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|
#include <stdbool.h>
#include <string.h>
#include <inttypes.h>
#include <uv.h>
#include <msgpack.h>
#include "nvim/lib/klist.h"
#include "nvim/api/private/helpers.h"
#include "nvim/api/vim.h"
#include "nvim/msgpack_rpc/channel.h"
#include "nvim/os/event.h"
#include "nvim/os/rstream.h"
#include "nvim/os/rstream_defs.h"
#include "nvim/os/wstream.h"
#include "nvim/os/wstream_defs.h"
#include "nvim/os/job.h"
#include "nvim/os/job_defs.h"
#include "nvim/msgpack_rpc/helpers.h"
#include "nvim/vim.h"
#include "nvim/ascii.h"
#include "nvim/memory.h"
#include "nvim/os_unix.h"
#include "nvim/message.h"
#include "nvim/term.h"
#include "nvim/map.h"
#include "nvim/log.h"
#include "nvim/misc1.h"
#include "nvim/lib/kvec.h"
#define CHANNEL_BUFFER_SIZE 0xffff
#if MIN_LOG_LEVEL > DEBUG_LOG_LEVEL
#define log_client_msg(...)
#define log_server_msg(...)
#endif
typedef struct {
uint64_t request_id;
bool returned, errored;
Object result;
} ChannelCallFrame;
typedef struct {
uint64_t id;
PMap(cstr_t) *subscribed_events;
bool is_job, closed;
msgpack_unpacker *unpacker;
union {
Job *job;
struct {
RStream *read;
WStream *write;
uv_stream_t *uv;
} streams;
} data;
uint64_t next_request_id;
kvec_t(ChannelCallFrame *) call_stack;
} Channel;
typedef struct {
Channel *channel;
MsgpackRpcRequestHandler handler;
Array args;
uint64_t request_id;
} RequestEvent;
#define RequestEventFreer(x)
KMEMPOOL_INIT(RequestEventPool, RequestEvent, RequestEventFreer)
kmempool_t(RequestEventPool) *request_event_pool = NULL;
static uint64_t next_id = 1;
static PMap(uint64_t) *channels = NULL;
static PMap(cstr_t) *event_strings = NULL;
static msgpack_sbuffer out_buffer;
#ifdef INCLUDE_GENERATED_DECLARATIONS
# include "msgpack_rpc/channel.c.generated.h"
#endif
/// Initializes the module
void channel_init(void)
{
request_event_pool = kmp_init(RequestEventPool);
channels = pmap_new(uint64_t)();
event_strings = pmap_new(cstr_t)();
msgpack_sbuffer_init(&out_buffer);
if (embedded_mode) {
channel_from_stdio();
}
}
/// Teardown the module
void channel_teardown(void)
{
if (!channels) {
return;
}
Channel *channel;
map_foreach_value(channels, channel, {
close_channel(channel);
});
}
/// Creates an API channel by starting a job and connecting to its
/// stdin/stdout. stderr is forwarded to the editor error stream.
///
/// @param argv The argument vector for the process
/// @return The channel id
uint64_t channel_from_job(char **argv)
{
Channel *channel = register_channel();
channel->is_job = true;
int status;
channel->data.job = job_start(argv,
channel,
true,
job_out,
job_err,
job_exit,
0,
&status);
if (status <= 0) {
free_channel(channel);
return 0;
}
return channel->id;
}
/// Creates an API channel from a libuv stream representing a tcp or
/// pipe/socket client connection
///
/// @param stream The established connection
void channel_from_stream(uv_stream_t *stream)
{
Channel *channel = register_channel();
stream->data = NULL;
channel->is_job = false;
// read stream
channel->data.streams.read = rstream_new(parse_msgpack,
rbuffer_new(CHANNEL_BUFFER_SIZE),
channel);
rstream_set_stream(channel->data.streams.read, stream);
rstream_start(channel->data.streams.read);
// write stream
channel->data.streams.write = wstream_new(0);
wstream_set_stream(channel->data.streams.write, stream);
channel->data.streams.uv = stream;
}
bool channel_exists(uint64_t id)
{
Channel *channel;
return (channel = pmap_get(uint64_t)(channels, id)) != NULL
&& !channel->closed;
}
/// Sends event/arguments to channel
///
/// @param id The channel id. If 0, the event will be sent to all
/// channels that have subscribed to the event type
/// @param name The event name, an arbitrary string
/// @param args Array with event arguments
/// @return True if the event was sent successfully, false otherwise.
