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// @TODO: maximum queue size for requests/responses just in case?
typedef enum {
LSP_NONE,
LSP_INITIALIZE,
LSP_INITIALIZED,
LSP_OPEN,
LSP_COMPLETION,
LSP_SHUTDOWN,
LSP_EXIT
} LSPRequestType;
typedef struct {
// buffer language
Language language;
// these will be free'd.
char *filename;
char *file_contents;
} LSPRequestOpen;
typedef struct {
LSPRequestType type;
union {
LSPRequestOpen open;
} data;
} LSPRequest;
typedef struct {
Process process;
u64 request_id;
JSON *responses;
SDL_mutex *responses_mutex;
LSPRequest *requests;
SDL_mutex *requests_mutex;
bool initialized; // has the response to the initialize request been sent?
SDL_Thread *communication_thread;
SDL_sem *quit_sem;
char *received_data; // dynamic array
SDL_mutex *error_mutex;
char error[256];
} LSP;
// returns true if there's an error.
// returns false and sets error to "" if there's no error.
// if clear = true, the error will be cleared.
// you may set error = NULL, error_size = 0, clear = true to just clear the error
bool lsp_get_error(LSP *lsp, char *error, size_t error_size, bool clear) {
bool has_err = false;
SDL_LockMutex(lsp->error_mutex);
has_err = *lsp->error != '\0';
if (error_size)
str_cpy(error, error_size, lsp->error);
if (clear)
*lsp->error = '\0';
SDL_UnlockMutex(lsp->error_mutex);
return has_err;
}
#define lsp_set_error(lsp, ...) do {\
SDL_LockMutex(lsp->error_mutex);\
strbuf_printf(lsp->error, __VA_ARGS__);\
SDL_UnlockMutex(lsp->error_mutex);\
} while (0)
static void write_request_content(LSP *lsp, const char *content) {
char header[128];
size_t content_size = strlen(content);
strbuf_printf(header, "Content-Length: %zu\r\n\r\n", content_size);
#if 0
printf("\x1b[1m%s%s\x1b[0m\n", header, content);
#endif
process_write(&lsp->process, header, strlen(header));
process_write(&lsp->process, content, content_size);
}
static const char *lsp_language_id(Language lang) {
switch (lang) {
case LANG_CONFIG:
case LANG_TED_CFG:
case LANG_NONE:
return "text";
case LANG_C:
return "c";
case LANG_CPP:
return "cpp";
case LANG_JAVA:
return "java";
case LANG_JAVASCRIPT:
return "javascript";
case LANG_MARKDOWN:
return "markdown";
case LANG_GO:
return "go";
case LANG_RUST:
return "rust";
case LANG_PYTHON:
return "python";
case LANG_HTML:
return "html";
case LANG_TEX:
return "latex";
case LANG_COUNT: break;
}
assert(0);
return "text";
}
// technically there are "requests" and "notifications"
// notifications are different in that they don't have IDs and don't return responses.
// the distinction isn't super important to us though.
// returns the ID of the request
static u64 write_request(LSP *lsp, const LSPRequest *request) {
unsigned long long id = lsp->request_id++;
switch (request->type) {
case LSP_NONE:
assert(0);
break;
case LSP_INITIALIZE: {
char content[1024];
strbuf_printf(content,
"{\"jsonrpc\":\"2.0\",\"id\":%llu,\"method\":\"initialize\",\"params\":{"
"\"processId\":%d,"
"\"capabilities\":{}"
"}}", id, process_get_id());
write_request_content(lsp, content);
} break;
case LSP_INITIALIZED: {
write_request_content(lsp, "{\"jsonrpc\":\"2.0\",\"method\":\"initialized\"}");
} break;
case LSP_OPEN: {
const LSPRequestOpen *open = &request->data.open;
char *escaped_filename = json_escape(open->filename);
char *did_open = a_sprintf(
"{\"jsonrpc\":\"2.0\",\"id\":%llu,\"method\":\"textDocument/open\",\"params\":{"
"textDocument:{"
"uri:\"file://%s\","
"languageId:\"%s\","
"version:1,"
"text:\"",
id, escaped_filename, lsp_language_id(open->language));
free(escaped_filename);
size_t did_open_sz = strlen(did_open) + 2 * strlen(open->file_contents) + 16;
did_open = realloc(did_open, did_open_sz);
size_t n = json_escape_to(did_open + strlen(did_open),
did_open_sz - 10 - strlen(did_open),
open->file_contents);
char *p = did_open + n;
sprintf(p, "\"}}}");
free(did_open);
write_request_content(lsp, did_open);
} break;
case LSP_COMPLETION: {
char content[1024];
// no params needed
strbuf_printf(content,
"{\"jsonrpc\":\"2.0\",\"id\":%llu,\"method\":\"textDocument/completion\",\"params\":{"
"}}", id);
write_request_content(lsp, content);
} break;
case LSP_SHUTDOWN: {
char content[1024];
strbuf_printf(content,
"{\"jsonrpc\":\"2.0\",\"id\":%llu,\"method\":\"shutdown\"}", id);
write_request_content(lsp, content);
} break;
case LSP_EXIT: {
write_request_content(lsp, "{\"jsonrpc\":\"2.0\",\"method\":\"exit\"}");
} break;
}
return (u64)id;
}
// figure out if data begins with a complete LSP response.
