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Plug leaking function_records in cpp_function initialization in case of exceptions (found by Valgrind in #2746) (#2756)

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* Plug leaking function_record objects when exceptions are thrown

* Plug leak of strdup'ed strings in function_record

* Some extra comments about the function_record ownership dance

* Clean up the function_record better, in case of exceptions

* Demonstrate some extra function_record leaks

* Change  DeleteStrings template argument to free_strings runtime argument in destruct(function_record *)

* Zero-state unique_function_record deleter object

* Clarify rvalue reference to unique_ptr parameter in initialize_generic

* Use push_back with const char * instead of emplace_back
This commit is contained in:
Yannick Jadoul 2021-01-14 19:34:32 +01:00 committed by GitHub
parent 230fa53f16
commit 0855146357
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GPG Key ID: 4AEE18F83AFDEB23
3 changed files with 100 additions and 24 deletions
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86
include/pybind11/pybind11.h
View File

@ -114,9 +114,16 @@ public:
object name() const { return attr("__name__"); } object name() const { return attr("__name__"); }
protected: protected:
struct InitializingFunctionRecordDeleter {
// `destruct(function_record, false)`: `initialize_generic` copies strings and
// takes care of cleaning up in case of exceptions. So pass `false` to `free_strings`.
void operator()(detail::function_record * rec) { destruct(rec, false); }
};
using unique_function_record = std::unique_ptr<detail::function_record, InitializingFunctionRecordDeleter>;
/// Space optimization: don't inline this frequently instantiated fragment /// Space optimization: don't inline this frequently instantiated fragment
PYBIND11_NOINLINE detail::function_record *make_function_record() { PYBIND11_NOINLINE unique_function_record make_function_record() {
return new detail::function_record(); return unique_function_record(new detail::function_record());
} }
/// Special internal constructor for functors, lambda functions, etc. /// Special internal constructor for functors, lambda functions, etc.
@ -126,7 +133,9 @@ protected:
struct capture { remove_reference_t<Func> f; }; struct capture { remove_reference_t<Func> f; };
/* Store the function including any extra state it might have (e.g. a lambda capture object) */ /* Store the function including any extra state it might have (e.g. a lambda capture object) */
auto rec = make_function_record(); // The unique_ptr makes sure nothing is leaked in case of an exception.
auto unique_rec = make_function_record();
auto rec = unique_rec.get();
/* Store the capture object directly in the function record if there is enough space */ /* Store the capture object directly in the function record if there is enough space */
if (sizeof(capture) <= sizeof(rec->data)) { if (sizeof(capture) <= sizeof(rec->data)) {
@ -207,7 +216,8 @@ protected:
PYBIND11_DESCR_CONSTEXPR auto types = decltype(signature)::types(); PYBIND11_DESCR_CONSTEXPR auto types = decltype(signature)::types();
/* Register the function with Python from generic (non-templated) code */ /* Register the function with Python from generic (non-templated) code */
initialize_generic(rec, signature.text, types.data(), sizeof...(Args)); // Pass on the ownership over the `unique_rec` to `initialize_generic`. `rec` stays valid.
initialize_generic(std::move(unique_rec), signature.text, types.data(), sizeof...(Args));
if (cast_in::has_args) rec->has_args = true; if (cast_in::has_args) rec->has_args = true;
if (cast_in::has_kwargs) rec->has_kwargs = true; if (cast_in::has_kwargs) rec->has_kwargs = true;
@ -223,20 +233,51 @@ protected:
} }
} }
// Utility class that keeps track of all duplicated strings, and cleans them up in its destructor,
// unless they are released. Basically a RAII-solution to deal with exceptions along the way.
class strdup_guard {
public:
~strdup_guard() {
for (auto s : strings)
std::free(s);
}
char *operator()(const char *s) {
auto t = strdup(s);
strings.push_back(t);
return t;
}
void release() {
strings.clear();
}
private:
std::vector<char *> strings;
};
/// Register a function call with Python (generic non-templated code goes here) /// Register a function call with Python (generic non-templated code goes here)
void initialize_generic(detail::function_record *rec, const char *text, void initialize_generic(unique_function_record &&unique_rec, const char *text,
const std::type_info *const *types, size_t args) { const std::type_info *const *types, size_t args) {
// Do NOT receive `unique_rec` by value. If this function fails to move out the unique_ptr,
// we do not want this to destuct the pointer. `initialize` (the caller) still relies on the
// pointee being alive after this call. Only move out if a `capsule` is going to keep it alive.
auto rec = unique_rec.get();
// Keep track of strdup'ed strings, and clean them up as long as the function's capsule
// has not taken ownership yet (when `unique_rec.release()` is called).
