Mercurial > vim
view src/json_test.c @ 33353:b59205d0567e v9.0.1939
patch 9.0.1939: still a problem when processing LSP RPC requests
Commit: https://github.com/vim/vim/commit/b80ae6cec34639abfb1a7080fb633346a81a5770
Author: Yegappan Lakshmanan <yegappan@yahoo.com>
Date: Sun Sep 24 23:38:46 2023 +0200
patch 9.0.1939: still a problem when processing LSP RPC requests
Problem: still a problem when processing LSP RPC requests
Solution: When processing async LSP RPC requests, compare sequence
numbers only in response messages
A LSP request message can be sent to the language server either
synchronously (ch_evalexpr) or asynchronously (ch_sendexpr). In both
cases, when looking for response messages by using the sequence number,
LSP requests messages from the language server with the same sequence
number should not be used. Patch 9.0.1927 fixed this issue for
synchronous requests. This PR fixes the issue for asynchronous requests
and adds additional tests.
closes: #13158
Signed-off-by: Christian Brabandt <cb@256bit.org>
Co-authored-by: Yegappan Lakshmanan <yegappan@yahoo.com>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Sun, 24 Sep 2023 23:45:08 +0200 |
parents | f41b55f9357c |
children |
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/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * json_test.c: Unittests for json.c */ #undef NDEBUG #include <assert.h> // Must include main.c because it contains much more than just main() #define NO_VIM_MAIN #include "main.c" // This file has to be included because the tested functions are static #include "json.c" #if defined(FEAT_EVAL) /* * Test json_find_end() with incomplete items. */ static void test_decode_find_end(void) { js_read_T reader; reader.js_fill = NULL; reader.js_used = 0; // string and incomplete string reader.js_buf = (char_u *)"\"hello\""; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" \"hello\" "; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"\"hello"; assert(json_find_end(&reader, 0) == MAYBE); // number and dash (incomplete number) reader.js_buf = (char_u *)"123"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"-"; assert(json_find_end(&reader, 0) == MAYBE); // false, true and null, also incomplete reader.js_buf = (char_u *)"false"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"f"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"fa"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"fal"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"fals"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"true"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"t"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"tr"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"tru"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"null"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"n"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"nu"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"nul"; assert(json_find_end(&reader, 0) == MAYBE); // object without white space reader.js_buf = (char_u *)"{\"a\":123}"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"{\"a\":123"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"{\"a\":"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"{\"a\""; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"{\"a"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"{\""; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"{"; assert(json_find_end(&reader, 0) == MAYBE); // object with white space reader.js_buf = (char_u *)" { \"a\" : 123 } "; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" { \"a\" : 123 "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" { \"a\" : "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" { \"a\" "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" { \"a "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" { "; assert(json_find_end(&reader, 0) == MAYBE); // JS object with white space reader.js_buf = (char_u *)" { a : 123 } "; assert(json_find_end(&reader, JSON_JS) == OK); reader.js_buf = (char_u *)" { a : "; assert(json_find_end(&reader, JSON_JS) == MAYBE); // array without white space reader.js_buf = (char_u *)"[\"a\",123]"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)"[\"a\",123"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"[\"a\","; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"[\"a\""; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"[\"a"; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"[\""; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)"["; assert(json_find_end(&reader, 0) == MAYBE); // array with white space reader.js_buf = (char_u *)" [ \"a\" , 123 ] "; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" [ \"a\" , 123 "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" [ \"a\" , "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" [ \"a\" "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" [ \"a "; assert(json_find_end(&reader, 0) == MAYBE); reader.js_buf = (char_u *)" [ "; assert(json_find_end(&reader, 0) == MAYBE); } static int fill_from_cookie(js_read_T *reader) { reader->js_buf = reader->js_cookie; return TRUE; } /* * Test json_find_end with an incomplete array, calling the fill function. */ static void test_fill_called_on_find_end(void) { js_read_T reader; reader.js_fill = fill_from_cookie; reader.js_used = 0; reader.js_buf = (char_u *)" [ \"a\" , 123 "; reader.js_cookie = " [ \"a\" , 123 ] "; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" [ \"a\" , "; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" [ \"a\" "; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" [ \"a"; assert(json_find_end(&reader, 0) == OK); reader.js_buf = (char_u *)" [ "; assert(json_find_end(&reader, 0) == OK); } /* * Test json_find_end with an incomplete string, calling the fill function. */ static void test_fill_called_on_string(void) { js_read_T reader; reader.js_fill = fill_from_cookie; reader.js_used = 0; reader.js_buf = (char_u *)" \"foo"; reader.js_end = reader.js_buf + STRLEN(reader.js_buf); reader.js_cookie = " \"foobar\" "; assert(json_decode_string(&reader, NULL, '"') == OK); } #endif int main(void) { #if defined(FEAT_EVAL) test_decode_find_end(); test_fill_called_on_find_end(); test_fill_called_on_string(); #endif return 0; }