378 lines
11 KiB
C
378 lines
11 KiB
C
#include <signal_helper.h>
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#include <gcrypt.h>
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signal_type_base* signal_type_ref_vapi(void* instance) {
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g_return_val_if_fail(instance != NULL, NULL);
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signal_type_ref(instance);
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return instance;
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}
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signal_type_base* signal_type_unref_vapi(void* instance) {
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g_return_val_if_fail(instance != NULL, NULL);
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signal_type_unref(instance);
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return NULL;
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}
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signal_protocol_address* signal_protocol_address_new(const gchar* name, int32_t device_id) {
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g_return_val_if_fail(name != NULL, NULL);
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signal_protocol_address* address = malloc(sizeof(signal_protocol_address));
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address->device_id = -1;
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address->name = NULL;
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signal_protocol_address_set_name(address, name);
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signal_protocol_address_set_device_id(address, device_id);
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return address;
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}
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void signal_protocol_address_free(signal_protocol_address* ptr) {
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g_return_if_fail(ptr != NULL);
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if (ptr->name) {
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g_free((void*)ptr->name);
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}
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return free(ptr);
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}
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void signal_protocol_address_set_name(signal_protocol_address* self, const gchar* name) {
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g_return_if_fail(self != NULL);
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g_return_if_fail(name != NULL);
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gchar* n = g_malloc(strlen(name)+1);
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memcpy(n, name, strlen(name));
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n[strlen(name)] = 0;
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if (self->name) {
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g_free((void*)self->name);
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}
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self->name = n;
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self->name_len = strlen(n);
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}
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gchar* signal_protocol_address_get_name(signal_protocol_address* self) {
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g_return_val_if_fail(self != NULL, NULL);
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g_return_val_if_fail(self->name != NULL, 0);
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gchar* res = g_malloc(sizeof(char) * (self->name_len + 1));
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memcpy(res, self->name, self->name_len);
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res[self->name_len] = 0;
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return res;
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}
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int32_t signal_protocol_address_get_device_id(signal_protocol_address* self) {
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g_return_val_if_fail(self != NULL, -1);
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return self->device_id;
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}
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void signal_protocol_address_set_device_id(signal_protocol_address* self, int32_t device_id) {
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g_return_if_fail(self != NULL);
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self->device_id = device_id;
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}
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int signal_vala_randomize(uint8_t *data, size_t len) {
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gcry_randomize(data, len, GCRY_STRONG_RANDOM);
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return SG_SUCCESS;
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}
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int signal_vala_random_generator(uint8_t *data, size_t len, void *user_data) {
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gcry_randomize(data, len, GCRY_STRONG_RANDOM);
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return SG_SUCCESS;
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}
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int signal_vala_hmac_sha256_init(void **hmac_context, const uint8_t *key, size_t key_len, void *user_data) {
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gcry_mac_hd_t* ctx = malloc(sizeof(gcry_mac_hd_t));
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if (!ctx) return SG_ERR_NOMEM;
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if (gcry_mac_open(ctx, GCRY_MAC_HMAC_SHA256, 0, 0)) {
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free(ctx);
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return SG_ERR_UNKNOWN;
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}
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if (gcry_mac_setkey(*ctx, key, key_len)) {
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free(ctx);
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return SG_ERR_UNKNOWN;
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}
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*hmac_context = ctx;
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return SG_SUCCESS;
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}
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int signal_vala_hmac_sha256_update(void *hmac_context, const uint8_t *data, size_t data_len, void *user_data) {
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gcry_mac_hd_t* ctx = hmac_context;
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if (gcry_mac_write(*ctx, data, data_len)) return SG_ERR_UNKNOWN;
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return SG_SUCCESS;
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}
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int signal_vala_hmac_sha256_final(void *hmac_context, signal_buffer **output, void *user_data) {
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size_t len = gcry_mac_get_algo_maclen(GCRY_MAC_HMAC_SHA256);
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uint8_t md[len];
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gcry_mac_hd_t* ctx = hmac_context;
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if (gcry_mac_read(*ctx, md, &len)) return SG_ERR_UNKNOWN;
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signal_buffer *output_buffer = signal_buffer_create(md, len);
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if (!output_buffer) return SG_ERR_NOMEM;
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*output = output_buffer;
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return SG_SUCCESS;
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}
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void signal_vala_hmac_sha256_cleanup(void *hmac_context, void *user_data) {
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gcry_mac_hd_t* ctx = hmac_context;
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if (ctx) {
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gcry_mac_close(*ctx);
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free(ctx);
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}
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}