// Note: This cannot easily be fixed by a `unique_ptr` with custom deleter, because the strings
// are only referenced before strdup'ing. So only *after* the following block could `destruct`
// safely be called, but even then, `repr` could still throw in the middle of copying all strings.
strdup_guard guarded_strdup;
/* Create copies of all referenced C-style strings */ /* Create copies of all referenced C-style strings */
rec->name = strdup(rec->name ? rec->name : ""); rec->name = guarded_strdup(rec->name ? rec->name : "");
if (rec->doc) rec->doc = strdup(rec->doc); if (rec->doc) rec->doc = guarded_strdup(rec->doc);
for (auto &a: rec->args) { for (auto &a: rec->args) {
if (a.name) if (a.name)
a.name = strdup(a.name); a.name = guarded_strdup(a.name);
if (a.descr) if (a.descr)
a.descr = strdup(a.descr); a.descr = guarded_strdup(a.descr);
else if (a.value) else if (a.value)
a.descr = strdup(repr(a.value).cast<std::string>().c_str()); a.descr = guarded_strdup(repr(a.value).cast<std::string>().c_str());
} }
rec->is_constructor = !strcmp(rec->name, "__init__") || !strcmp(rec->name, "__setstate__"); rec->is_constructor = !strcmp(rec->name, "__init__") || !strcmp(rec->name, "__setstate__");
@ -319,13 +360,13 @@ protected:
#if PY_MAJOR_VERSION < 3 #if PY_MAJOR_VERSION < 3
if (strcmp(rec->name, "__next__") == 0) { if (strcmp(rec->name, "__next__") == 0) {
std::free(rec->name); std::free(rec->name);
rec->name = strdup("next"); rec->name = guarded_strdup("next");
} else if (strcmp(rec->name, "__bool__") == 0) { } else if (strcmp(rec->name, "__bool__") == 0) {
std::free(rec->name); std::free(rec->name);
rec->name = strdup("__nonzero__"); rec->name = guarded_strdup("__nonzero__");
} }
#endif #endif
rec->signature = strdup(signature.c_str()); rec->signature = guarded_strdup(signature.c_str());
rec->args.shrink_to_fit(); rec->args.shrink_to_fit();
rec->nargs = (std::uint16_t) args; rec->nargs = (std::uint16_t) args;
@ -356,9 +397,10 @@ protected:
rec->def->ml_meth = reinterpret_cast<PyCFunction>(reinterpret_cast<void (*) (void)>(*dispatcher)); rec->def->ml_meth = reinterpret_cast<PyCFunction>(reinterpret_cast<void (*) (void)>(*dispatcher));
rec->def->ml_flags = METH_VARARGS | METH_KEYWORDS; rec->def->ml_flags = METH_VARARGS | METH_KEYWORDS;
capsule rec_capsule(rec, [](void *ptr) { capsule rec_capsule(unique_rec.release(), [](void *ptr) {
destruct((detail::function_record *) ptr); destruct((detail::function_record *) ptr);
}); });
guarded_strdup.release();
object scope_module; object scope_module;
if (rec->scope) { if (rec->scope) {
@ -393,13 +435,15 @@ protected:
chain_start = rec; chain_start = rec;
rec->next = chain; rec->next = chain;
auto rec_capsule = reinterpret_borrow<capsule>(((PyCFunctionObject *) m_ptr)->m_self); auto rec_capsule = reinterpret_borrow<capsule>(((PyCFunctionObject *) m_ptr)->m_self);
rec_capsule.set_pointer(rec); rec_capsule.set_pointer(unique_rec.release());
guarded_strdup.release();
} else { } else {
// Or end of chain (normal behavior) // Or end of chain (normal behavior)
chain_start = chain; chain_start = chain;
while (chain->next) while (chain->next)
chain = chain->next; chain = chain->next;
chain->next = rec; chain->next = unique_rec.release();
guarded_strdup.release();
} }
} }
@ -452,7 +496,7 @@ protected:
} }
/// When a cpp_function is GCed, release any memory allocated by pybind11 /// When a cpp_function is GCed, release any memory allocated by pybind11
static void destruct(detail::function_record *rec) { static void destruct(detail::function_record *rec, bool free_strings = true) {
// If on Python 3.9, check the interpreter "MICRO" (patch) version. // If on Python 3.9, check the interpreter "MICRO" (patch) version.
// If this is running on 3.9.0, we have to work around a bug. // If this is running on 3.9.0, we have to work around a bug.
#if !defined(PYPY_VERSION) && PY_MAJOR_VERSION == 3 && PY_MINOR_VERSION == 9 #if !defined(PYPY_VERSION) && PY_MAJOR_VERSION == 3 && PY_MINOR_VERSION == 9
@ -463,14 +507,20 @@ protected:
detail::function_record *next = rec->next; detail::function_record *next = rec->next;
if (rec->free_data) if (rec->free_data)
rec->free_data(rec); rec->free_data(rec);
// During initialization, these strings might not have been copied yet,
// so they cannot be freed. Once the function has been created, they can.
// Check `make_function_record` for more details.
if (free_strings) {
std::free((char *) rec->name); std::free((char *) rec->name);
std::free((char *) rec->doc); std::free((char *) rec->doc);
std::free((char *) rec->signature); std::free((char *) rec->signature);
for (auto &arg: rec->args) { for (auto &arg: rec->args) {
std::free(const_cast<char *>(arg.name)); std::free(const_cast<char *>(arg.name));
std::free(const_cast<char *>(arg.descr)); std::free(const_cast<char *>(arg.descr));
arg.value.dec_ref();
} }
}
for (auto &arg: rec->args)
arg.value.dec_ref();
if (rec->def) { if (rec->def) {
std::free(const_cast<char *>(rec->def->ml_doc)); std::free(const_cast<char *>(rec->def->ml_doc));
// Python 3.9.0 decref's these in the wrong order; rec->def // Python 3.9.0 decref's these in the wrong order; rec->def

