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|
/*
*
* Copyright 2016, Google Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <string.h>
#include <grpc/grpc.h>
#include <grpc/support/alloc.h>
#include <grpc/support/log.h>
#include <grpc/support/string_util.h>
#include "src/core/ext/transport/chttp2/transport/chttp2_transport.h"
#include "src/core/lib/channel/channel_args.h"
#include "src/core/lib/iomgr/resolve_address.h"
#include "src/core/lib/iomgr/tcp_client.h"
#include "src/core/lib/iomgr/timer.h"
#include "src/core/lib/surface/server.h"
#include "src/core/lib/transport/metadata.h"
#include "test/core/util/passthru_endpoint.h"
////////////////////////////////////////////////////////////////////////////////
// logging
static const bool squelch = true;
static void dont_log(gpr_log_func_args *args) {}
////////////////////////////////////////////////////////////////////////////////
// input_stream: allows easy access to input bytes, and allows reading a little
// past the end (avoiding needing to check everywhere)
typedef struct {
const uint8_t *cur;
const uint8_t *end;
} input_stream;
static uint8_t next_byte(input_stream *inp) {
if (inp->cur == inp->end) {
return 0;
}
return *inp->cur++;
}
static void end(input_stream *inp) { inp->cur = inp->end; }
static char *read_string(input_stream *inp) {
char *str = NULL;
size_t cap = 0;
size_t sz = 0;
char c;
do {
if (cap == sz) {
cap = GPR_MAX(3 * cap / 2, cap + 8);
str = gpr_realloc(str, cap);
}
c = (char)next_byte(inp);
str[sz++] = c;
} while (c != 0);
return str;
}
static void read_buffer(input_stream *inp, char **buffer, size_t *length) {
*length = next_byte(inp);
*buffer = gpr_malloc(*length);
for (size_t i = 0; i < *length; i++) {
(*buffer)[i] = (char)next_byte(inp);
}
}
static uint32_t read_uint22(input_stream *inp) {
uint8_t b = next_byte(inp);
uint32_t x = b & 0x7f;
if (b & 0x80) {
x <<= 7;
b = next_byte(inp);
x |= b & 0x7f;
if (b & 0x80) {
x <<= 8;
x |= next_byte(inp);
}
}
return x;
}
static uint32_t read_uint32(input_stream *inp) {
uint8_t b = next_byte(inp);
uint32_t x = b & 0x7f;
if (b & 0x80) {
x <<= 7;
b = next_byte(inp);
x |= b & 0x7f;
if (b & 0x80) {
x <<= 7;
b = next_byte(inp);
x |= b & 0x7f;
if (b & 0x80) {
x <<= 7;
b = next_byte(inp);
x |= b & 0x7f;
if (b & 0x80) {
x = (x << 4) | (next_byte(inp) & 0x0f);
}
}
}
}
return x;
}
static grpc_byte_buffer *read_message(input_stream *inp) {
gpr_slice slice = gpr_slice_malloc(read_uint22(inp));
memset(GPR_SLICE_START_PTR(slice), 0, GPR_SLICE_LENGTH(slice));
grpc_byte_buffer *out = grpc_raw_byte_buffer_create(&slice, 1);
gpr_slice_unref(slice);
return out;
}
static int read_int(input_stream *inp) { return (int)read_uint32(inp); }
static grpc_channel_args *read_args(input_stream *inp) {
size_t n = next_byte(inp);
grpc_arg *args = gpr_malloc(sizeof(*args) * n);
for (size_t i = 0; i < n; i++) {
bool is_string = next_byte(inp) & 1;
args[i].type = is_string ? GRPC_ARG_STRING : GRPC_ARG_INTEGER;
args[i].key = read_string(inp);
if (is_string) {
args[i].value.string = read_string(inp);
} else {
args[i].value.integer = read_int(inp);
}
}
grpc_channel_args *a = gpr_malloc(sizeof(*a));
a->args = args;
a->num_args = n;
return a;
}