bool channel_send_event(uint64_t id, char *name, Array args)
{
Channel *channel = NULL;
if (id > 0) {
if (!(channel = pmap_get(uint64_t)(channels, id)) || channel->closed) {
api_free_array(args);
return false;
}
send_event(channel, name, args);
} else {
broadcast_event(name, args);
}
return true;
}
/// Sends a method call to a channel
///
/// @param id The channel id
/// @param method_name The method name, an arbitrary string
/// @param args Array with method arguments
/// @param[out] error True if the return value is an error
/// @return Whatever the remote method returned
Object channel_send_call(uint64_t id,
char *method_name,
Array args,
Error *err)
{
Channel *channel = NULL;
if (!(channel = pmap_get(uint64_t)(channels, id)) || channel->closed) {
api_set_error(err, Exception, _("Invalid channel \"%" PRIu64 "\""), id);
api_free_array(args);
return NIL;
}
if (kv_size(channel->call_stack) > 20) {
// 20 stack depth is more than anyone should ever need for RPC calls
api_set_error(err,
Exception,
_("Channel %" PRIu64 " crossed maximum stack depth"),
channel->id);
api_free_array(args);
return NIL;
}
uint64_t request_id = channel->next_request_id++;
// Send the msgpack-rpc request
send_request(channel, request_id, method_name, args);
// Push the frame
ChannelCallFrame frame = {request_id, false, false, NIL};
kv_push(ChannelCallFrame *, channel->call_stack, &frame);
event_poll_until(-1, frame.returned);
(void)kv_pop(channel->call_stack);
if (frame.errored) {
api_set_error(err, Exception, "%s", frame.result.data.string.data);
return NIL;
}
if (channel->closed && !kv_size(channel->call_stack)) {
free_channel(channel);
}
return frame.result;
}
/// Subscribes to event broadcasts
///
/// @param id The channel id
/// @param event The event type string
void channel_subscribe(uint64_t id, char *event)
{
Channel *channel;
if (!(channel = pmap_get(uint64_t)(channels, id)) || channel->closed) {
abort();
}
char *event_string = pmap_get(cstr_t)(event_strings, event);
if (!event_string) {
event_string = xstrdup(event);
pmap_put(cstr_t)(event_strings, event_string, event_string);
}
pmap_put(cstr_t)(channel->subscribed_events, event_string, event_string);
}
/// Unsubscribes to event broadcasts
///
/// @param id The channel id
/// @param event The event type string
void channel_unsubscribe(uint64_t id, char *event)
{
Channel *channel;
if (!(channel = pmap_get(uint64_t)(channels, id)) || channel->closed) {
abort();
}
unsubscribe(channel, event);
}
/// Closes a channel
///
/// @param id The channel id
/// @return true if successful, false otherwise
bool channel_close(uint64_t id)
{
Channel *channel;
if (!(channel = pmap_get(uint64_t)(channels, id)) || channel->closed) {
return false;
}
close_channel(channel);
return true;
}
/// Creates an API channel from stdin/stdout. This is used when embedding
/// Neovim
static void channel_from_stdio(void)
{
Channel *channel = register_channel();
channel->is_job = false;
// read stream
channel->data.streams.read = rstream_new(parse_msgpack,
rbuffer_new(CHANNEL_BUFFER_SIZE),
channel);
rstream_set_file(channel->data.streams.read, 0);
rstream_start(channel->data.streams.read);
// write stream
channel->data.streams.write = wstream_new(0);
wstream_set_file(channel->data.streams.write, 1);
channel->data.streams.uv = NULL;
}
static void job_out(RStream *rstream, void *data, bool eof)
{
Job *job = data;
parse_msgpack(rstream, job_data(job), eof);
}
static void job_err(RStream *rstream, void *data, bool eof)
{
size_t count;
char buf[256];
Channel *channel = job_data(data);
while ((count = rstream_pending(rstream))) {
size_t read = rstream_read(rstream, buf, sizeof(buf) - 1);
buf[read] = NUL;
ELOG("Channel %" PRIu64 " stderr: %s", channel->id, buf);
}
}
static void job_exit(Job *job, void *data)
{
free_channel((Channel *)data);
}
static void parse_msgpack(RStream *rstream, void *data, bool eof)
{
Channel *channel = data;
if (eof) {
close_channel(channel);
call_set_error(channel, "Channel was closed by the client");
return;
}
size_t count = rstream_pending(rstream);
DLOG("Feeding the msgpack parser with %u bytes of data from RStream(%p)",
count,
rstream);
// Feed the unpacker with data
msgpack_unpacker_reserve_buffer(channel->unpacker, count);
rstream_read(rstream, msgpack_unpacker_buffer(channel->unpacker), count);
msgpack_unpacker_buffer_consumed(channel->unpacker, count);
msgpack_unpacked unpacked;
msgpack_unpacked_init(&unpacked);
msgpack_unpack_return result;
// Deserialize everything we can.
