Use prefix variable in pkgconfig file - torxchat.git - Unnamed repository; edit this file 'description' to name the repository.

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author	Patrick Griffis <tingping@tingping.se>	2018-09-23 16:58:18 -0400
committer	Patrick Griffis <tingping@tingping.se>	2018-09-23 16:58:18 -0400
commit	cf140f3ab0cc7ccc96f25fbc3c06cdefbb2e8d67 (patch)
tree	d5d7d2ee0f44dbb27d691de1df68cf62b700e7d3 /plugins/python/python.vcxproj
parent	c7322f406c9574dd330cdd8425f9f7895aaf7e49 (diff)

Use prefix variable in pkgconfig file

Diffstat (limited to 'plugins/python/python.vcxproj')

0 files changed, 0 insertions, 0 deletions

/* Copyright (c) 2020 <bakasura@protonmail.ch> Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef PLUGIN_HEXCHAT_FISHLIM_TEST_H #define PLUGIN_HEXCHAT_FISHLIM_TEST_H // Libs #include <glib.h> // Project Libs #include "../fish.h" #include "../utils.h" #include "old_version/fish.h" /** * Auxiliary function: Generate a random string * @param out Preallocated string to fill * @param len Size of bytes to fill */ void random_string(char *out, size_t len) { GRand *rand = NULL; int i = 0; rand = g_rand_new(); for (i = 0; i < len; ++i) { out[i] = g_rand_int_range(rand, 1, 256); } out[len] = 0; g_rand_free(rand); } /** * Check encrypt and decrypt in ECB mode and compare with old implementation */ void __ecb(void) { char *bo64 = NULL, *b64 = NULL; char *deo = NULL, *de = NULL; int key_len, message_len = 0; char key[57]; char message[1000]; /* Generate key 32–448 bits (Yes, I start with 8 bits) */ for (key_len = 1; key_len < 57; ++key_len) { random_string(key, key_len); for (message_len = 1; message_len < 1000; ++message_len) { random_string(message, message_len); /* Encrypt */ bo64 = __old_fish_encrypt(key, key_len, message); g_assert_nonnull(bo64); b64 = fish_encrypt(key, key_len, message, message_len, FISH_ECB_MODE); g_assert_nonnull(b64); g_assert_cmpuint(g_strcmp0(b64, bo64), == , 0); /* Decrypt */ /* Linear */ deo = __old_fish_decrypt(key, key_len, bo64); de = fish_decrypt_str(key, key_len, b64, FISH_ECB_MODE); g_assert_nonnull(deo); g_assert_nonnull(de); g_assert_cmpuint(g_strcmp0(de, message), == , 0); g_assert_cmpuint(g_strcmp0(deo, message), == , 0); g_assert_cmpuint(g_strcmp0(de, deo), == , 0); g_free(deo); g_free(de); /* Mixed */ deo = __old_fish_decrypt(key, key_len, b64); de = fish_decrypt_str(key, key_len, bo64, FISH_ECB_MODE); g_assert_nonnull(deo); g_assert_nonnull(de); g_assert_cmpuint(g_strcmp0(de, message), == , 0); g_assert_cmpuint(g_strcmp0(deo, message), == , 0); g_assert_cmpuint(g_strcmp0(de, deo), == , 0); g_free(deo); g_free(de); /* Free */ g_free(bo64); g_free(b64); } } } /** * Check encrypt and decrypt in CBC mode */ void __cbc(void) { char *b64 = NULL; char *de = NULL; int key_len, message_len = 0; char key[57]; char message[1000]; /* Generate key 32–448 bits (Yes, I start with 8 bits) */ for (key_len = 1; key_len < 57; ++key_len) { random_string(key, key_len); for (message_len = 1; message_len < 1000; ++message_len) { random_string(message, message_len); /* Encrypt */ b64 = fish_encrypt(key, key_len, message, message_len, FISH_CBC_MODE); g_assert_nonnull(b64); /* Decrypt */ /* Linear */ de = fish_decrypt_str(key, key_len, b64, FISH_CBC_MODE); g_assert_nonnull(de); g_assert_cmpuint(g_strcmp0(de, message), == , 0); g_free(de); /* Free */ g_free(b64); } } } /** * Check the calculation of final length from an encoded string in Base64 */ void __base64_len(void) { char *b64 = NULL; int i, message_len = 0; char message[1000]; for (i = 0; i < 10; ++i) { for (message_len = 1; message_len < 1000; ++message_len) { random_string(message, message_len); b64 = g_base64_encode((const