static bool is_eof(input_stream *inp) { return inp->cur == inp->end; }
////////////////////////////////////////////////////////////////////////////////
// global state
static gpr_timespec g_now;
static grpc_server *g_server;
static grpc_channel *g_channel;
extern gpr_timespec (*gpr_now_impl)(gpr_clock_type clock_type);
static gpr_timespec now_impl(gpr_clock_type clock_type) {
GPR_ASSERT(clock_type != GPR_TIMESPAN);
return g_now;
}
////////////////////////////////////////////////////////////////////////////////
// dns resolution
typedef struct addr_req {
grpc_timer timer;
char *addr;
grpc_resolve_cb cb;
void *arg;
} addr_req;
static void finish_resolve(grpc_exec_ctx *exec_ctx, void *arg, bool success) {
addr_req *r = arg;
if (success && 0 == strcmp(r->addr, "server")) {
grpc_resolved_addresses *addrs = gpr_malloc(sizeof(*addrs));
addrs->naddrs = 1;
addrs->addrs = gpr_malloc(sizeof(*addrs->addrs));
addrs->addrs[0].len = 0;
r->cb(exec_ctx, r->arg, addrs);
} else {
r->cb(exec_ctx, r->arg, NULL);
}
gpr_free(r->addr);
gpr_free(r);
}
void my_resolve_address(grpc_exec_ctx *exec_ctx, const char *addr,
const char *default_port, grpc_resolve_cb cb,
void *arg) {
addr_req *r = gpr_malloc(sizeof(*r));
r->addr = gpr_strdup(addr);
r->cb = cb;
r->arg = arg;
grpc_timer_init(exec_ctx, &r->timer,
gpr_time_add(gpr_now(GPR_CLOCK_MONOTONIC),
gpr_time_from_seconds(1, GPR_TIMESPAN)),
finish_resolve, r, gpr_now(GPR_CLOCK_MONOTONIC));
}
////////////////////////////////////////////////////////////////////////////////
// client connection
// defined in tcp_client_posix.c
extern void (*grpc_tcp_client_connect_impl)(
grpc_exec_ctx *exec_ctx, grpc_closure *closure, grpc_endpoint **ep,
grpc_pollset_set *interested_parties, const struct sockaddr *addr,
size_t addr_len, gpr_timespec deadline);
static void sched_connect(grpc_exec_ctx *exec_ctx, grpc_closure *closure,
grpc_endpoint **ep, gpr_timespec deadline);
typedef struct {
grpc_timer timer;
grpc_closure *closure;
grpc_endpoint **ep;
gpr_timespec deadline;
} future_connect;
static void do_connect(grpc_exec_ctx *exec_ctx, void *arg, bool success) {
future_connect *fc = arg;
if (!success) {
*fc->ep = NULL;
grpc_exec_ctx_enqueue(exec_ctx, fc->closure, false, NULL);
} else if (g_server != NULL) {
grpc_endpoint *client;
grpc_endpoint *server;
grpc_passthru_endpoint_create(&client, &server);
*fc->ep = client;
grpc_transport *transport =
grpc_create_chttp2_transport(exec_ctx, NULL, server, 0);
grpc_server_setup_transport(exec_ctx, g_server, transport, NULL, NULL);
grpc_chttp2_transport_start_reading(exec_ctx, transport, NULL, 0);
grpc_exec_ctx_enqueue(exec_ctx, fc->closure, false, NULL);
} else {
sched_connect(exec_ctx, fc->closure, fc->ep, fc->deadline);
}
gpr_free(fc);
}
static void sched_connect(grpc_exec_ctx *exec_ctx, grpc_closure *closure,
grpc_endpoint **ep, gpr_timespec deadline) {
if (gpr_time_cmp(deadline, gpr_now(deadline.clock_type)) < 0) {
*ep = NULL;
grpc_exec_ctx_enqueue(exec_ctx, closure, false, NULL);
return;
}
future_connect *fc = gpr_malloc(sizeof(*fc));
fc->closure = closure;
fc->ep = ep;
fc->deadline = deadline;
grpc_timer_init(exec_ctx, &fc->timer,
gpr_time_add(gpr_now(GPR_CLOCK_MONOTONIC),
gpr_time_from_millis(1, GPR_TIMESPAN)),
do_connect, fc, gpr_now(GPR_CLOCK_MONOTONIC));
