commit - c2fe01f04c367f396e0b649d18e524eaffa648b8
commit + 34b21c494b6b9fcc9e3c9e7d98bfea6114eefa41
blob - 29c64bdbce1d9efd5c8a3483d49bb07f307a2612
blob + 116107cf7edb41ba8c57145587e606f5ac7cd369
--- include/lfcrypto.h
+++ include/lfcrypto.h
#include <stddef.h>
-const char *b64_encode(const unsigned char *s, size_t sz);
+char *b64_encode(const unsigned char *s, size_t sz);
unsigned char *b64_decode(const char *s, size_t sz, size_t *decode_sz);
-const char *hex_encode(const unsigned char *hex, size_t sz);
+char *hex_encode(const unsigned char *hex, size_t sz);
unsigned char *hex_decode(const char *orig, size_t *sz);
-const char *hex_to_str(const unsigned char *hex, size_t sz);
+char *hex_to_str(const unsigned char *hex, size_t sz);
-const unsigned char* repeating_key_xor(const unsigned char* s, size_t s_sz, const unsigned char* key, size_t k_sz);
-const unsigned char *repeating_key_xor_s(const char* s, const char* key);
+unsigned char* repeating_key_xor(const unsigned char* s, size_t s_sz, const unsigned char* key, size_t k_sz);
+unsigned char *repeating_key_xor_s(const char* s, const char* key);
unsigned int hamming_distance_s(const char *a, const char *b);
unsigned int hamming_distance(unsigned char *a, unsigned char *b, size_t sz);
blob - 9b65d98c7906ac9f315f10d4ac6f6aa8fd129fbe
blob + 8afb905eb12229c1215e032fca1f8fd5d3e47465
--- include/lfstring.h
+++ include/lfstring.h
int find_substrings(const char* haystack, const char* needle, size_t *num_substrings, size_t **substrings);
-const char* substr(const char* str, size_t idx, size_t len);
+char* substr(const char* str, size_t idx, size_t len);
#endif // LIBFLINT_H_STRING
blob - c0c7a630137ea37ed58d234696eadaf8de52accf
blob + 0c294c83921366234fafaa1e5f491b0c23a019ac
--- include/lfvector.h
+++ include/lfvector.h
int vec_insert(Vector *vec, void *data, size_t index);
-int vec_push(Vector *vec, void *data);
+int vec_push(Vector *vec, void *data, size_t *index);
void *vec_safe_at(Vector *vec, size_t index);
blob - f907d6e7a4c6e2704272a6de3579879d28511185
blob + c3a42e6a9e6707f9f558e0aa06af77fe96698e52
--- src/crypto.c
+++ src/crypto.c
return 0;
}
-const char *b64_encode(const unsigned char *s, size_t sz) {
+char *b64_encode(const unsigned char *s, size_t sz) {
int i = 0;
b64_buf encbuf;
size_t size = 0;
return hex;
}
-const char *hex_encode(const unsigned char *hex, size_t sz) {
+char *hex_encode(const unsigned char *hex, size_t sz) {
size_t ssz = sz * 2 + 1;
char *s = malloc(sizeof(char) * ssz);
char *pos = s;
return s;
}
-const char *hex_to_str(const unsigned char *hex, size_t sz) {
+char *hex_to_str(const unsigned char *hex, size_t sz) {
char *s = malloc(sizeof(char) * (sz + 1));
for (size_t i = 0; i < sz; ++i) {
s[i] = (char)hex[i];
return s;
}
-const unsigned char* repeating_key_xor(const unsigned char* s, size_t s_sz, const unsigned char* key, size_t k_sz) {
+unsigned char* repeating_key_xor(const unsigned char* s, size_t s_sz, const unsigned char* key, size_t k_sz) {
unsigned char* r = malloc(sizeof(unsigned char) * s_sz);
