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${ noResults }
14 Commits (58877b55e0796bcca743e9bd4d2be42092562f30)
Author | SHA1 | Message | Date |
---|---|---|---|
Joshua Haberman | bc569098dc |
Fixed the initialization sequence for MiniTables.
Prior to this CL we were allocating a MiniTable for each message and then overwriting it later. This could lead to an inconsistent state, and is unnecessary. This CL adds an extra phase to initialization so that the MiniTable is assigned only one time for each message. PiperOrigin-RevId: 507617479 |
2 years ago |
Joshua Haberman | 6e1cbdfe09 |
Added fuzzer for descriptor parsing/serialization, and fixed several bugs.
The initial motivation for this change was to fix a bug found by fuzzing. The old fuzz test (built on `cc_fuzz_target()`) detected an infinite loop if a bytes field default has an unterminated `\x` escape. To fix this bug while expanding fuzz coverage, I created a fuzz test that verifies that we can do a lossless round trip from descriptor -> DefPool -> descriptor. We use C++ as the source of truth for whether a descriptor is valid or not, and what the canonical serialization back to protobuf form should be. I wrote the new fuzz test using go/FuzzTest, which makes it easier and more readable to use an arbitrary `FileDescriptorSet` as input, while adding test cases for regressions. The fuzz test highlighted a handful of errors that I subsequently fixed and added regression tests for: 1. The aforementioned unterminated `\x` bug. 2. We were not propagating the `edition` field. 3. We were missing the CheckIdent() check in a few places. 4. We were rejecting files with empty name, whereas C++ allows this. 5. There were a few bugs with escaping string defaults. Since FuzzTest is Clang-only, I split the `FUZZ_TEST()` invocation from the regression tests, since the latter are portable and should be run on all platforms. Only `FUZZ_TEST()` itself is in a google3/Clang-only file. PiperOrigin-RevId: 506997362 |
2 years ago |
Protobuf Team Bot | dacd802c2e |
Avoid automatic variables in functions using setjmp.
According to https://en.cppreference.com/w/c/program/setjmp automatic variables modified in a function calling setjmp can have indeterminate values. Instead, refactor all functions calling setjmp so that the function calling setjmp doesn’t have any local variables. Part III: Definition pool builders. PiperOrigin-RevId: 504817954 |
2 years ago |
Joshua Haberman | e41a2d7ba0 |
upb is self-hosting!
This CL changes the upb compiler to no longer depend on C++ protobuf libraries. upb now uses its own reflection libraries to implement its code generator. # Key Benefits 1. upb can now use its own reflection libraries throughout the compiler. This makes upb more consistent and principled, and gives us more chances to dogfood our own C++ reflection API. This highlighted several parts of the C++ reflection API that were incomplete. 2. This CL removes code duplication that previously existed in the compiler. The upb reflection library has code to build MiniDescriptors and MiniTables out of descriptors, but prior to this CL the upb compiler could not use it. The upb compiler had a separate copy of this logic, and the compiler's copy of this logic was especially tricky and hard to maintain. This CL removes the separate copy of that logic. 3. This CL (mostly) removes upb's dependency on the C++ protobuf library. We still depend on `protoc` (the binary), but the runtime and compiler no longer link against C++'s libraries. This opens up the possibility of speeding up some builds significantly if we can use a prebuilt `protoc` binary. # Bootstrap Stages To bootstrap, we check in a copy of our generated code for `descriptor.proto` and `plugin.proto`. This allows the compiler to depend on the generated code for these two protos without creating a circular dependency. This code is checked in to the `stage0` directory. The bootstrapping process is divided into a few stages. All `cc_library()`, `upb_proto_library()`, and `cc_binary()` targets that would otherwise be circular participate in this staging process. That currently includes: * `//third_party/upb:descriptor_upb_proto` * `//third_party/upb:plugin_upb_proto` * `//third_party/upb:reflection` * `//third_party/upb:reflection_internal` * `//third_party/upbc:common` * `//third_party/upbc:file_layout` * `//third_party/upbc:plugin` * `//third_party/upbc:protoc-gen-upb` For each of these targets, we produce a rule for each stage (the logic for this is nicely encapsulated in Blaze/Bazel macros like `bootstrap_cc_library()` and `bootstrap_upb_proto_library()`, so the `BUILD` file remains readable). For example: * `//third_party/upb:descriptor_upb_proto_stage0` * `//third_party/upb:descriptor_upb_proto_stage1` * `//third_party/upb:descriptor_upb_proto` The stages are: 1. `stage0`: This uses the checked-in version of the generated code. The stage0 compiler is correct and outputs the same code as all other compilers, but it is unnecessarily slow because its protos were compiled in bootstrap mode. The stage0 compiler is used to generate protos for stage1. 2. `stage1`: The stage1 compiler is correct and fast, and therefore we use it in almost all cases (eg. `upb_proto_library()`). However its own protos were not generated using `upb_proto_library()`, so its `cc_library()` targets cannot be safely mixed with `upb_proto_library()`, as this would lead to duplicate symbols. 