- and 64-bit platforms, the size has to be UINT32_MAX for the overflow to occur. In that case alloc_size will be 0. On 16-bit platforms, overflow will happen whenever size is more than UINT16_MAX, and resulting alloc_size is attacker controlled. For static fields, the alloc_size value is just checked against the field data size. For pointer fields, the alloc_size value is passed to malloc(). End result in both cases is the same, the storage is 0 or just a few bytes in length. On 16-bit platforms, another overflow occurs in the call to pb_read(), when passing the original size. An attacker will want the passed value to be larger than the alloc_size, therefore the only reasonable choice is to have size = UINT16_MAX and alloc_size = 0. Any larger multiple will truncate to the same values. At this point we have read atleast the tag and the string length of the message, i.e. atleast 3 bytes. The maximum initial value for stream bytes_left is SIZE_MAX, thus at this point at most SIZE_MAX-3 bytes are remaining. On 32-bit and 16-bit platforms this means that the size passed to pb_read() is always larger than the number of remaining bytes. This causes pb_read() to fail immediately, before reading any bytes. On 64-bit platforms, it is possible for the bytes_left value to be set to a value larger than UINT32_MAX, which is the wraparound point in size calculation. In this case pb_read() will succeed and write up to 4 GB of attacker controlled data over the RAM that comes after the string field. On all platforms, there is an unconditional write of a terminating null byte. Because the size of size_t typically reflects the size of the processor address space, a write at UINT16_MAX or UINT32_MAX bytes after the string field actually wraps back to before the string field. Consequently, on 32-bit and 16-bit platforms, the bug causes a single write of '0' byte at one byte before the string field. If the string field is in the middle of a message, this will just corrupt other data in the message struct. Because the message contents is attacker controlled anyway, this is a non-issue. However, if the string field is the first field in the top-level message, it can corrupt other data on the stack/heap before it. Typically a single '0' write at a location not controlled by attacker is enough only for a denial-of-service attack. When using pointer fields and malloc(), the attacker controlled alloc_size will cause a 0-size allocation to happen. By the same logic as before, on 32-bit and 16-bit platforms this causes a '0' byte write only. On 64-bit platforms, however, it will again allow up to 4 GB of malicious data to be written over memory, if the stream length allows the read. 2. The overflow in pb_dec_bytes This overflow happens in the PB_BYTES_ARRAY_T_ALLOCSIZE macro: The computation is done in size_t data type this time. This means that an overflow is possible only when n is larger than SIZE_MAX - offsetof(..). The offsetof value in this case is equal to sizeof(pb_size_t) bytes. Because the incoming size value is limited to 32 bits, no overflow can happen here on 64-bit platforms. The size will be passed to pb_read(). Like before, on 32-bit and 16-bit platforms the read will always fail before writing anything. This leaves only the write of bdest->size as exploitable. On statically allocated fields, the size field will always be allocated, regardless of alloc_size. In this case, no buffer overflow is possible here, but user code could possibly use the attacker controlled size value and read past a buffer. If the field is allocated through malloc(), this will allow a write of sizeof(pb_size_t) attacker controlled bytes to past a 0-byte long buffer. In typical malloc implementations, this will either fit in unused alignment padding area, or cause a heap corruption and a crash. Under very exceptional situation it could allow attacker to influence the behaviour of malloc(), possibly jumping into an attacker-controlled location and thus leading to remote code execution.
2014-09-11Add just-to-be-sure check to allocate_field().Petteri Aimonen1-5/+11
This check will help to detect bugs earlier, and is quite lightweight compared to malloc() anyway.
2014-09-11Fix memory leak with duplicated fields and PB_ENABLE_MALLOC.Petteri Aimonen1-44/+60
If a required or optional field appeared twice in the message data, pb_decode will overwrite the old data with new one. That is fine, but with submessage fields, it didn't release the allocated subfields before overwriting. This bug can manifest if all of the following conditions are true: 1. There is a message with a "optional" or "required" submessage field that has type:FT_POINTER. 2. The submessage contains atleast one field with type:FT_POINTER. 3. The message data to be decoded has the submessage field twice in it.
2014-09-11Fix crash in pb_release() if called twice on same message.Petteri Aimonen1-10/+15
There was a double-free bug in pb_release() because it didn't set size fields to zero after deallocation. Most commonly this happens if pb_decode() fails, internally calls pb_release() and then application code also calls pb_release().
2014-09-11Add a better fuzz test.Petteri Aimonen8-1/+565
Attempts to verify all the properties defined in the security model, while also being portable and able to run on many platforms.
2014-09-07Add test case for simulated io errors.Petteri Aimonen5-0/+203
Update issue 126 Status: FixedInGit
2014-09-07Add a few missing unit testsPetteri Aimonen3-0/+36
2014-09-07Fix compilation error with generated initializers for repeated pointer fieldsPetteri Aimonen1-0/+2
2014-09-07Code coverage results were ignoring the data from encode/decode unittests.Petteri Aimonen1-3/+3
Update issue 126 Status: Started
2014-09-07Update security model with regards to pointer fieldsPetteri Aimonen1-5/+7
2014-08-28Fix cyclic messages support in generator. Beginnings of test.Petteri Aimonen5-1/+192
Update issue 130 Status: Started
2014-08-26Add missing * in migration docsPetteri Aimonen1-2/+2
2014-08-26Setting version to 0.3.1-devPetteri Aimonen2-2/+2
2014-08-26Publishing nanopb-0.3.0Petteri Aimonen2-2/+2