Files
cproof/tests/unittests/tools/test_parser.c
Michael Vetter e81435be06 tests: standardize naming convention
Use a behavior-driven naming convention for unit tests.

Functions are now named using the pattern: [unit]__[verb]__[scenario]
The __ works as a semantic separator.

Examples:
* jid_create__returns__null_from_null()
* cmd_connect__shows__usage_when_no_server_value

Benefits:
* Easy to find all tests associated with a specific function using the
  mandatory prefix.
* Test output in CI now explicitly describes the unit, the expected
  outcome, and the scenario being tested.

Also disabled keyhandlers tests due to missing code in src/ui.
2026-02-28 12:41:33 +01:00

672 lines
17 KiB
C

#include "prof_cmocka.h"
#include <stdlib.h>
#include "tools/parser.h"
void
parse_args__returns__null_from_null(void** state)
{
char* inp = NULL;
gboolean result = TRUE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__null_from_empty(void** state)
{
char* inp = "";
gboolean result = TRUE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__null_from_space(void** state)
{
char* inp = " ";
gboolean result = TRUE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__null_when_no_args(void** state)
{
char* inp = "/cmd";
gboolean result = TRUE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__null_from_cmd_with_space(void** state)
{
char* inp = "/cmd ";
gboolean result = TRUE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__null_when_too_few(void** state)
{
char* inp = "/cmd arg1";
gboolean result = TRUE;
gchar** args = parse_args(inp, 2, 3, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__null_when_too_many(void** state)
{
char* inp = "/cmd arg1 arg2 arg3 arg4";
gboolean result = TRUE;
gchar** args = parse_args(inp, 1, 3, &result);
assert_false(result);
assert_null(args);
g_strfreev(args);
}
void
parse_args__returns__one_arg(void** state)
{
char* inp = "/cmd arg1";
gboolean result = FALSE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_true(result);
assert_int_equal(1, g_strv_length(args));
assert_string_equal("arg1", args[0]);
g_strfreev(args);
}
void
parse_args__returns__two_args(void** state)
{
char* inp = "/cmd arg1 arg2";
gboolean result = FALSE;
gchar** args = parse_args(inp, 1, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("arg2", args[1]);
g_strfreev(args);
}
void
parse_args__returns__three_args(void** state)
{
char* inp = "/cmd arg1 arg2 arg3";
gboolean result = FALSE;
gchar** args = parse_args(inp, 3, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("arg2", args[1]);
assert_string_equal("arg3", args[2]);
g_strfreev(args);
}
void
parse_args__returns__three_args_with_spaces(void** state)
{
char* inp = " /cmd arg1 arg2 arg3 ";
gboolean result = FALSE;
gchar** args = parse_args(inp, 3, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("arg2", args[1]);
assert_string_equal("arg3", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__freetext(void** state)
{
char* inp = "/cmd this is some free text";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 1, 1, &result);
assert_true(result);
assert_int_equal(1, g_strv_length(args));
assert_string_equal("this is some free text", args[0]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__one_arg_with_freetext(void** state)
{
char* inp = "/cmd arg1 this is some free text";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 1, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("this is some free text", args[1]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__two_args_with_freetext(void** state)
{
char* inp = "/cmd arg1 arg2 this is some free text";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 1, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("arg2", args[1]);
assert_string_equal("this is some free text", args[2]);
g_strfreev(args);
}
void
parse_args__returns__zero_args_when_min_zero(void** state)
{
char* inp = "/cmd";
gboolean result = FALSE;
gchar** args = parse_args(inp, 0, 2, &result);
assert_true(result);
assert_int_equal(0, g_strv_length(args));
assert_null(args[0]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__zero_args_when_min_zero(void** state)
{
char* inp = "/cmd";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 0, 2, &result);
assert_true(result);
assert_int_equal(0, g_strv_length(args));
assert_null(args[0]);
g_strfreev(args);
}
void
parse_args__returns__quoted_args(void** state)
{
char* inp = "/cmd \"arg1\" arg2";
gboolean result = FALSE;
gchar** args = parse_args(inp, 2, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("arg2", args[1]);
g_strfreev(args);
}
void
parse_args__returns__quoted_args_with_space(void** state)
{
char* inp = "/cmd \"the arg1\" arg2";
gboolean result = FALSE;
gchar** args = parse_args(inp, 2, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("the arg1", args[0]);