while ((result = msgpack_unpacker_next(channel->unpacker, &unpacked)) ==
MSGPACK_UNPACK_SUCCESS) {
bool is_response = is_rpc_response(&unpacked.data);
log_client_msg(channel->id, !is_response, unpacked.data);
if (kv_size(channel->call_stack) && is_response) {
if (is_valid_rpc_response(&unpacked.data, channel)) {
complete_call(&unpacked.data, channel);
} else {
char buf[256];
snprintf(buf,
sizeof(buf),
"Channel %" PRIu64 " returned a response that doesn't have "
" a matching id for the current RPC call. Ensure the client "
" is properly synchronized",
channel->id);
call_set_error(channel, buf);
}
msgpack_unpacked_destroy(&unpacked);
// Bail out from this event loop iteration
return;
}
handle_request(channel, &unpacked.data);
}
if (result == MSGPACK_UNPACK_NOMEM_ERROR) {
OUT_STR(e_outofmem);
out_char('\n');
preserve_exit();
}
if (result == MSGPACK_UNPACK_PARSE_ERROR) {
// See src/msgpack/unpack_template.h in msgpack source tree for
// causes for this error(search for 'goto _failed')
//
// A not so uncommon cause for this might be deserializing objects with
// a high nesting level: msgpack will break when it's internal parse stack
// size exceeds MSGPACK_EMBED_STACK_SIZE(defined as 32 by default)
send_error(channel, 0, "Invalid msgpack payload. "
"This error can also happen when deserializing "
"an object with high level of nesting");
}
}
static void handle_request(Channel *channel, msgpack_object *request)
FUNC_ATTR_NONNULL_ALL
{
uint64_t request_id;
Error error = ERROR_INIT;
msgpack_rpc_validate(&request_id, request, &error);
if (error.set) {
// Validation failed, send response with error
channel_write(channel,
serialize_response(channel->id,
request_id,
&error,
NIL,
&out_buffer));
return;
}
// Retrieve the request handler
MsgpackRpcRequestHandler handler;
msgpack_object method = request->via.array.ptr[2];
if (method.type == MSGPACK_OBJECT_BIN || method.type == MSGPACK_OBJECT_STR) {
handler = msgpack_rpc_get_handler_for(method.via.bin.ptr,
method.via.bin.size);
} else {
handler.fn = msgpack_rpc_handle_missing_method;
handler.defer = false;
}
Array args = ARRAY_DICT_INIT;
msgpack_rpc_to_array(request->via.array.ptr + 3, &args);
bool defer = (!kv_size(channel->call_stack) && handler.defer);
RequestEvent *event_data = kmp_alloc(RequestEventPool, request_event_pool);
event_data->channel = channel;
event_data->handler = handler;
event_data->args = args;
event_data->request_id = request_id;
event_push((Event) {
.handler = on_request_event,
.data = event_data
}, defer);
}
static void on_request_event(Event event)
{
RequestEvent *e = event.data;
Channel *channel = e->channel;
MsgpackRpcRequestHandler handler = e->handler;
Array args = e->args;
uint64_t request_id = e->request_id;
Error error = ERROR_INIT;
Object result = handler.fn(channel->id, request_id, args, &error);
// send the response
msgpack_packer response;
msgpack_packer_init(&response, &out_buffer, msgpack_sbuffer_write);
channel_write(channel, serialize_response(channel->id,
request_id,
&error,
result,
&out_buffer));
// All arguments were freed already, but we still need to free the array
free(args.items);
kmp_free(RequestEventPool, request_event_pool, e);
}
static bool channel_write(Channel *channel, WBuffer *buffer)
{
bool success;
if (channel->is_job) {
success = job_write(channel->data.job, buffer);
} else {