}
static void my_tcp_client_connect(grpc_exec_ctx *exec_ctx,
grpc_closure *closure, grpc_endpoint **ep,
grpc_pollset_set *interested_parties,
const struct sockaddr *addr, size_t addr_len,
gpr_timespec deadline) {
sched_connect(exec_ctx, closure, ep, deadline);
}
////////////////////////////////////////////////////////////////////////////////
// test driver
typedef struct validator {
void (*validate)(void *arg, bool success);
void *arg;
} validator;
static validator *create_validator(void (*validate)(void *arg, bool success),
void *arg) {
validator *v = gpr_malloc(sizeof(*v));
v->validate = validate;
v->arg = arg;
return v;
}
static void assert_success_and_decrement(void *counter, bool success) {
GPR_ASSERT(success);
--*(int *)counter;
}
static void decrement(void *counter, bool success) { --*(int *)counter; }
typedef struct connectivity_watch {
int *counter;
gpr_timespec deadline;
} connectivity_watch;
static connectivity_watch *make_connectivity_watch(gpr_timespec s,
int *counter) {
connectivity_watch *o = gpr_malloc(sizeof(*o));
o->deadline = s;
o->counter = counter;
return o;
}
static void validate_connectivity_watch(void *p, bool success) {
connectivity_watch *w = p;
if (!success) {
GPR_ASSERT(gpr_time_cmp(gpr_now(w->deadline.clock_type), w->deadline) >= 0);
}
--*w->counter;
gpr_free(w);
}
static void free_non_null(void *p) {
GPR_ASSERT(p != NULL);
gpr_free(p);
}
typedef enum { ROOT, CLIENT, SERVER, PENDING_SERVER } call_state_type;
#define DONE_FLAG_CALL_CLOSED ((uint64_t)(1 << 0))
typedef struct call_state {
call_state_type type;
grpc_call *call;
grpc_byte_buffer *recv_message;
grpc_status_code status;
grpc_metadata_array recv_initial_metadata;
grpc_metadata_array recv_trailing_metadata;
char *recv_status_details;
size_t recv_status_details_capacity;
int cancelled;
int pending_ops;
grpc_call_details call_details;
grpc_byte_buffer *send_message;
// starts at 0, individual flags from DONE_FLAG_xxx are set
// as different operations are completed
uint64_t done_flags;
// array of pointers to free later
size_t num_to_free;
size_t cap_to_free;
void **to_free;
struct call_state *next;
struct call_state *prev;
} call_state;
static call_state *g_active_call;
static call_state *new_call(call_state *sibling, call_state_type type) {
call_state *c = gpr_malloc(sizeof(*c));
memset(c, 0, sizeof(*c));
if (sibling != NULL) {
c->next = sibling;
c->prev = sibling->prev;
c->next->prev = c->prev->next = c;
} else {
c->next = c->prev = c;
}
c->type = type;
return c;
}
static call_state *maybe_delete_call_state(call_state *call) {
call_state *next = call->next;
if (call->call != NULL) return next;
if (call->pending_ops != 0) return next;
if (call == g_active_call) {
g_active_call = call->next;
GPR_ASSERT(call != g_active_call);
}
call->prev->next = call->next;
call->next->prev = call->prev;
grpc_metadata_array_destroy(&call->recv_initial_metadata);
grpc_metadata_array_destroy(&call->recv_trailing_metadata);
gpr_free(call->recv_status_details);
grpc_call_details_destroy(&call->call_details);
for (size_t i = 0; i < call->num_to_free; i++) {
gpr_free(call->to_free[i]);
}
gpr_free(call->to_free);
gpr_free(call);
return next;
}
static void add_to_free(call_state *call, void *p) {
