radare2/test/unit/test_strbuf.c
2023-01-16 18:41:04 +01:00

236 lines
7.8 KiB
C

#include <r_util.h>
#include "minunit.h"
bool test_r_strbuf_slice(void) {
RStrBuf *sa = r_strbuf_new ("foo,bar,cow");
r_strbuf_slice (sa, 2, 4); // should be from/to instead of from/len ?
char *a = r_strbuf_drain (sa);
mu_assert_streq (a, "o,ba", "slicing fails");
free (a);
mu_end;
}
bool test_r_strbuf_append(void) {
RStrBuf *sa = r_strbuf_new ("foo");
r_strbuf_append (sa, "bar");
r_strbuf_prepend (sa, "pre");
char *a = r_strbuf_drain (sa);
mu_assert_streq (a, "prefoobar", "append+prepend");
free (a);
mu_end;
}
bool test_r_strbuf_strong_string(void) {
// small string
RStrBuf *sa = r_strbuf_new ("");
r_strbuf_set (sa, "food");
mu_assert_eq (r_strbuf_length (sa), 4, "r_strbuf_set:food");
mu_assert_eq (sa->len, 4, "len of string");
// ptrlen not used here
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_set (sa, "food");
char *drained = r_strbuf_drain (sa);
mu_assert_streq (drained, "food", "drained string");
free (drained);
// long string
sa = r_strbuf_new ("");
r_strbuf_set (sa, "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER");
mu_assert_eq (r_strbuf_length (sa), 46, "length from api");
mu_assert_eq (sa->len, 46, "len of string");
mu_assert_eq (sa->ptrlen, 47, "ptrlen of string");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_set (sa, "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER");
drained = r_strbuf_drain (sa);
mu_assert_streq (drained, "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", "drained string");
free (drained);
mu_end;
}
bool test_r_strbuf_strong_binary(void) {
RStrBuf *sa = r_strbuf_new ("");
bool res = r_strbuf_setbin (sa, (const ut8 *)"food", 4);
mu_assert ("setbin success", res);
mu_assert_memeq ((const ut8 *)r_strbuf_get (sa), (const ut8 *)"food", 4, "small binary data");
mu_assert_eq (sa->len, 4, "len of binary data");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_setbin (sa, (const ut8 *)"food", 4);
char *drained = r_strbuf_drain (sa);
mu_assert_memeq ((const ut8 *)drained, (const ut8 *)"food", 4, "drained binary data");
free (drained);
sa = r_strbuf_new ("");
res = r_strbuf_setbin (sa, (const ut8 *)"VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46);
mu_assert ("setbin success", res);
mu_assert_memeq ((const ut8 *)r_strbuf_get (sa), (const ut8 *)"VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46, "big binary data");
mu_assert_eq (sa->len, 46, "len of binary data");
mu_assert_eq (sa->ptrlen, 47, "ptrlen of binary data");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_setbin (sa, (const ut8 *)"VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46);
drained = r_strbuf_drain (sa);
mu_assert_memeq ((const ut8 *)drained, (const ut8 *)"VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46, "drained binary data");
free (drained);
mu_end;
}
bool test_r_strbuf_weak_string(void) {
// small string
char *myptr = "food";
RStrBuf *sa = r_strbuf_new ("");
r_strbuf_setptr (sa, myptr, -1);
mu_assert_eq (r_strbuf_length (sa), 4, "length from api");
mu_assert_eq (sa->len, 4, "len of string");
mu_assert_eq (sa->ptrlen, 5, "len of string + 0");
mu_assert_ptreq (r_strbuf_get (sa), myptr, "weak ptr");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_setptr (sa, myptr, -1);
char *drained = r_strbuf_drain (sa);
mu_assert_memeq ((const ut8 *)drained, (const ut8 *)"food", 4, "drained weak string");
free (drained);
// long string
myptr = "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER";
sa = r_strbuf_new ("");
r_strbuf_setptr (sa, myptr, -1);
mu_assert_eq (r_strbuf_length (sa), 46, "length from api");
mu_assert_eq (sa->len, 46, "len of string");
mu_assert_eq (sa->ptrlen, 47, "len of string + 0");
mu_assert_ptreq (r_strbuf_get (sa), myptr, "weak ptr");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_setptr (sa, myptr, -1);
drained = r_strbuf_drain (sa);
mu_assert_memeq ((const ut8 *)drained, (const ut8 *)"VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46, "drained weak string");