15
tests/test_constants_and_functions.cpp
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@ -124,4 +124,19 @@ TEST_SUBMODULE(constants_and_functions, m) {
m.def("f2", f2); m.def("f2", f2);
m.def("f3", f3); m.def("f3", f3);
m.def("f4", f4); m.def("f4", f4);
// test_function_record_leaks
struct LargeCapture {
// This should always be enough to trigger the alternative branch
// where `sizeof(capture) > sizeof(rec->data)`
uint64_t zeros[10] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
};
m.def("register_large_capture_with_invalid_arguments", [](py::module_ m) {
LargeCapture capture; // VS 2015's MSVC is acting up if we create the array here
m.def("should_raise", [capture](int) { return capture.zeros[9] + 33; }, py::kw_only(), py::arg());
});
m.def("register_with_raising_repr", [](py::module_ m, py::object default_value) {
m.def("should_raise", [](int, int, py::object) { return 42; }, "some docstring",
py::arg_v("x", 42), py::arg_v("y", 42, "<the answer>"), py::arg_v("z", default_value));
});
} }

11
tests/test_constants_and_functions.py
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@ -40,3 +40,14 @@ def test_exception_specifiers():
assert m.f2(53) == 55 assert m.f2(53) == 55
assert m.f3(86) == 89 assert m.f3(86) == 89
assert m.f4(140) == 144 assert m.f4(140) == 144
def test_function_record_leaks():
class RaisingRepr:
def __repr__(self):
raise RuntimeError("Surprise!")
with pytest.raises(RuntimeError):
m.register_large_capture_with_invalid_arguments(m)
with pytest.raises(RuntimeError):
m.register_with_raising_repr(m, RaisingRepr())