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fuchsia / fuchsia / 6697568849879512cc8452e84c2db4c0da200466 / . / tools / fidl / fidlgen_libfuzzer / goldens / request_flexible_envelope.cc.golden
blob: 0a15448badef95d42e58032a9772a8d30324e020 [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
#include <fidl/test/requestflexibleenvelope/cpp/libfuzzer.h>
#include <lib/async-loop/cpp/loop.h>
#include <lib/async-loop/default.h>
#include <lib/fidl/cpp/fuzzing/fuzzer.h>
#include <lib/fidl/cpp/interface_ptr.h>
#include <lib/zx/channel.h>
#include <zircon/errors.h>
#include <zircon/syscalls.h>
#include <zircon/types.h>
using namespace ::fuzzing;
using namespace ::fidl::test::requestflexibleenvelope;
// Add //build/fuzzing:fuzzing_verbose_logging to a GN target's configs to
// enable.
#if FUZZING_VERBOSE_LOGGING
#include <stdio.h>
#define xprintf(fmt...) printf(fmt)
#else
#define xprintf(fmt...) \
do { \
} while (0)
#endif
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* data_, size_t size_) {
static ::async::Loop* loop_ = nullptr;
if (loop_ == nullptr) {
xprintf("Starting client async loop\n");
loop_ = new ::async::Loop(&kAsyncLoopConfigAttachToCurrentThread);
}
// Must fuzz some protocol; first two bytes used to select protocol and
// method.
if (size_ < 2) {
xprintf("Early exit: Input too small: %zu\n", size_);
return 0;
}
size_ -= 2;
uint8_t protocol_selector_ = data_[0];
uint8_t protocol_selection_ = protocol_selector_ % 1;
xprintf("Starting fuzzer with %zu bytes of data\n", size_);
// Hardcode mutually-exclusive if blocks that selects exactly one protocol.
[[maybe_unused]] zx_status_t status_;
if (protocol_selection_ == 0) {
#if !defined(PROTOCOL_fidl_test_requestflexibleenvelope_Protocol)
// Selected protocol from FIDL file that is not part of this fuzzer.
xprintf(
"Early exit: Chose disabled protocol: "
"fidl_test_requestflexibleenvelope_Protocol\n");
return 0;
#else
::fidl::InterfacePtr< ::fidl::test::requestflexibleenvelope::Protocol>
protocol_;
xprintf("Starting fidl_test_requestflexibleenvelope_Protocol service\n");
::fidl::fuzzing::Fuzzer< ::fidl::test::requestflexibleenvelope::Protocol>
fuzzer_(loop_->dispatcher());
if ((status_ = fuzzer_.Init()) != ZX_OK) {
xprintf("Early exit: fuzzer.Init returned bad status: %d\n", status_);
return 0;
}
if ((status_ = fuzzer_.BindService()) != ZX_OK) {
xprintf("Early exit: fuzzer.BindService returned bad status: %d\n",
status_);
return 0;
}
if ((status_ = fuzzer_.BindClient(&protocol_, loop_->dispatcher())) !=
ZX_OK) {
xprintf("Early exit: fuzzer.BindClient returned bad status: %d\n",
status_);
return 0;
}
FuzzInput src_(data_, size_);
uint8_t method_selector_ = data_[1];
uint8_t method_selection_ = method_selector_ % 2;
if (method_selection_ == 0) {
#if !(ALL_METHODS || defined(METHOD_RequestStrictResponseFlexible))
// Selected method from protocol that is not part of this fuzzer.
xprintf(
"Early exit: Chose disabled method: RequestStrictResponseFlexible\n");
return 0;
#else
const size_t min_size_ =
MinSize< ::fidl::test::requestflexibleenvelope::StrictFoo>();
// Must have enough bytes for input.
if (size_ < min_size_) {
xprintf("Early exit: Input size too small: %zu < %zu\n", size_,
min_size_);
return 0;
}
const size_t slack_size_ = size_ - min_size_;
const size_t slack_size_per_param = slack_size_ / 1;
xprintf("Allocating parameters with %zu bytes (%zu bytes each)\n",
slack_size_, slack_size_per_param);
size_t param_size_;
param_size_ =
MinSize< ::fidl::test::requestflexibleenvelope::StrictFoo>() +
slack_size_per_param;
xprintf(
"Allocating %zu bytes for "
"::fidl::test::requestflexibleenvelope::StrictFoo s\n",
param_size_);
::fidl::test::requestflexibleenvelope::StrictFoo s =
Allocate< ::fidl::test::requestflexibleenvelope::StrictFoo>{}(
&src_, &param_size_);
xprintf(
"Invoking method "
"fidl_test_requestflexibleenvelope_Protocol."
"RequestStrictResponseFlexible\n");
protocol_->RequestStrictResponseFlexible(
std::move(s),
[signaller = fuzzer_.NewCallbackSignaller()](
::fidl::test::requestflexibleenvelope::FlexibleFoo f) {
xprintf(
"Invoked "
"fidl_test_requestflexibleenvelope_Protocol."
"RequestStrictResponseFlexible\n");
zx_status_t status_ = signaller.SignalCallback();
if (status_ != ZX_OK) {
xprintf("signaller.SignalCallback returned bad status: %d\n",
status_);
}
});
#endif
}
if (method_selection_ == 1) {
#if !(ALL_METHODS || defined(METHOD_RequestFlexibleResponseStrict))
// Selected method from protocol that is not part of this fuzzer.
xprintf(
"Early exit: Chose disabled method: RequestFlexibleResponseStrict\n");
return 0;
#else
const size_t min_size_ =
MinSize< ::fidl::test::requestflexibleenvelope::FlexibleFoo>();
// Must have enough bytes for input.
if (size_ < min_size_) {
xprintf("Early exit: Input size too small: %zu < %zu\n", size_,
min_size_);
return 0;
}
const size_t slack_size_ = size_ - min_size_;
const size_t slack_size_per_param = slack_size_ / 1;
xprintf("Allocating parameters with %zu bytes (%zu bytes each)\n",
slack_size_, slack_size_per_param);
size_t param_size_;
param_size_ =
MinSize< ::fidl::test::requestflexibleenvelope::FlexibleFoo>() +
slack_size_per_param;
xprintf(
"Allocating %zu bytes for "
"::fidl::test::requestflexibleenvelope::FlexibleFoo s\n",
param_size_);
::fidl::test::requestflexibleenvelope::FlexibleFoo s =
Allocate< ::fidl::test::requestflexibleenvelope::FlexibleFoo>{}(
&src_, &param_size_);
xprintf(
"Invoking method "
"fidl_test_requestflexibleenvelope_Protocol."
"RequestFlexibleResponseStrict\n");
protocol_->RequestFlexibleResponseStrict(
std::move(s),
[signaller = fuzzer_.NewCallbackSignaller()](
::fidl::test::requestflexibleenvelope::StrictFoo f) {
xprintf(
"Invoked "
"fidl_test_requestflexibleenvelope_Protocol."
"RequestFlexibleResponseStrict\n");
zx_status_t status_ = signaller.SignalCallback();
if (status_ != ZX_OK) {
xprintf("signaller.SignalCallback returned bad status: %d\n",
status_);
}
});
#endif
}
loop_->RunUntilIdle();
if ((status_ = fuzzer_.WaitForCallback()) != ZX_OK) {
xprintf("fuzzer.WaitForCallback returned bad status: %d\n", status_);
}
protocol_.Unbind();
#endif
}
xprintf("Fuzzer stopped!\n");
return 0;
}