assert_string_equal("arg2", args[1]);
g_strfreev(args);
}
void
parse_args__returns__quoted_args_with_many_spaces(void** state)
{
char* inp = "/cmd \"the arg1 is here\" arg2";
gboolean result = FALSE;
gchar** args = parse_args(inp, 2, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("the arg1 is here", args[0]);
assert_string_equal("arg2", args[1]);
g_strfreev(args);
}
void
parse_args__returns__many_quoted_args_with_many_spaces(void** state)
{
char* inp = "/cmd \"the arg1 is here\" \"and arg2 is right here\"";
gboolean result = FALSE;
gchar** args = parse_args(inp, 2, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("the arg1 is here", args[0]);
assert_string_equal("and arg2 is right here", args[1]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__quoted_args(void** state)
{
char* inp = "/cmd \"arg1\" arg2 hello there what's up";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 3, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("arg2", args[1]);
assert_string_equal("hello there what's up", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__quoted_args_with_space(void** state)
{
char* inp = "/cmd \"the arg1\" arg2 another bit of freetext";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 3, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("the arg1", args[0]);
assert_string_equal("arg2", args[1]);
assert_string_equal("another bit of freetext", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__quoted_args_with_many_spaces(void** state)
{
char* inp = "/cmd \"the arg1 is here\" arg2 some more freetext";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 3, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("the arg1 is here", args[0]);
assert_string_equal("arg2", args[1]);
assert_string_equal("some more freetext", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__many_quoted_args_with_many_spaces(void** state)
{
char* inp = "/cmd \"the arg1 is here\" \"and arg2 is right here\" and heres the free text";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 3, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("the arg1 is here", args[0]);
assert_string_equal("and arg2 is right here", args[1]);
assert_string_equal("and heres the free text", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__quoted_freetext(void** state)
{
char* inp = "/cmd arg1 here is \"some\" quoted freetext";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 1, 2, &result);
assert_true(result);
assert_int_equal(2, g_strv_length(args));
assert_string_equal("arg1", args[0]);
assert_string_equal("here is \"some\" quoted freetext", args[1]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__third_arg_quoted(void** state)
{
char* inp = "/group add friends \"The User\"";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 0, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("add", args[0]);
assert_string_equal("friends", args[1]);
assert_string_equal("The User", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__second_arg_quoted(void** state)
{
char* inp = "/group add \"The Group\" friend";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 0, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("add", args[0]);
assert_string_equal("The Group", args[1]);
assert_string_equal("friend", args[2]);
g_strfreev(args);
}
void
parse_args_with_freetext__returns__second_and_third_arg_quoted(void** state)
{
char* inp = "/group add \"The Group\" \"The User\"";
gboolean result = FALSE;
gchar** args = parse_args_with_freetext(inp, 0, 3, &result);
assert_true(result);
assert_int_equal(3, g_strv_length(args));
assert_string_equal("add", args[0]);
assert_string_equal("The Group", args[1]);
assert_string_equal("The User", args[2]);
g_strfreev(args);
}
void
count_tokens__returns__one_token(void** state)
{
char* inp = "one";
int result = count_tokens(inp);
assert_int_equal(1, result);
}
void
count_tokens__returns__one_token_quoted_no_whitespace(void** state)
{
char* inp = "\"one\"";
int result = count_tokens(inp);
assert_int_equal(1, result);
}
void
count_tokens__returns__one_token_quoted_with_whitespace(void** state)
{
char* inp = "\"one two\"";
int result = count_tokens(inp);
assert_int_equal(1, result);
}
void
count_tokens__returns__two_tokens(void** state)
{
char* inp = "one two";
int result = count_tokens(inp);
assert_int_equal(2, result);
}
void
count_tokens__returns__two_tokens_first_quoted(void** state)
{
char* inp = "\"one and\" two";
int result = count_tokens(inp);
assert_int_equal(2, result);
}
void
count_tokens__returns__two_tokens_second_quoted(void** state)
{
char* inp = "one \"two and\"";
int result = count_tokens(inp);
assert_int_equal(2, result);
}
void
count_tokens__returns__two_tokens_both_quoted(void** state)
{
char* inp = "\"one and then\" \"two and\"";
int result = count_tokens(inp);