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int signal_vala_sha512_digest_init(void **digest_context, void *user_data) {
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gcry_md_hd_t* ctx = malloc(sizeof(gcry_mac_hd_t));
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if (!ctx) return SG_ERR_NOMEM;
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if (gcry_md_open(ctx, GCRY_MD_SHA512, 0)) {
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free(ctx);
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return SG_ERR_UNKNOWN;
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}
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*digest_context = ctx;
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return SG_SUCCESS;
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}
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int signal_vala_sha512_digest_update(void *digest_context, const uint8_t *data, size_t data_len, void *user_data) {
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gcry_md_hd_t* ctx = digest_context;
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gcry_md_write(*ctx, data, data_len);
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return SG_SUCCESS;
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}
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int signal_vala_sha512_digest_final(void *digest_context, signal_buffer **output, void *user_data) {
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size_t len = gcry_md_get_algo_dlen(GCRY_MD_SHA512);
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gcry_md_hd_t* ctx = digest_context;
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uint8_t* md = gcry_md_read(*ctx, GCRY_MD_SHA512);
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if (!md) return SG_ERR_UNKNOWN;
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gcry_md_reset(*ctx);
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signal_buffer *output_buffer = signal_buffer_create(md, len);
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free(md);
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if (!output_buffer) return SG_ERR_NOMEM;
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*output = output_buffer;
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return SG_SUCCESS;
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}
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void signal_vala_sha512_digest_cleanup(void *digest_context, void *user_data) {
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gcry_md_hd_t* ctx = digest_context;
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if (ctx) {
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gcry_md_close(*ctx);
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free(ctx);
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}
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}
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const int aes_cipher(int cipher, size_t key_len, int* algo, int* mode) {
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switch (key_len) {
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case 16:
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*algo = GCRY_CIPHER_AES128;
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break;
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case 24:
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*algo = GCRY_CIPHER_AES192;
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break;
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case 32:
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*algo = GCRY_CIPHER_AES256;
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break;
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default:
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return SG_ERR_UNKNOWN;
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}
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switch (cipher) {
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case SG_CIPHER_AES_CBC_PKCS5:
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*mode = GCRY_CIPHER_MODE_CBC;
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break;
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case SG_CIPHER_AES_CTR_NOPADDING:
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*mode = GCRY_CIPHER_MODE_CTR;
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break;
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case SG_CIPHER_AES_GCM_NOPADDING:
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*mode = GCRY_CIPHER_MODE_GCM;
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break;
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default:
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return SG_ERR_UNKNOWN;
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}
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return SG_SUCCESS;
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}
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int signal_vala_encrypt(signal_buffer **output,
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int cipher,
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const uint8_t *key, size_t key_len,
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const uint8_t *iv, size_t iv_len,
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const uint8_t *plaintext, size_t plaintext_len,
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void *user_data) {
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int algo, mode, error_code = SG_ERR_UNKNOWN;
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if (aes_cipher(cipher, key_len, &algo, &mode)) return SG_ERR_INVAL;
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gcry_cipher_hd_t ctx = {0};
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if (gcry_cipher_open(&ctx, algo, mode, 0)) return SG_ERR_NOMEM;
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signal_buffer* padded = 0;
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signal_buffer* out_buf = 0;
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goto no_error;
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error:
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gcry_cipher_close(ctx);
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if (padded != 0) {
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signal_buffer_bzero_free(padded);
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}
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if (out_buf != 0) {
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signal_buffer_free(out_buf);
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}
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return error_code;
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no_error:
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if (gcry_cipher_setkey(ctx, key, key_len)) goto error;
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uint8_t tag_len = 0, pad_len = 0;
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switch (cipher) {
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case SG_CIPHER_AES_CBC_PKCS5:
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if (gcry_cipher_setiv(ctx, iv, iv_len)) goto error;
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pad_len = 16 - (plaintext_len % 16);
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if (pad_len == 0) pad_len = 16;
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break;
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case SG_CIPHER_AES_CTR_NOPADDING:
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if (gcry_cipher_setctr(ctx, iv, iv_len)) goto error;
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break;
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case SG_CIPHER_AES_GCM_NOPADDING:
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if (gcry_cipher_setiv(ctx, iv, iv_len)) goto error;
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tag_len = 16;
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break;
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default:
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return SG_ERR_UNKNOWN;
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}
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size_t padded_len = plaintext_len + pad_len;
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padded = signal_buffer_alloc(padded_len);
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if (padded == 0) {
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error_code = SG_ERR_NOMEM;