3. final (no stage): The final compiler is identical to the `stage1` compiler. The only difference is that its protos were built with `upb_proto_library()`. This doesn't matter very much for the compiler binary, but for the `cc_library()` targets like `//third_party/upb:reflection`, only the final targets can be safely linked in by other applications. # "Bootstrap Mode" Protos The checked-in generated code is generated in a special "bootstrap" mode that is a bit different than normal generated code. Bootstrap mode avoids depending on the internal representation of MiniTables or the messages, at the cost of slower runtime performance. Bootstrap mode only interacts with MiniTables and messages using public APIs such as `upb_MiniTable_Build()`, `upb_Message_GetInt32()`, etc. This is very important as it allows us to change the internal representation without needing to regenerate our bootstrap protos. This will make it far easier to write CLs that change the internal representation, because it avoids the awkward dance of trying to regenerate the bootstrap protos when the compiler itself is broken due to bootstrap protos being out of date. The bootstrap generated code does have two downsides: 1. The accessors are less efficient, because they look up MiniTable fields by number instead of hard-coding the MiniTableField into the generated code. 2. It requires runtime initialization of the MiniTables, which costs CPU cycles at startup, and also allocates memory which is never freed. Per google3 rules this is not really a leak, since this memory is still reachable via static variables, but it is undesirable in many contexts. We could fix this part by introducing the equivalent of `google::protobuf::ShutdownProtobufLibrary()`). These downsides are fine for the bootstrapping process, but they are reason enough not to enable bootstrap mode in general for all protos. # Bootstrapping Always Uses OSS Protos To enable smooth syncing between Google3 and OSS, we always use an OSS version of the checked in generated code for `stage0`, even in google3. This requires that the google3 code can be switched to reference the OSS proto names using a preprocessor define. We introduce the `UPB_DESC(xyz)` macro for this, which will expand into either `proto2_xyz` or `google_protobuf_xyz`. Any libraries used in `stage0` must use `UPB_DESC(xyz)` rather than refer to the symbol names directly. PiperOrigin-RevId: 501458451 |
2 years ago |
Joshua Haberman | 204b9eeffa |
Added UPB_DESC() macro for all bootstrap references to proto symbols.
We have previously been using Copybara to rewrite these names, but for bootstrapping we will want to be able to sometimes use OSS names inside google3. PiperOrigin-RevId: 500294974 |
2 years ago |
Eric Salo | 70566461f9 |
replace and repair the integer hash table iterator:
- replace all instances of the deprecated iterator with the much nicer new one - fix a bug which caused the new iterator to skip all values in the hash array - fix a bug which caused the new iterator to skip the first value in the hash table - delete the old iterator code - also replace most uses of the deprecated string hash table iterator PiperOrigin-RevId: 489093240 |
2 years ago |
Eric Salo | b3cb3fbea8 |
create upb/hash/
The next lowest build target to scrub is the hash table. We already have a few other things called 'table' (mini table, fast table) so let's just go with 'hash' here. Split apart the headers into int and str branches sharing common definitions. Leave the core functions in a single .c for inlining. PiperOrigin-RevId: 488388767 |
2 years ago |
Eric Salo | 75907f7af9 |
rename the upb_MiniTable subtypes to follow the upb style guide:
upb_MiniTable_Enum -> upb_MiniTableEnum upb_MiniTable_Extension -> upb_MiniTableExtension upb_MiniTable_Field -> upb_MiniTableField upb_MiniTable_File -> upb_MiniTableFile upb_MiniTable_Sub -> upb_MiniTableSub PiperOrigin-RevId: 486712960 |
2 years ago |
Eric Salo | f6307877d3 |
move portability stuff into upb/port/
Also delete redundant system #includes that are already pulled in by port/def.inc PiperOrigin-RevId: 486398989 |
2 years ago |
Eric Salo | df34b04658 |
make upb_ExtensionRegistry_AddArray() and upb_ExtensionRegistry_Lookup() public
Previously these were internal _upb functions but it turns out that they are also useful outside of upb. PiperOrigin-RevId: 480997511 |
2 years ago |
Eric Salo | 85bf4677b2 |
lock down internal reflection
- upb_DefPool_FindExtensionByMiniTable() has been promoted to a public function. - There are now zero uses of the internal reflection headers outside of upb core (but still a few left in generated code). PiperOrigin-RevId: 480211522 |
2 years ago |
Eric Salo | 44916d7d27 |
create reflection_internal library
internal declarations are now physically removed from the public headers PiperOrigin-RevId: 478921131 |
2 years ago |
Eric Salo | efd06e46a4 |
use mini descriptors to build message defs and extension defs
PiperOrigin-RevId: 477332937 |
2 years ago |
Eric Salo | 00765002ff |
- All of reflection now lives in upb/reflection/
- Each def type has its own .c file and its own .h file - Functions that require a builder context are declared in def_builder.h - The mini descriptor encoders have also been pulled into upb/reflection/ - upb/def.h, upb/def.hpp, upb/reflection.h, and upb/reflection.hpp are now deprecated stubs that point to the new headers PiperOrigin-RevId: 474459500 |
2 years ago |