free (drained);
mu_end;
}
bool test_r_strbuf_weak_binary(void) {
char *myptr = "food";
RStrBuf *sa = r_strbuf_new ("");
bool res = r_strbuf_setptr (sa, myptr, 4);
mu_assert ("setbin success", res);
mu_assert_ptreq (r_strbuf_get (sa), myptr, "weak ptr");
mu_assert_eq (sa->len, 4, "len of binary data");
mu_assert_eq (sa->ptrlen, 4, "ptrlen of binary data");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_setptr (sa, myptr, 4);
char *drained = r_strbuf_drain (sa);
mu_assert_memeq ((const ut8 *)drained, (const ut8 *)"food", 4, "drained binary data");
free (drained);
myptr = "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER";
sa = r_strbuf_new ("");
res = r_strbuf_setptr (sa, myptr, 46);
mu_assert ("setbin success", res);
mu_assert_ptreq (r_strbuf_get (sa), myptr, "weak ptr");
mu_assert_eq (sa->len, 46, "len of binary data");
mu_assert_eq (sa->ptrlen, 46, "ptrlen of binary data");
r_strbuf_free (sa);
sa = r_strbuf_new ("");
r_strbuf_setptr (sa, myptr, 46);
drained = r_strbuf_drain (sa);
mu_assert_memeq ((const ut8 *)drained, (const ut8 *)"VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46, "drained binary data");
free (drained);
mu_end;
}
bool test_r_strbuf_setbin(void) {
RStrBuf *sa = r_strbuf_new ("");
r_strbuf_setbin (sa, (const ut8 *)"inbuffffffff", 5);
mu_assert_streq (r_strbuf_get (sa), "inbuf", "setbin str with size");
mu_assert_eq (r_strbuf_length (sa), 5, "len from api");
ut8 *buf = malloc(46); // alloc this on the heap to help valgrind and asan detect overflows
memcpy (buf, "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46);
r_strbuf_setbin (sa, buf, 46);
mu_assert_memeq ((const ut8 *)r_strbuf_get (sa), buf, 46, "long binary");
free (buf);
mu_assert_eq (r_strbuf_get (sa)[46], 0, "still null terminated");
mu_assert_eq (r_strbuf_length (sa), 46, "len from api");
mu_assert_eq (sa->ptrlen, 46 + 1, "ptrlen");
// reallocation
buf = malloc (46 * 2);
memcpy (buf, "VERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFERVERYLONGTEXTTHATDOESNTFITINSIDETHESTRUCTBUFFER", 46 * 2);
r_strbuf_setbin (sa, buf, 46 * 2);
mu_assert_memeq ((const ut8 *)r_strbuf_get (sa), buf, 46 * 2, "long binary");
free (buf);
mu_assert_eq (r_strbuf_get (sa)[46 * 2], 0, "still null terminated");
mu_assert_eq (r_strbuf_length (sa), 46 * 2, "len from api");
mu_assert_eq (sa->ptrlen, 46 * 2 + 1, "ptrlen");
r_strbuf_free (sa);
mu_end;
}
bool test_r_strbuf_set(void) {
RStrBuf sb;
r_strbuf_init (&sb);
const char *s = r_strbuf_set (&sb, "I have packed only the essentials");
mu_assert_notnull (s, "set return notnull");
mu_assert_ptreq (s, r_strbuf_get (&sb), "set return");
mu_assert_streq (r_strbuf_get (&sb), "I have packed only the essentials", "set");
r_strbuf_fini (&sb);
mu_end;
}
bool test_r_strbuf_setf(void) {
RStrBuf sb;
r_strbuf_init (&sb);
const char *s = r_strbuf_setf (&sb, "One %s for hydration", "water");
mu_assert_notnull (s, "setf return notnull");
mu_assert_ptreq (s, r_strbuf_get (&sb), "setf return");
mu_assert_streq (r_strbuf_get (&sb), "One water for hydration", "setf");
r_strbuf_fini (&sb);
mu_end;
}
bool test_r_strbuf_initf(void) {
RStrBuf sb;
const char *s = r_strbuf_initf (&sb, "hmmst, %s was that audial occurrence? %d", "wat", 42);
mu_assert_notnull (s, "initf return notnull");
mu_assert_ptreq (s, r_strbuf_get (&sb), "initf return");
mu_assert_streq (r_strbuf_get (&sb), "hmmst, wat was that audial occurrence? 42", "initf");
r_strbuf_fini (&sb);
mu_end;
}
bool all_tests() {
mu_run_test (test_r_strbuf_append);
mu_run_test (test_r_strbuf_strong_string);
mu_run_test (test_r_strbuf_strong_binary);
mu_run_test (test_r_strbuf_weak_string);
mu_run_test (test_r_strbuf_weak_binary);
mu_run_test (test_r_strbuf_slice);
mu_run_test (test_r_strbuf_setbin);
mu_run_test (test_r_strbuf_set);
mu_run_test (test_r_strbuf_setf);
mu_run_test (test_r_strbuf_initf);
return tests_passed != tests_run;
}
int main(int argc, char **argv) {
return all_tests ();
}