if (call->num_to_free == call->cap_to_free) {
call->cap_to_free = GPR_MAX(8, 2 * call->cap_to_free);
call->to_free =
gpr_realloc(call->to_free, sizeof(*call->to_free) * call->cap_to_free);
}
call->to_free[call->num_to_free++] = p;
}
static void read_metadata(input_stream *inp, size_t *count,
grpc_metadata **metadata, call_state *cs) {
*count = next_byte(inp);
if (*count) {
*metadata = gpr_malloc(*count * sizeof(**metadata));
memset(*metadata, 0, *count * sizeof(**metadata));
for (size_t i = 0; i < *count; i++) {
(*metadata)[i].key = read_string(inp);
read_buffer(inp, (char **)&(*metadata)[i].value,
&(*metadata)[i].value_length);
(*metadata)[i].flags = read_uint32(inp);
add_to_free(cs, (void *)(*metadata)[i].key);
add_to_free(cs, (void *)(*metadata)[i].value);
}
} else {
*metadata = gpr_malloc(1);
}
add_to_free(cs, *metadata);
}
static call_state *destroy_call(call_state *call) {
grpc_call_destroy(call->call);
call->call = NULL;
return maybe_delete_call_state(call);
}
static void finished_request_call(void *csp, bool success) {
call_state *cs = csp;
GPR_ASSERT(cs->pending_ops > 0);
--cs->pending_ops;
if (success) {
GPR_ASSERT(cs->call != NULL);
cs->type = SERVER;
} else {
maybe_delete_call_state(cs);
}
}
typedef struct {
call_state *cs;
uint8_t has_ops;
} batch_info;
static void finished_batch(void *p, bool success) {
batch_info *bi = p;
--bi->cs->pending_ops;
if ((bi->has_ops & (1u << GRPC_OP_RECV_MESSAGE)) &&
(bi->cs->done_flags & DONE_FLAG_CALL_CLOSED)) {
GPR_ASSERT(bi->cs->recv_message == NULL);
}
if ((bi->has_ops & (1u << GRPC_OP_RECV_MESSAGE) &&
bi->cs->recv_message != NULL)) {
grpc_byte_buffer_destroy(bi->cs->recv_message);
bi->cs->recv_message = NULL;
}
if ((bi->has_ops & (1u << GRPC_OP_SEND_MESSAGE))) {
grpc_byte_buffer_destroy(bi->cs->send_message);
bi->cs->send_message = NULL;
}
if ((bi->has_ops & (1u << GRPC_OP_RECV_STATUS_ON_CLIENT)) ||
(bi->has_ops & (1u << GRPC_OP_RECV_CLOSE_ON_SERVER))) {
bi->cs->done_flags |= DONE_FLAG_CALL_CLOSED;
}
maybe_delete_call_state(bi->cs);
gpr_free(bi);
}
static validator *make_finished_batch_validator(call_state *cs,
uint8_t has_ops) {
batch_info *bi = gpr_malloc(sizeof(*bi));
bi->cs = cs;
bi->has_ops = has_ops;
return create_validator(finished_batch, bi);
}
int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size) {
grpc_test_only_set_metadata_hash_seed(0);
if (squelch) gpr_set_log_function(dont_log);
input_stream inp = {data, data + size};
grpc_resolve_address = my_resolve_address;
grpc_tcp_client_connect_impl = my_tcp_client_connect;
gpr_now_impl = now_impl;
grpc_init();
GPR_ASSERT(g_channel == NULL);
GPR_ASSERT(g_server == NULL);
bool server_shutdown = false;
int pending_server_shutdowns = 0;
int pending_channel_watches = 0;
int pending_pings = 0;
g_active_call = new_call(NULL, ROOT);
grpc_completion_queue *cq = grpc_completion_queue_create(NULL);
while (!is_eof(&inp) || g_channel != NULL || g_server != NULL ||
pending_channel_watches > 0 || pending_pings > 0 ||
g_active_call->type != ROOT || g_active_call->next != g_active_call) {
if (is_eof(&inp)) {
if (g_channel != NULL) {
grpc_channel_destroy(g_channel);
g_channel = NULL;
}
if (g_server != NULL) {
if (!server_shutdown) {
grpc_server_shutdown_and_notify(