assert_int_equal(2, result);
}
void
get_start__returns__first_of_one(void** state)
{
char* inp = "one";
char* result = get_start(inp, 2);
assert_string_equal("one", result);
g_free(result);
}
void
get_start__returns__first_of_two(void** state)
{
char* inp = "one two";
char* result = get_start(inp, 2);
assert_string_equal("one ", result);
g_free(result);
}
void
get_start__returns__first_two_of_three(void** state)
{
char* inp = "one two three";
char* result = get_start(inp, 3);
assert_string_equal("one two ", result);
g_free(result);
}
void
get_start__returns__first_two_of_three_first_quoted(void** state)
{
char* inp = "\"one\" two three";
char* result = get_start(inp, 3);
assert_string_equal("\"one\" two ", result);
g_free(result);
}
void
get_start__returns__first_two_of_three_second_quoted(void** state)
{
char* inp = "one \"two\" three";
char* result = get_start(inp, 3);
assert_string_equal("one \"two\" ", result);
g_free(result);
}
void
get_start__returns__first_two_of_three_first_and_second_quoted(void** state)
{
char* inp = "\"one\" \"two\" three";
char* result = get_start(inp, 3);
assert_string_equal("\"one\" \"two\" ", result);
g_free(result);
}
void
parse_options__returns__empty_hashmap_when_none(void** state)
{
gchar* args[] = { "cmd1", "cmd2", NULL };
gchar* keys[] = { "opt1", NULL };
gboolean res = FALSE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_true(options != NULL);
assert_int_equal(0, g_hash_table_size(options));
assert_true(res);
options_destroy(options);
}
void
parse_options__returns__error_when_opt1_no_val(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", NULL };
gchar* keys[] = { "opt1", NULL };
gboolean res = TRUE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_null(options);
assert_false(res);
options_destroy(options);
}
void
parse_options__returns__map_when_one(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", NULL };
gchar* keys[] = { "opt1", NULL };
gboolean res = FALSE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_int_equal(1, g_hash_table_size(options));
assert_true(g_hash_table_contains(options, "opt1"));
assert_string_equal("val1", g_hash_table_lookup(options, "opt1"));
assert_true(res);
options_destroy(options);
}
void
parse_options__returns__error_when_opt2_no_val(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", "opt2", NULL };
gchar* keys[] = { "opt1", "opt2", NULL };
gboolean res = TRUE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_null(options);
assert_false(res);
options_destroy(options);
}
void
parse_options__returns__map_when_two(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", "opt2", "val2", NULL };
gchar* keys[] = { "opt1", "opt2", NULL };
gboolean res = FALSE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_int_equal(2, g_hash_table_size(options));
assert_true(g_hash_table_contains(options, "opt1"));
assert_true(g_hash_table_contains(options, "opt2"));
assert_string_equal("val1", g_hash_table_lookup(options, "opt1"));
assert_string_equal("val2", g_hash_table_lookup(options, "opt2"));
assert_true(res);
options_destroy(options);
}
void
parse_options__returns__error_when_opt3_no_val(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", "opt2", "val2", "opt3", NULL };
gchar* keys[] = { "opt1", "opt2", "opt3", NULL };
gboolean res = TRUE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_null(options);
assert_false(res);
options_destroy(options);
}
void
parse_options__returns__map_when_three(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", "opt2", "val2", "opt3", "val3", NULL };
gchar* keys[] = { "opt1", "opt2", "opt3", NULL };
gboolean res = FALSE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_int_equal(3, g_hash_table_size(options));
assert_true(g_hash_table_contains(options, "opt1"));
assert_true(g_hash_table_contains(options, "opt2"));
assert_true(g_hash_table_contains(options, "opt3"));
assert_string_equal("val1", g_hash_table_lookup(options, "opt1"));
assert_string_equal("val2", g_hash_table_lookup(options, "opt2"));
assert_string_equal("val3", g_hash_table_lookup(options, "opt3"));
assert_true(res);
options_destroy(options);
}
void
parse_options__returns__error_when_unknown_opt(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", "oops", "val2", "opt3", "val3", NULL };
gchar* keys[] = { "opt1", "opt2", "opt3", NULL };
gboolean res = TRUE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_null(options);
assert_false(res);
options_destroy(options);
}
void
parse_options__returns__error_when_duplicated_option(void** state)
{
gchar* args[] = { "cmd1", "cmd2", "opt1", "val1", "opt2", "val2", "opt1", "val3", NULL };
gchar* keys[] = { "opt1", "opt2", "opt3", NULL };
gboolean res = TRUE;
GHashTable* options = parse_options(&args[2], keys, &res);
assert_null(options);
assert_false(res);
options_destroy(options);
}