success = wstream_write(channel->data.streams.write, buffer);
}
if (!success) {
// If the write failed for any reason, close the channel
char buf[256];
snprintf(buf,
sizeof(buf),
"Before returning from a RPC call, channel %" PRIu64 " was "
"closed due to a failed write",
channel->id);
call_set_error(channel, buf);
}
return success;
}
static void send_error(Channel *channel, uint64_t id, char *err)
{
Error e = ERROR_INIT;
api_set_error(&e, Exception, "%s", err);
channel_write(channel, serialize_response(channel->id,
id,
&e,
NIL,
&out_buffer));
}
static void send_request(Channel *channel,
uint64_t id,
char *name,
Array args)
{
String method = {.size = strlen(name), .data = name};
channel_write(channel, serialize_request(channel->id,
id,
method,
args,
&out_buffer,
1));
}
static void send_event(Channel *channel,
char *name,
Array args)
{
String method = {.size = strlen(name), .data = name};
channel_write(channel, serialize_request(channel->id,
0,
method,
args,
&out_buffer,
1));
}
static void broadcast_event(char *name, Array args)
{
kvec_t(Channel *) subscribed;
kv_init(subscribed);
Channel *channel;
map_foreach_value(channels, channel, {
if (pmap_has(cstr_t)(channel->subscribed_events, name)) {
kv_push(Channel *, subscribed, channel);
}
});
if (!kv_size(subscribed)) {
api_free_array(args);
goto end;
}
String method = {.size = strlen(name), .data = name};
WBuffer *buffer = serialize_request(0,
0,
method,
args,
&out_buffer,
kv_size(subscribed));
for (size_t i = 0; i < kv_size(subscribed); i++) {
channel_write(kv_A(subscribed, i), buffer);
}
end:
kv_destroy(subscribed);
}
static void unsubscribe(Channel *channel, char *event)
{
char *event_string = pmap_get(cstr_t)(event_strings, event);
pmap_del(cstr_t)(channel->subscribed_events, event_string);
map_foreach_value(channels, channel, {
if (pmap_has(cstr_t)(channel->subscribed_events, event_string)) {
return;
}
});
// Since the string is no longer used by other channels, release it's memory
pmap_del(cstr_t)(event_strings, event_string);
free(event_string);
}
/// Close the channel streams/job. The channel resources will be freed by
/// free_channel later.
static void close_channel(Channel *channel)
{
if (channel->closed) {
return;
}
channel->closed = true;
if (channel->is_job) {
if (channel->data.job) {
job_stop(channel->data.job);
}
} else {
rstream_free(channel->data.streams.read);
wstream_free(channel->data.streams.write);
uv_handle_t *handle = (uv_handle_t *)channel->data.streams.uv;
if (handle) {
uv_close(handle, close_cb);
} else {
event_push((Event) { .handler = on_stdio_close }, false);
}
}
}
static void on_stdio_close(Event e)
{
mch_exit(0);
}
static void free_channel(Channel *channel)
{
pmap_del(uint64_t)(channels, channel->id);
msgpack_unpacker_free(channel->unpacker);
// Unsubscribe from all events
char *event_string;
map_foreach_value(channel->subscribed_events, event_string, {
unsubscribe(channel, event_string);
});
pmap_free(cstr_t)(channel->subscribed_events);
kv_destroy(channel->call_stack);
free(channel);
}
static void close_cb(uv_handle_t *handle)
{
free(handle->data);
free(handle);
}
static Channel *register_channel(void)
{
Channel *rv = xmalloc(sizeof(Channel));
rv->closed = false;
rv->unpacker = msgpack_unpacker_new(MSGPACK_UNPACKER_INIT_BUFFER_SIZE);
rv->id = next_id++;
rv->subscribed_events = pmap_new(cstr_t)();
rv->next_request_id = 1;
kv_init(rv->call_stack);