for (size_t i = 0, j = 0; i < s_sz; ++i) {
r[i] = s[i] ^ key[j];
return r;
}
-const unsigned char *repeating_key_xor_s(const char* s, const char* key) {
+unsigned char *repeating_key_xor_s(const char* s, const char* key) {
return repeating_key_xor((unsigned char*)s, strlen(s), (unsigned char*)key, strlen(key));
}
blob - 488ad0691f02bab72076981e01e6009ae4aeace9
blob + 6cfe72d28dc88b08e240782f73007000a8b8da3c
--- src/memory.c
+++ src/memory.c
return arena_malloc_align(allocator, new_sz, align);
}
- if (allocator->buf <= mem && mem < allocator->buf + allocator->buf_sz) {
+ if (allocator->buf <= (unsigned char*)mem && (unsigned char*)mem < allocator->buf + allocator->buf_sz) {
if (allocator->buf + allocator->offset_prev == old_mem) {
allocator->offset_cur = allocator->offset_prev + new_sz;
if (new_sz > old_sz) {
blob - f277c5c80b79f670aa5c82f5cf23c90ce324a5e7
blob + 4fe56033bd86f75901823d8367d78b305597e022
--- src/string.c
+++ src/string.c
return 0;
}
-const char* substr(const char* str, size_t idx, size_t len) {
+char* substr(const char* str, size_t idx, size_t len) {
size_t sz_str = strlen(str);
if (sz_str < len || idx + len > sz_str) {
return NULL;
blob - dd8d3030cda7f370c807c1542cfa63c45f924233
blob + 8204b3eabaf2386260cd4ef18a4b561609849353
--- src/vector.c
+++ src/vector.c
return 0;
}
-int vec_push(Vector *vec, void *data) {
+int vec_push(Vector *vec, void *data, size_t *index) {
+ if (index != NULL) {
+ *index = vec_len(vec);
+ }
return vec_insert(vec, data, vec_len(vec));
}
blob - ed45525483916ceb313c69c4254b3aa9c84e38a0
blob + f42f6adf5495aa83ff5b501ad0b7d34bb92462b1
--- tests/tests.c
+++ tests/tests.c
int j = 2;
int k = 2;
- set_insert(set, (void *) &i);
- set_insert(set, (void *) &j);
- set_insert(set, (void *) &k);
+ set_insert(set, &i);
+ set_insert(set, &j);
+ set_insert(set, &k);
int i2 = 1;
int j2 = 4;
Set *set2 = malloc(sizeof(Set));
set_init(set2, int_match, NULL);
- set_insert(set2, (void *) &i2);
- set_insert(set2, (void *) &j2);
+ set_insert(set2, &i2);
+ set_insert(set2, &j2);
printf("Set 1:");
print_ll(set);
void print_vector(Vector *vec) {
for (size_t i = 0; i < vec->length; ++i) {
- int t = *(int*)vec_at(vec, i);
+ int t = *(int *) vec_at(vec, i);
printf("%d ", t);
}
printf("\n");
int e3 = 3;
int e4 = 4;
- vec_push(v, &e0);
+ size_t idx = 0;
+ vec_push(v, &e0, &idx);
+ assert(idx == 0);
assert(v->length == 1);
- int *t = (int*)vec_at(v, 0);
+ int *t = (int *) vec_at(v, 0);
assert(*t == 0);
- vec_push(v, &e1);
- vec_push(v, &e2);
+ vec_push(v, &e1, NULL);
+ vec_push(v, &e2, NULL);
assert(v->length == 3);
// test access outside bounds
- t = (int*)vec_safe_at(v, 3);
+ t = (int *) vec_safe_at(v, 3);
assert(t == NULL);
printf("Before insert: ");
print_vector(v);
- vec_push(v, &e4);
+ vec_push(v, &e4, NULL);
vec_insert(v, &e3, 3);
printf("After insert: ");
print_vector(v);
- t = (int*)vec_at(v, 3);
+ t = (int *) vec_at(v, 3);
assert(*t == e3);
- t = (int*)vec_at(v, 4);
+ t = (int *) vec_at(v, 4);
assert(*t == e4);
const int *min = vec_min(v, vec_cmp_int);
assert(*min == e0);