unsigned char *) message, message_len); g_assert_nonnull(b64); g_assert_cmpuint(strlen(b64), == , base64_len(message_len)); g_free(b64); } } } /** * Check the calculation of final length from an encoded string in BlowcryptBase64 */ void __base64_fish_len(void) { char *b64 = NULL; int i, message_len = 0; char message[1000]; for (i = 0; i < 10; ++i) { for (message_len = 1; message_len < 1000; ++message_len) { random_string(message, message_len); b64 = fish_base64_encode(message, message_len); g_assert_nonnull(b64); g_assert_cmpuint(strlen(b64), == , base64_fish_len(message_len)); g_free(b64); } } } /** * Check the calculation of final length from an encrypted string in ECB mode */ void __base64_ecb_len(void) { char *b64 = NULL; int key_len, message_len = 0; char key[57]; char message[1000]; /* Generate key 32–448 bits (Yes, I start with 8 bits) */ for (key_len = 1; key_len < 57; ++key_len) { random_string(key, key_len); for (message_len = 1; message_len < 1000; ++message_len) { random_string(message, message_len); b64 = fish_encrypt(key, key_len, message, message_len, FISH_ECB_MODE); g_assert_nonnull(b64); g_assert_cmpuint(strlen(b64), == , ecb_len(message_len)); g_free(b64); } } } /** * Check the calculation of final length from an encrypted string in CBC mode */ void __base64_cbc_len(void) { char *b64 = NULL; int key_len, message_len = 0; char key[57]; char message[1000]; /* Generate key 32–448 bits (Yes, I start with 8 bits) */ for (key_len = 1; key_len < 57; ++key_len) { random_string(key, key_len); for (message_len = 1; message_len < 1000; ++message_len) { random_string(message, message_len); b64 = fish_encrypt(key, key_len, message, message_len, FISH_CBC_MODE); g_assert_nonnull(b64); g_assert_cmpuint(strlen(b64), == , cbc_len(message_len)); g_free(b64); } } } /** * Check the calculation of length limit for a plaintext in each encryption mode */ void __max_text_command_len(void) { int max_encoded_len, plaintext_len; enum fish_mode mode; for (max_encoded_len = 0; max_encoded_len < 10000; ++max_encoded_len) { for (mode = FISH_ECB_MODE; mode <= FISH_CBC_MODE; ++mode) { plaintext_len = max_text_command_len(max_encoded_len, mode); g_assert_cmpuint(encoded_len(plaintext_len, mode), <= , max_encoded_len); } } } /** * Check the calculation of length limit for a plaintext in each encryption mode */ void __foreach_utf8_data_chunks(void) { GRand *rand = NULL; GString *chunks = NULL; int tests, max_chunks_len, chunks_len; char ascii_message[1001]; char *data_chunk = NULL; rand = g_rand_new(); for (tests = 0; tests < 1000; ++tests) { max_chunks_len = g_rand_int_range(rand, 2, 301); random_string(ascii_message, 1000); data_chunk = ascii_message; chunks = g_string_new(NULL); while (foreach_utf8_data_chunks(data_chunk, max_chunks_len, &chunks_len)) { g_string_append(chunks, g_strndup(data_chunk, chunks_len)); /* Next chunk */ data_chunk += chunks_len; } /* Check data loss */ g_assert_cmpstr(chunks->str, == , ascii_message); g_string_free(chunks, TRUE); } } int main(int argc, char *argv[]) { g_test_init(&argc, &argv, NULL); g_test_add_func("/fishlim/__ecb", __ecb); g_test_add_func("/fishlim/__cbc", __ecb); g_test_add_func("/fishlim/__base64_len", __base64_len); g_test_add_func("/fishlim/__base64_fish_len", __base64_fish_len); g_test_add_func("/fishlim/__base64_ecb_len", __base64_ecb_len); g_test_add_func("/fishlim/__base64_cbc_len", __base64_cbc_len); g_test_add_func("/fishlim/__max_text_command_len", __max_text_command_len); g_test_add_func("/fishlim/__foreach_utf8_data_chunks", __foreach_utf8_data_chunks); return g_test_run(); } #endif //PLUGIN_HEXCHAT_FISHLIM_TEST_H


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