static bool has_response(const char *data, size_t data_len, u64 *p_offset, u64 *p_size) {
const char *content_length = strstr(data, "Content-Length");
if (!content_length) return false;
const char *p = content_length + strlen("Content-Length");
if (!p[0] || !p[1] || !p[2]) return false;
p += 2;
size_t size = (size_t)atoll(p);
*p_size = size;
const char *header_end = strstr(content_length, "\r\n\r\n");
if (!header_end) return false;
header_end += 4;
u64 offset = (u64)(header_end - data);
*p_offset = offset;
return offset + size <= data_len;
}
void lsp_send_request(LSP *lsp, const LSPRequest *request) {
SDL_LockMutex(lsp->requests_mutex);
arr_add(lsp->requests, *request);
SDL_UnlockMutex(lsp->requests_mutex);
}
static void process_response(LSP *lsp, const JSON *json) {
#if 1
printf("\x1b[3m");
json_debug_print(json);
printf("\x1b[0m\n");
#endif
JSONValue result = json_get(json, "result");
JSONValue id = json_get(json, "id");
if (result.type == JSON_UNDEFINED || id.type != JSON_NUMBER) {
// uh oh
JSONValue error = json_get(json, "error.message");
if (error.type == JSON_STRING) {
char err[256] = {0};
json_string_get(json, &error.val.string, err, sizeof err);;
lsp_set_error(lsp, "%s", err);
} else {
lsp_set_error(lsp, "Server error (no message)");
}
} else if (id.val.number == 0) {
// it's the response to our initialize request!
// let's send back an "initialized" request (notification) because apparently
// that's something we need to do.
LSPRequest initialized = {
.type = LSP_INITIALIZED,
.data = {0},
};
u64 initialized_id = write_request(lsp, &initialized);
// this should be the second request.
(void)initialized_id;
assert(initialized_id == 1);
// we can now send requests which have nothing to do with initialization
lsp->initialized = true;
} else {
SDL_LockMutex(lsp->responses_mutex);
arr_add(lsp->responses, *json);
SDL_UnlockMutex(lsp->responses_mutex);
}
}
// receive responses from LSP, up to max_size bytes.
static void lsp_receive(LSP *lsp, size_t max_size) {
{
// read stderr. if all goes well, we shouldn't get anything over stderr.
char stderr_buf[1024] = {0};
for (size_t i = 0; i < (max_size + sizeof stderr_buf) / sizeof stderr_buf; ++i) {
ssize_t nstderr = process_read_stderr(&lsp->process, stderr_buf, sizeof stderr_buf - 1);
if (nstderr > 0) {
// uh oh
stderr_buf[nstderr] = '\0';
fprintf(stderr, "\x1b[1m\x1b[93m%s\x1b[0m", stderr_buf);
} else {
break;
}
}
}
size_t received_so_far = arr_len(lsp->received_data);
arr_reserve(lsp->received_data, received_so_far + max_size + 1);
long long bytes_read = process_read(&lsp->process, lsp->received_data + received_so_far, max_size);
if (bytes_read <= 0) {
// no data
return;
}
received_so_far += (size_t)bytes_read;
// kind of a hack. this is needed because arr_set_len zeroes the data.