g_server, cq, create_validator(assert_success_and_decrement,
&pending_server_shutdowns));
server_shutdown = true;
pending_server_shutdowns++;
} else if (pending_server_shutdowns == 0) {
grpc_server_destroy(g_server);
g_server = NULL;
}
}
call_state *s = g_active_call;
do {
if (s->type != PENDING_SERVER && s->call != NULL) {
s = destroy_call(s);
} else {
s = s->next;
}
} while (s != g_active_call);
g_now = gpr_time_add(g_now, gpr_time_from_seconds(1, GPR_TIMESPAN));
}
switch (next_byte(&inp)) {
// terminate on bad bytes
default:
end(&inp);
break;
// tickle completion queue
case 0: {
grpc_event ev = grpc_completion_queue_next(
cq, gpr_inf_past(GPR_CLOCK_REALTIME), NULL);
switch (ev.type) {
case GRPC_OP_COMPLETE: {
validator *v = ev.tag;
v->validate(v->arg, ev.success);
gpr_free(v);
break;
}
case GRPC_QUEUE_TIMEOUT:
break;
case GRPC_QUEUE_SHUTDOWN:
abort();
break;
}
break;
}
// increment global time
case 1: {
g_now = gpr_time_add(
g_now, gpr_time_from_micros(read_uint32(&inp), GPR_TIMESPAN));
break;
}
// create an insecure channel
case 2: {
if (g_channel == NULL) {
char *target = read_string(&inp);
char *target_uri;
gpr_asprintf(&target_uri, "dns:%s", target);
grpc_channel_args *args = read_args(&inp);
g_channel = grpc_insecure_channel_create(target_uri, args, NULL);
GPR_ASSERT(g_channel != NULL);
grpc_channel_args_destroy(args);
gpr_free(target_uri);
gpr_free(target);
} else {
end(&inp);
}
break;
}
// destroy a channel
case 3: {
if (g_channel != NULL) {
grpc_channel_destroy(g_channel);
g_channel = NULL;
} else {
end(&inp);
}
break;
}
// bring up a server
case 4: {
if (g_server == NULL) {
grpc_channel_args *args = read_args(&inp);
g_server = grpc_server_create(args, NULL);
GPR_ASSERT(g_server != NULL);
grpc_channel_args_destroy(args);
grpc_server_register_completion_queue(g_server, cq, NULL);
grpc_server_start(g_server);
server_shutdown = false;
GPR_ASSERT(pending_server_shutdowns == 0);
} else {
end(&inp);
}
break;
}
// begin server shutdown
case 5: {
if (g_server != NULL) {
grpc_server_shutdown_and_notify(
g_server, cq, create_validator(assert_success_and_decrement,
&pending_server_shutdowns));
pending_server_shutdowns++;
server_shutdown = true;
} else {
end(&inp);
}
break;
}
// cancel all calls if shutdown
case 6: {
if (g_server != NULL && server_shutdown) {
grpc_server_cancel_all_calls(g_server);
} else {
end(&inp);
}
break;
}
// destroy server
case 7: {
if (g_server != NULL && server_shutdown &&
pending_server_shutdowns == 0) {
grpc_server_destroy(g_server);
g_server = NULL;
} else {
end(&inp);
}
break;
}
// check connectivity
case 8: {
if (g_channel != NULL) {
uint8_t try_to_connect = next_byte(&inp);
if (try_to_connect == 0 || try_to_connect == 1) {
grpc_channel_check_connectivity_state(g_channel, try_to_connect);
} else {
end(&inp);
}
} else {
end(&inp);
}
break;
}
// watch connectivity
case 9: {
if (g_channel != NULL) {
grpc_connectivity_state st =
grpc_channel_check_connectivity_state(g_channel, 0);
if (st != GRPC_CHANNEL_SHUTDOWN) {
gpr_timespec deadline = gpr_time_add(
gpr_now(GPR_CLOCK_REALTIME),
gpr_time_from_micros(read_uint32(&inp), GPR_TIMESPAN));
grpc_channel_watch_connectivity_state(
g_channel, st, deadline, cq,
create_validator(validate_connectivity_watch,