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goto error;
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}
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memset(signal_buffer_data(padded) + plaintext_len, pad_len, pad_len);
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memcpy(signal_buffer_data(padded), plaintext, plaintext_len);
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out_buf = signal_buffer_alloc(padded_len + tag_len);
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if (out_buf == 0) {
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error_code = SG_ERR_NOMEM;
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goto error;
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}
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if (gcry_cipher_encrypt(ctx, signal_buffer_data(out_buf), padded_len, signal_buffer_data(padded), padded_len)) goto error;
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if (tag_len > 0) {
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if (gcry_cipher_gettag(ctx, signal_buffer_data(out_buf) + padded_len, tag_len)) goto error;
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}
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*output = out_buf;
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out_buf = 0;
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signal_buffer_bzero_free(padded);
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padded = 0;
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gcry_cipher_close(ctx);
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return SG_SUCCESS;
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}
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int signal_vala_decrypt(signal_buffer **output,
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int cipher,
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const uint8_t *key, size_t key_len,
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const uint8_t *iv, size_t iv_len,
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const uint8_t *ciphertext, size_t ciphertext_len,
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void *user_data) {
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int algo, mode, error_code = SG_ERR_UNKNOWN;
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*output = 0;
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if (aes_cipher(cipher, key_len, &algo, &mode)) return SG_ERR_INVAL;
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if (ciphertext_len == 0) return SG_ERR_INVAL;
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gcry_cipher_hd_t ctx = {0};
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if (gcry_cipher_open(&ctx, algo, mode, 0)) return SG_ERR_NOMEM;
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signal_buffer* out_buf = 0;
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goto no_error;
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error:
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gcry_cipher_close(ctx);
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if (out_buf != 0) {
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signal_buffer_bzero_free(out_buf);
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}
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return error_code;
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no_error:
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if (gcry_cipher_setkey(ctx, key, key_len)) goto error;
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uint8_t tag_len = 0, pkcs_pad = FALSE;
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switch (cipher) {
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case SG_CIPHER_AES_CBC_PKCS5:
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if (gcry_cipher_setiv(ctx, iv, iv_len)) goto error;
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pkcs_pad = TRUE;
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break;
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case SG_CIPHER_AES_CTR_NOPADDING:
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if (gcry_cipher_setctr(ctx, iv, iv_len)) goto error;
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break;
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case SG_CIPHER_AES_GCM_NOPADDING:
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if (gcry_cipher_setiv(ctx, iv, iv_len)) goto error;
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if (ciphertext_len < 16) goto error;
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tag_len = 16;
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break;
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default:
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goto error;
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}
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size_t padded_len = ciphertext_len - tag_len;
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out_buf = signal_buffer_alloc(padded_len);
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if (out_buf == 0) {
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error_code = SG_ERR_NOMEM;
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goto error;
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}
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if (gcry_cipher_decrypt(ctx, signal_buffer_data(out_buf), signal_buffer_len(out_buf), ciphertext, padded_len)) goto error;
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if (tag_len > 0) {
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if (gcry_cipher_checktag(ctx, ciphertext + padded_len, tag_len)) goto error;
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}
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if (pkcs_pad) {
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uint8_t pad_len = signal_buffer_data(out_buf)[padded_len - 1];
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if (pad_len > 16 || pad_len > padded_len) goto error;
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*output = signal_buffer_create(signal_buffer_data(out_buf), padded_len - pad_len);
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signal_buffer_bzero_free(out_buf);
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out_buf = 0;
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} else {
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*output = out_buf;
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out_buf = 0;
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}
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gcry_cipher_close(ctx);
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return SG_SUCCESS;
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}
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void setup_signal_vala_crypto_provider(signal_context *context)
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{
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gcry_check_version(NULL);
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signal_crypto_provider provider = {
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.random_func = signal_vala_random_generator,
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.hmac_sha256_init_func = signal_vala_hmac_sha256_init,
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.hmac_sha256_update_func = signal_vala_hmac_sha256_update,
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.hmac_sha256_final_func = signal_vala_hmac_sha256_final,
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.hmac_sha256_cleanup_func = signal_vala_hmac_sha256_cleanup,
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.sha512_digest_init_func = signal_vala_sha512_digest_init,
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.sha512_digest_update_func = signal_vala_sha512_digest_update,
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.sha512_digest_final_func = signal_vala_sha512_digest_final,
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.sha512_digest_cleanup_func = signal_vala_sha512_digest_cleanup,
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.encrypt_func = signal_vala_encrypt,
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.decrypt_func = signal_vala_decrypt,
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.user_data = 0
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};
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signal_context_set_crypto_provider(context, &provider);
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}
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