arr_hdr_(lsp->received_data)->len = (u32)received_so_far;
lsp->received_data[received_so_far] = '\0';// null terminate
#if 0
printf("\x1b[3m%s\x1b[0m\n",lsp->received_data);
#endif
u64 response_offset=0, response_size=0;
while (has_response(lsp->received_data, received_so_far, &response_offset, &response_size)) {
char *copy = strn_dup(lsp->received_data + response_offset, response_size);
JSON json = {0};
if (json_parse(&json, copy)) {
assert(json.text == copy);
json.is_text_copied = true;
process_response(lsp, &json);
} else {
lsp_set_error(lsp, "couldn't parse response JSON: %s", json.error);
json_free(&json);
}
size_t leftover_data_len = arr_len(lsp->received_data) - (response_offset + response_size);
memmove(lsp->received_data, lsp->received_data + response_offset + response_size,
leftover_data_len);
arr_set_len(lsp->received_data, leftover_data_len);
arr_reserve(lsp->received_data, leftover_data_len + 1);
lsp->received_data[leftover_data_len] = '\0';
}
}
static void free_request(LSPRequest *r) {
switch (r->type) {
case LSP_NONE:
assert(0);
break;
case LSP_INITIALIZE:
case LSP_INITIALIZED:
case LSP_COMPLETION:
case LSP_SHUTDOWN:
case LSP_EXIT:
break;
case LSP_OPEN: {
LSPRequestOpen *open = &r->data.open;
free(open->filename);
free(open->file_contents);
} break;
}
}
// send requests.
static bool lsp_send(LSP *lsp) {
if (!lsp->initialized) {
// don't send anything before the server is initialized.
return false;
}
LSPRequest *requests = NULL;
SDL_LockMutex(lsp->requests_mutex);
size_t n_requests = arr_len(lsp->requests);
requests = calloc(n_requests, sizeof *requests);
memcpy(requests, lsp->requests, n_requests * sizeof *requests);
arr_clear(lsp->requests);
SDL_UnlockMutex(lsp->requests_mutex);
bool quit = false;
for (size_t i = 0; i < n_requests; ++i) {
LSPRequest *r = &requests[i];
if (!quit) {
// this could slow down lsp_free if there's a gigantic request.
// whatever.
write_request(lsp, r);
}
free_request(r);
if (SDL_SemTryWait(lsp->quit_sem) == 0) {
quit = true;
// important that we don't break here so all the requests get freed.
}
}
free(requests);
return quit;
}
// Do any necessary communication with the LSP.
// This writes requests and reads (and parses) responses.
static int lsp_communication_thread(void *data) {
LSP *lsp = data;
while (1) {
bool quit = lsp_send(lsp);
if (quit) break;
lsp_receive(lsp, (size_t)10<<20);
if (SDL_SemWaitTimeout(lsp->quit_sem, 5) == 0)
break;
}
if (lsp->initialized) {
LSPRequest shutdown = {
.type = LSP_SHUTDOWN,
.data = {0}
};
LSPRequest exit = {
.type = LSP_EXIT,
.data = {0}
};
write_request(lsp, &shutdown);
// i give you ONE MILLISECOND to send your fucking shutdown response
time_sleep_ms(1);
write_request(lsp, &exit);
// i give you ONE MILLISECOND to terminate
// I WILL KILL YOU IF IT TAKES ANY LONGER
time_sleep_ms(1);
#if 1
char buf[1024]={0};
long long n = process_read(&lsp->process, buf, sizeof buf);
if (n>0) {
buf[n]=0;
printf("%s\n",buf);
}
n = process_read_stderr(&lsp->process, buf, sizeof buf);
if (n>0) {
buf[n]=0;
printf("\x1b[1m%s\x1b[0m\n",buf);
}
#endif
}
return 0;
}
bool lsp_create(LSP *lsp, const char *analyzer_command) {
ProcessSettings settings = {
.stdin_blocking = true,
.stdout_blocking = false,
.stderr_blocking = false,
.separate_stderr = true,
};
process_run_ex(&lsp->process, analyzer_command, &settings);
LSPRequest initialize = {
.type = LSP_INITIALIZE
};
// immediately send the request rather than queueing it.
// this is a small request, so it shouldn't be a problem.
write_request(lsp, &initialize);
lsp->quit_sem = SDL_CreateSemaphore(0);
lsp->responses_mutex = SDL_CreateMutex();
lsp->communication_thread = SDL_CreateThread(lsp_communication_thread, "LSP communicate", lsp);
return true;
}
bool lsp_next_response(LSP *lsp, JSON *json) {
bool any = false;
SDL_LockMutex(lsp->responses_mutex);
if (arr_len(lsp->responses)) {
*json = lsp->responses[0];
arr_remove(lsp->responses, 0);
any = true;
}
SDL_UnlockMutex(lsp->responses_mutex);
return any;
}
void lsp_free(LSP *lsp) {
SDL_SemPost(lsp->quit_sem);
SDL_WaitThread(lsp->communication_thread, NULL);
SDL_DestroySemaphore(lsp->quit_sem);
process_kill(&lsp->process);
arr_free(lsp->received_data);
}
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