make_connectivity_watch(
deadline, &pending_channel_watches)));
pending_channel_watches++;
}
} else {
end(&inp);
}
break;
}
// create a call
case 10: {
bool ok = true;
if (g_channel == NULL) ok = false;
grpc_call *parent_call = NULL;
if (g_active_call->type != ROOT) {
if (g_active_call->call == NULL || g_active_call->type == CLIENT) {
end(&inp);
break;
}
parent_call = g_active_call->call;
}
uint32_t propagation_mask = read_uint32(&inp);
char *method = read_string(&inp);
char *host = read_string(&inp);
gpr_timespec deadline =
gpr_time_add(gpr_now(GPR_CLOCK_REALTIME),
gpr_time_from_micros(read_uint32(&inp), GPR_TIMESPAN));
if (ok) {
call_state *cs = new_call(g_active_call, CLIENT);
cs->call =
grpc_channel_create_call(g_channel, parent_call, propagation_mask,
cq, method, host, deadline, NULL);
} else {
end(&inp);
}
gpr_free(method);
gpr_free(host);
break;
}
// switch the 'current' call
case 11: {
g_active_call = g_active_call->next;
break;
}
// queue some ops on a call
case 12: {
if (g_active_call->type == PENDING_SERVER ||
g_active_call->type == ROOT || g_active_call->call == NULL) {
end(&inp);
break;
}
size_t num_ops = next_byte(&inp);
if (num_ops > 6) {
end(&inp);
break;
}
grpc_op *ops = gpr_malloc(sizeof(grpc_op) * num_ops);
bool ok = true;
size_t i;
grpc_op *op;
uint8_t has_ops = 0;
for (i = 0; i < num_ops; i++) {
op = &ops[i];
switch (next_byte(&inp)) {
default:
/* invalid value */
op->op = (grpc_op_type)-1;
ok = false;
break;
case GRPC_OP_SEND_INITIAL_METADATA:
op->op = GRPC_OP_SEND_INITIAL_METADATA;
has_ops |= 1 << GRPC_OP_SEND_INITIAL_METADATA;
read_metadata(&inp, &op->data.send_initial_metadata.count,
&op->data.send_initial_metadata.metadata,
g_active_call);
break;
case GRPC_OP_SEND_MESSAGE:
op->op = GRPC_OP_SEND_MESSAGE;
if (g_active_call->send_message != NULL) {
ok = false;
} else {
has_ops |= 1 << GRPC_OP_SEND_MESSAGE;
g_active_call->send_message = op->data.send_message =
read_message(&inp);
}
break;
case GRPC_OP_SEND_CLOSE_FROM_CLIENT:
op->op = GRPC_OP_SEND_CLOSE_FROM_CLIENT;
has_ops |= 1 << GRPC_OP_SEND_CLOSE_FROM_CLIENT;
break;
case GRPC_OP_SEND_STATUS_FROM_SERVER:
op->op = GRPC_OP_SEND_STATUS_FROM_SERVER;
has_ops |= 1 << GRPC_OP_SEND_STATUS_FROM_SERVER;
read_metadata(
&inp,
&op->data.send_status_from_server.trailing_metadata_count,
&op->data.send_status_from_server.trailing_metadata,
g_active_call);
op->data.send_status_from_server.status = next_byte(&inp);
op->data.send_status_from_server.status_details =
read_string(&inp);
break;
case GRPC_OP_RECV_INITIAL_METADATA:
op->op = GRPC_OP_RECV_INITIAL_METADATA;
has_ops |= 1 << GRPC_OP_RECV_INITIAL_METADATA;
op->data.recv_initial_metadata =
&g_active_call->recv_initial_metadata;
break;
case GRPC_OP_RECV_MESSAGE:
op->op = GRPC_OP_RECV_MESSAGE;
has_ops |= 1 << GRPC_OP_RECV_MESSAGE;
op->data.recv_message = &g_active_call->recv_message;
break;
case GRPC_OP_RECV_STATUS_ON_CLIENT:
op->op = GRPC_OP_RECV_STATUS_ON_CLIENT;
op->data.recv_status_on_client.status = &g_active_call->status;
op->data.recv_status_on_client.trailing_metadata =
&g_active_call->recv_trailing_metadata;
op->data.recv_status_on_client.status_details =
&g_active_call->recv_status_details;
op->data.recv_status_on_client.status_details_capacity =