assert(*max == e4);
- t = (int*)vec_remove(v, 1);
+ t = (int *) vec_remove(v, 1);
assert(t != NULL);
assert(*t == 1);
printf("After removal: ");
print_vector(v);
- t = (int*)vec_remove(v, 10);
+ t = (int *) vec_remove(v, 10);
assert(t == NULL);
printf("\ncap before shrink: %zu\n", vec_cap(v));
vec_destroy(v);
free(v);
}
+
void test_string() {
printf("\n--- STRING TEST ---\n");
- const char* haystack = "Test one two one and also maybe two but not Gabe's least favorite number, which is not one.";
- const char* needles[] = {
- "one",
- "two",
- "Gabe"
+ const char *haystack =
+ "Test one two one and also maybe two but not Gabe's least favorite number, which is not one.";
+ const char *needles[] = {
+ "one",
+ "two",
+ "Gabe"
};
size_t sub_sz = 0;
assert(subs[1] == 13);
assert(subs[2] == 87);
- const char *s = substr(haystack, subs[0], strlen(needles[0]));
+ char *s = substr(haystack, subs[0], strlen(needles[0]));
assert(strcmp(s, needles[0]) == 0);
free(s);
char *out2 = "YSBsb25nZXIgYmFzZTY0IHRlc3QsIGFwcGFyZW50bHk=";
size_t s_sz = 0;
- s = (char *)b64_decode(out2, strlen(out2), &s_sz);
+ s = (char *) b64_decode(out2, strlen(out2), &s_sz);
assert(strcmp(s, "a longer base64 test, apparently") == 0);
assert(strlen(s) == s_sz);
free(s);
s = hex_decode("DEADBEEF", &s_sz);
unsigned char h[4] = {
- 0xDE, 0xAD, 0xBE, 0xEF
+ 0xDE, 0xAD, 0xBE, 0xEF
};
for (size_t i = 0; i < 4; ++i) {
assert(s[i] == h[i]);
// Odd number of characters
s = hex_decode("f00f5", &s_sz);
unsigned char h2[4] = {
- 0x0F, 0x00, 0xF5
+ 0x0F, 0x00, 0xF5
};
for (size_t i = 0; i < 3; ++i) {
assert(s[i] == h2[i]);
// "Sup?"
unsigned char hexsup[4] = {
- 0x53, 0x75, 0x70, 0x3F
+ 0x53, 0x75, 0x70, 0x3F
};
s = hex_to_str(hexsup, 4);
assert(strcmp(s, "Sup?") == 0);
free(s);
s = repeating_key_xor_s("TEST", "HI");
- const char *enc = hex_encode(s, 4);
+ char *enc = hex_encode(s, 4);
assert(strcmp(enc, "1c0c1b1d") == 0);
free(enc);
free(s);
- unsigned char ua[2] = { 0x2, 0xF };
- unsigned char ub[2] = { 0x4, 0xE };
+ unsigned char ua[2] = {0x2, 0xF};
+ unsigned char ub[2] = {0x4, 0xE};
unsigned int hamming = hamming_distance(ua, ub, 2);
assert(hamming == 3);
void tcp_test_handler(Server *s) {
struct sockaddr_storage client_addr;
socklen_t client_addr_sz = sizeof(client_addr);
- int new_fd = accept(s->fd, (struct sockaddr *)&client_addr, &client_addr_sz);
+ int new_fd = accept(s->fd, (struct sockaddr *) &client_addr, &client_addr_sz);
assert(new_fd != -1);
assert(send(new_fd, NET_MSG, 10, 0) != -1);
close(new_fd);
socklen_t client_addr_sz = sizeof(client_addr);
char recv_buf[128];
- int r = (int)recvfrom(s->fd, recv_buf, 128, 0, (struct sockaddr*)&client_addr, &client_addr_sz);
+ int r = (int) recvfrom(s->fd, recv_buf, 128, 0, (struct sockaddr *) &client_addr, &client_addr_sz);
assert(r > 0);
assert(strcmp(recv_buf, NET_MSG) == 0);
}
sleep(1);
const char *s = capture_system("echo hello | nc localhost 18632", 0);
assert(strcmp(s, NET_MSG) == 0);
- free((char *)s);
+ free((char *) s);
pthread_join(srv_tid, NULL);
printf("Passed TCP test\n");