pmap_put(uint64_t)(channels, rv->id, rv);
return rv;
}
static bool is_rpc_response(msgpack_object *obj)
{
return obj->type == MSGPACK_OBJECT_ARRAY
&& obj->via.array.size == 4
&& obj->via.array.ptr[0].type == MSGPACK_OBJECT_POSITIVE_INTEGER
&& obj->via.array.ptr[0].via.u64 == 1
&& obj->via.array.ptr[1].type == MSGPACK_OBJECT_POSITIVE_INTEGER;
}
static bool is_valid_rpc_response(msgpack_object *obj, Channel *channel)
{
uint64_t response_id = obj->via.array.ptr[1].via.u64;
// Must be equal to the frame at the stack's bottom
return response_id == kv_A(channel->call_stack,
kv_size(channel->call_stack) - 1)->request_id;
}
static void complete_call(msgpack_object *obj, Channel *channel)
{
ChannelCallFrame *frame = kv_A(channel->call_stack,
kv_size(channel->call_stack) - 1);
frame->returned = true;
frame->errored = obj->via.array.ptr[2].type != MSGPACK_OBJECT_NIL;
if (frame->errored) {
msgpack_rpc_to_object(&obj->via.array.ptr[2], &frame->result);
} else {
msgpack_rpc_to_object(&obj->via.array.ptr[3], &frame->result);
}
}
static void call_set_error(Channel *channel, char *msg)
{
for (size_t i = 0; i < kv_size(channel->call_stack); i++) {
ChannelCallFrame *frame = kv_A(channel->call_stack, i);
frame->returned = true;
frame->errored = true;
frame->result = STRING_OBJ(cstr_to_string(msg));
}
close_channel(channel);
}
static WBuffer *serialize_request(uint64_t channel_id,
uint64_t request_id,
String method,
Array args,
msgpack_sbuffer *sbuffer,
size_t refcount)
{
msgpack_packer pac;
msgpack_packer_init(&pac, sbuffer, msgpack_sbuffer_write);
msgpack_rpc_serialize_request(request_id, method, args, &pac);
log_server_msg(channel_id, sbuffer);
WBuffer *rv = wstream_new_buffer(xmemdup(sbuffer->data, sbuffer->size),
sbuffer->size,
refcount,
free);
msgpack_sbuffer_clear(sbuffer);
api_free_array(args);
return rv;
}
static WBuffer *serialize_response(uint64_t channel_id,
uint64_t response_id,
Error *err,
Object arg,
msgpack_sbuffer *sbuffer)
{
msgpack_packer pac;
msgpack_packer_init(&pac, sbuffer, msgpack_sbuffer_write);
msgpack_rpc_serialize_response(response_id, err, arg, &pac);
log_server_msg(channel_id, sbuffer);
WBuffer *rv = wstream_new_buffer(xmemdup(sbuffer->data, sbuffer->size),
sbuffer->size,
1, // responses only go though 1 channel
free);
msgpack_sbuffer_clear(sbuffer);
api_free_object(arg);
return rv;
}
#if MIN_LOG_LEVEL <= DEBUG_LOG_LEVEL
#define REQ "[request] "
#define RES "[response] "
#define NOT "[notification] "
static void log_server_msg(uint64_t channel_id,
msgpack_sbuffer *packed)
{
msgpack_unpacked unpacked;
msgpack_unpacked_init(&unpacked);
msgpack_unpack_next(&unpacked, packed->data, packed->size, NULL);
uint64_t type = unpacked.data.via.array.ptr[0].via.u64;
DLOGN("[msgpack-rpc] nvim -> client(%" PRIu64 ") ", channel_id);
FILE *f = open_log_file();
fprintf(f, type ? (type == 1 ? RES : NOT) : REQ);
log_msg_close(f, unpacked.data);
msgpack_unpacked_destroy(&unpacked);
}
static void log_client_msg(uint64_t channel_id,
bool is_request,
msgpack_object msg)
{
DLOGN("[msgpack-rpc] client(%" PRIu64 ") -> nvim ", channel_id);
FILE *f = open_log_file();
fprintf(f, is_request ? REQ : RES);
log_msg_close(f, msg);
}
static void log_msg_close(FILE *f, msgpack_object msg)
{
msgpack_object_print(f, msg);
fputc('\n', f);
fflush(f);
fclose(f);
}
#endif
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