&g_active_call->recv_status_details_capacity;
break;
case GRPC_OP_RECV_CLOSE_ON_SERVER:
op->op = GRPC_OP_RECV_CLOSE_ON_SERVER;
has_ops |= 1 << GRPC_OP_RECV_CLOSE_ON_SERVER;
op->data.recv_close_on_server.cancelled =
&g_active_call->cancelled;
break;
}
op->reserved = NULL;
op->flags = read_uint32(&inp);
}
if (ok) {
validator *v = make_finished_batch_validator(g_active_call, has_ops);
g_active_call->pending_ops++;
grpc_call_error error =
grpc_call_start_batch(g_active_call->call, ops, num_ops, v, NULL);
if (error != GRPC_CALL_OK) {
v->validate(v->arg, false);
gpr_free(v);
}
} else {
end(&inp);
}
if (!ok && (has_ops & (1 << GRPC_OP_SEND_MESSAGE))) {
grpc_byte_buffer_destroy(g_active_call->send_message);
g_active_call->send_message = NULL;
}
for (i = 0; i < num_ops; i++) {
op = &ops[i];
switch (op->op) {
case GRPC_OP_SEND_STATUS_FROM_SERVER:
gpr_free((void *)op->data.send_status_from_server.status_details);
break;
case GRPC_OP_SEND_MESSAGE:
case GRPC_OP_SEND_INITIAL_METADATA:
case GRPC_OP_SEND_CLOSE_FROM_CLIENT:
case GRPC_OP_RECV_INITIAL_METADATA:
case GRPC_OP_RECV_MESSAGE:
case GRPC_OP_RECV_STATUS_ON_CLIENT:
case GRPC_OP_RECV_CLOSE_ON_SERVER:
break;
}
}
gpr_free(ops);
break;
}
// cancel current call
case 13: {
if (g_active_call->type != ROOT && g_active_call->call != NULL) {
grpc_call_cancel(g_active_call->call, NULL);
} else {
end(&inp);
}
break;
}
// get a calls peer
case 14: {
if (g_active_call->type != ROOT && g_active_call->call != NULL) {
free_non_null(grpc_call_get_peer(g_active_call->call));
} else {
end(&inp);
}
break;
}
// get a channels target
case 15: {
if (g_channel != NULL) {
free_non_null(grpc_channel_get_target(g_channel));
} else {
end(&inp);
}
break;
}
// send a ping on a channel
case 16: {
if (g_channel != NULL) {
pending_pings++;
grpc_channel_ping(g_channel, cq,
create_validator(decrement, &pending_pings), NULL);
} else {
end(&inp);
}
break;
}
// enable a tracer
case 17: {
char *tracer = read_string(&inp);
grpc_tracer_set_enabled(tracer, 1);
gpr_free(tracer);
break;
}
// disable a tracer
case 18: {
char *tracer = read_string(&inp);
grpc_tracer_set_enabled(tracer, 0);
gpr_free(tracer);
break;
}
// request a server call
case 19: {
if (g_server == NULL) {
end(&inp);
break;
}
call_state *cs = new_call(g_active_call, PENDING_SERVER);
cs->pending_ops++;
validator *v = create_validator(finished_request_call, cs);
grpc_call_error error =
grpc_server_request_call(g_server, &cs->call, &cs->call_details,
&cs->recv_initial_metadata, cq, cq, v);
if (error != GRPC_CALL_OK) {
v->validate(v->arg, false);
gpr_free(v);
}
break;
}
// destroy a call
case 20: {
if (g_active_call->type != ROOT &&
g_active_call->type != PENDING_SERVER &&
g_active_call->call != NULL) {
destroy_call(g_active_call);
} else {
end(&inp);
}
break;
}
}
}
GPR_ASSERT(g_channel == NULL);
GPR_ASSERT(g_server == NULL);
GPR_ASSERT(g_active_call->type == ROOT);
GPR_ASSERT(g_active_call->next == g_active_call);
gpr_free(g_active_call);
grpc_completion_queue_shutdown(cq);
GPR_ASSERT(
grpc_completion_queue_next(cq, gpr_inf_past(GPR_CLOCK_REALTIME), NULL)
.type == GRPC_QUEUE_SHUTDOWN);
grpc_completion_queue_destroy(cq);
grpc_shutdown();
return 0;
}
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