#include "fingerprint.h" #include #include #include "axolotl_internal.h" #include "FingerprintProtocol.pb-c.h" #define VERSION 0 struct fingerprint { axolotl_type_base base; displayable_fingerprint *displayable; scannable_fingerprint *scannable; }; struct displayable_fingerprint { axolotl_type_base base; char *local_fingerprint; char *remote_fingerprint; char *display_text; }; struct scannable_fingerprint { axolotl_type_base base; uint32_t version; char *local_stable_identifier; ec_public_key *local_identity_key; char *remote_stable_identifier; ec_public_key *remote_identity_key; }; struct fingerprint_generator { int iterations; axolotl_context *global_context; }; static int fingerprint_generator_create_display_string(fingerprint_generator *generator, char **display_string, const char *local_stable_identifier, ec_public_key *identity_key); int fingerprint_generator_create(fingerprint_generator **generator, int iterations, axolotl_context *global_context) { fingerprint_generator *result_generator; assert(global_context); result_generator = malloc(sizeof(fingerprint_generator)); if(!result_generator) { return AX_ERR_NOMEM; } memset(result_generator, 0, sizeof(fingerprint_generator)); result_generator->iterations = iterations; result_generator->global_context = global_context; *generator = result_generator; return 0; } int fingerprint_generator_create_for(fingerprint_generator *generator, const char *local_stable_identifier, ec_public_key *local_identity_key, const char *remote_stable_identifier, ec_public_key *remote_identity_key, fingerprint **fingerprint_val) { int result = 0; fingerprint *result_fingerprint = 0; displayable_fingerprint *displayable = 0; char *displayable_local = 0; char *displayable_remote = 0; scannable_fingerprint *scannable = 0; result = fingerprint_generator_create_display_string(generator, &displayable_local, local_stable_identifier, local_identity_key); if(result < 0) { goto complete; } result = fingerprint_generator_create_display_string(generator, &displayable_remote, remote_stable_identifier, remote_identity_key); if(result < 0) { goto complete; } result = displayable_fingerprint_create(&displayable, displayable_local, displayable_remote); if(result < 0) { goto complete; } result = scannable_fingerprint_create(&scannable, VERSION, local_stable_identifier, local_identity_key, remote_stable_identifier, remote_identity_key); if(result < 0) { goto complete; } result = fingerprint_create(&result_fingerprint, displayable, scannable); complete: if(displayable_local) { free(displayable_local); } if(displayable_remote) { free(displayable_remote); } AXOLOTL_UNREF(displayable); AXOLOTL_UNREF(scannable); if(result >= 0) { *fingerprint_val = result_fingerprint; } return result; } int fingerprint_generator_create_display_string(fingerprint_generator *generator, char **display_string, const char *stable_identifier, ec_public_key *identity_key) { int result = 0; char *result_string = 0; axolotl_buffer *identity_buffer = 0; axolotl_buffer *hash_buffer = 0; axolotl_buffer *hash_out_buffer = 0; uint8_t *data = 0; size_t len = 0; int i = 0; assert(generator); assert(stable_identifier); assert(identity_key); assert(generator->global_context->crypto_provider.sha512_digest_func); result = ec_public_key_serialize(&identity_buffer, identity_key); if(result < 0) { goto complete; } len = 2 + axolotl_buffer_len(identity_buffer) + strlen(stable_identifier); hash_buffer = axolotl_buffer_alloc(len); if(!hash_buffer) { result = AX_ERR_NOMEM; goto complete; } data = axolotl_buffer_data(hash_buffer); memset(data, 0, len); data[0] = 0; data[1] = (uint8_t)VERSION; memcpy(data + 2, axolotl_buffer_data(identity_buffer), axolotl_buffer_len(identity_buffer)); memcpy(data + 2 + axolotl_buffer_len(identity_buffer), stable_identifier, strlen(stable_identifier)); for(i = 0; i < generator->iterations; i++) { result = axolotl_sha512_digest(generator->global_context, &hash_out_buffer, axolotl_buffer_data(hash_buffer), axolotl_buffer_len(hash_buffer)); if(result < 0) { goto complete; } axolotl_buffer_free(hash_buffer); hash_buffer = hash_out_buffer; hash_out_buffer = 0; } data = axolotl_buffer_data(hash_buffer); len = axolotl_buffer_len(hash_buffer); if(len < 30) { result = AX_ERR_UNKNOWN; goto complete; } result_string = malloc(31); if(!result_string) { result = AX_ERR_NOMEM; goto complete; } for(i = 0; i < 30; i += 5) { uint64_t chunk = ((uint64_t)data[i] & 0xFFL) << 32 | ((uint64_t)data[i + 1] & 0xFFL) << 24 | ((uint64_t)data[i + 2] & 0xFFL) << 16 | ((uint64_t)data[i + 3] & 0xFFL) << 8 | ((uint64_t)data[i + 4] & 0xFFL); #if _WINDOWS sprintf_s(result_string + i, 6, "%05d", (int)(chunk % 100000)); #else snprintf(result_string + i, 6, "%05d", (int)(chunk % 100000)); #endif } complete: axolotl_buffer_free(identity_buffer); axolotl_buffer_free(hash_buffer); axolotl_buffer_free(hash_out_buffer); if(result >= 0) { *display_string = result_string; } return result; } void fingerprint_generator_free(fingerprint_generator *generator) { if(generator) { free(generator); } } int fingerprint_create(fingerprint **fingerprint_val, displayable_fingerprint *displayable, scannable_fingerprint *scannable) { fingerprint *result = malloc(sizeof(fingerprint)); if(!result) { return AX_ERR_NOMEM; } memset(result, 0, sizeof(fingerprint)); AXOLOTL_INIT(result, fingerprint_destroy); if(displayable) { result->displayable = displayable; AXOLOTL_REF(displayable); } if(scannable) { result->scannable = scannable; AXOLOTL_REF(scannable); } *fingerprint_val = result; return 0; } displayable_fingerprint *fingerprint_get_displayable(fingerprint *fingerprint_val) { assert(fingerprint_val); return fingerprint_val->displayable; } scannable_fingerprint *fingerprint_get_scannable(fingerprint *fingerprint_val) { assert(fingerprint_val); return fingerprint_val->scannable; } void fingerprint_destroy(axolotl_type_base *type) { fingerprint *fingerprint_val = (fingerprint *)type; AXOLOTL_UNREF(fingerprint_val->displayable); AXOLOTL_UNREF(fingerprint_val->scannable); free(fingerprint_val); } int displayable_fingerprint_create(displayable_fingerprint **displayable, const char *local_fingerprint, const char *remote_fingerprint) { int result = 0; size_t local_len = 0; size_t remote_len = 0; displayable_fingerprint *result_displayable = 0; char *display_text = 0; if(!local_fingerprint || !remote_fingerprint) { return AX_ERR_INVAL; } result_displayable = malloc(sizeof(displayable_fingerprint)); if(!result_displayable) { return AX_ERR_NOMEM; } memset(result_displayable, 0, sizeof(displayable_fingerprint)); AXOLOTL_INIT(result_displayable, displayable_fingerprint_destroy); result_displayable->local_fingerprint = strdup(local_fingerprint); if(!result_displayable->local_fingerprint) { result = AX_ERR_NOMEM; goto complete; } result_displayable->remote_fingerprint = strdup(remote_fingerprint); if(!result_displayable->remote_fingerprint) { result = AX_ERR_NOMEM; goto complete; } local_len = strlen(local_fingerprint); remote_len = strlen(remote_fingerprint); display_text = malloc(local_len + remote_len + 1); if(!display_text) { result = AX_ERR_NOMEM; goto complete; } if(strcmp(local_fingerprint, remote_fingerprint) <= 0) { memcpy(display_text, local_fingerprint, local_len); memcpy(display_text + local_len, remote_fingerprint, remote_len + 1); } else { memcpy(display_text, remote_fingerprint, remote_len); memcpy(display_text + remote_len, local_fingerprint, local_len + 1); } result_displayable->display_text = display_text; complete: if(result < 0) { AXOLOTL_UNREF(result_displayable); } else { *displayable = result_displayable; } return result; } const char *displayable_fingerprint_local(displayable_fingerprint *displayable) { assert(displayable); return displayable->local_fingerprint; } const char *displayable_fingerprint_remote(displayable_fingerprint *displayable) { assert(displayable); return displayable->remote_fingerprint; } const char *displayable_fingerprint_text(displayable_fingerprint *displayable) { assert(displayable); return displayable->display_text; } void displayable_fingerprint_destroy(axolotl_type_base *type) { displayable_fingerprint *displayable = (displayable_fingerprint *)type; if(displayable->local_fingerprint) { free(displayable->local_fingerprint); } if(displayable->remote_fingerprint) { free(displayable->remote_fingerprint); } if(displayable->display_text) { free(displayable->display_text); } free(displayable); } int scannable_fingerprint_create(scannable_fingerprint **scannable, uint32_t version, const char *local_stable_identifier, ec_public_key *local_identity_key, const char *remote_stable_identifier, ec_public_key *remote_identity_key) { int result = 0; scannable_fingerprint *result_scannable = 0; if(!local_stable_identifier || !local_identity_key || !remote_stable_identifier || !remote_identity_key) { return AX_ERR_INVAL; } result_scannable = malloc(sizeof(scannable_fingerprint)); if(!result_scannable) { return AX_ERR_NOMEM; } memset(result_scannable, 0, sizeof(scannable_fingerprint)); AXOLOTL_INIT(result_scannable, scannable_fingerprint_destroy); result_scannable->version = version; result_scannable->local_stable_identifier = strdup(local_stable_identifier); if(!result_scannable->local_stable_identifier) { result = AX_ERR_NOMEM; goto complete; } result_scannable->local_identity_key = local_identity_key; AXOLOTL_REF(local_identity_key); result_scannable->remote_stable_identifier = strdup(remote_stable_identifier); if(!result_scannable->remote_stable_identifier) { result = AX_ERR_NOMEM; goto complete; } result_scannable->remote_identity_key = remote_identity_key; AXOLOTL_REF(remote_identity_key); complete: if(result < 0) { AXOLOTL_UNREF(result_scannable); } else { *scannable = result_scannable; } return result; } int scannable_fingerprint_serialize(axolotl_buffer **buffer, const scannable_fingerprint *scannable) { int result = 0; size_t result_size = 0; axolotl_buffer *result_buf = 0; Textsecure__CombinedFingerprint combined_fingerprint = TEXTSECURE__COMBINED_FINGERPRINT__INIT; Textsecure__FingerprintData local_fingerprint = TEXTSECURE__FINGERPRINT_DATA__INIT; Textsecure__FingerprintData remote_fingerprint = TEXTSECURE__FINGERPRINT_DATA__INIT; size_t len = 0; uint8_t *data = 0; combined_fingerprint.version = scannable->version; combined_fingerprint.has_version = 1; if(scannable->local_stable_identifier && scannable->local_identity_key) { axolotl_str_serialize_protobuf(&local_fingerprint.identifier, scannable->local_stable_identifier); local_fingerprint.has_identifier = 1; result = ec_public_key_serialize_protobuf(&local_fingerprint.publickey, scannable->local_identity_key); if(result < 0) { goto complete; } local_fingerprint.has_publickey = 1; combined_fingerprint.localfingerprint = &local_fingerprint; } if(scannable->remote_stable_identifier && scannable->remote_identity_key) { axolotl_str_serialize_protobuf(&remote_fingerprint.identifier, scannable->remote_stable_identifier); remote_fingerprint.has_identifier = 1; result = ec_public_key_serialize_protobuf(&remote_fingerprint.publickey, scannable->remote_identity_key); if(result < 0) { goto complete; } remote_fingerprint.has_publickey = 1; combined_fingerprint.remotefingerprint = &remote_fingerprint; } len = textsecure__combined_fingerprint__get_packed_size(&combined_fingerprint); result_buf = axolotl_buffer_alloc(len); if(!result_buf) { result = AX_ERR_NOMEM; goto complete; } data = axolotl_buffer_data(result_buf); result_size = textsecure__combined_fingerprint__pack(&combined_fingerprint, data); if(result_size != len) { axolotl_buffer_free(result_buf); result = AX_ERR_INVALID_PROTO_BUF; result_buf = 0; goto complete; } complete: if(local_fingerprint.publickey.data) { free(local_fingerprint.publickey.data); } if(remote_fingerprint.publickey.data) { free(remote_fingerprint.publickey.data); } if(result >= 0) { *buffer = result_buf; } return result; } int scannable_fingerprint_deserialize(scannable_fingerprint **scannable, const uint8_t *data, size_t len, axolotl_context *global_context) { int result = 0; Textsecure__CombinedFingerprint *combined_fingerprint = 0; uint32_t version = 0; char *local_stable_identifier = 0; ec_public_key *local_identity_key = 0; char *remote_stable_identifier = 0; ec_public_key *remote_identity_key = 0; combined_fingerprint = textsecure__combined_fingerprint__unpack(0, len, data); if(!combined_fingerprint) { result = AX_ERR_INVALID_PROTO_BUF; goto complete; } if(combined_fingerprint->has_version) { version = combined_fingerprint->version; } if(combined_fingerprint->localfingerprint) { if(combined_fingerprint->localfingerprint->has_identifier) { local_stable_identifier = axolotl_str_deserialize_protobuf(&combined_fingerprint->localfingerprint->identifier); if(!local_stable_identifier) { result = AX_ERR_NOMEM; goto complete; } } if(combined_fingerprint->localfingerprint->has_publickey) { result = curve_decode_point(&local_identity_key, combined_fingerprint->localfingerprint->publickey.data, combined_fingerprint->localfingerprint->publickey.len, global_context); if(result < 0) { goto complete; } } } if(combined_fingerprint->remotefingerprint) { if(combined_fingerprint->remotefingerprint->has_identifier) { remote_stable_identifier = axolotl_str_deserialize_protobuf(&combined_fingerprint->remotefingerprint->identifier); if(!remote_stable_identifier) { result = AX_ERR_NOMEM; goto complete; } } if(combined_fingerprint->remotefingerprint->has_publickey) { result = curve_decode_point(&remote_identity_key, combined_fingerprint->remotefingerprint->publickey.data, combined_fingerprint->remotefingerprint->publickey.len, global_context); if(result < 0) { goto complete; } } } result = scannable_fingerprint_create(scannable, version, local_stable_identifier, local_identity_key, remote_stable_identifier, remote_identity_key); complete: if(combined_fingerprint) { textsecure__combined_fingerprint__free_unpacked(combined_fingerprint, 0); } if(local_stable_identifier) { free(local_stable_identifier); } if(local_identity_key) { AXOLOTL_UNREF(local_identity_key); } if(remote_stable_identifier) { free(remote_stable_identifier); } if(remote_identity_key) { AXOLOTL_UNREF(remote_identity_key); } return result; } uint32_t scannable_fingerprint_get_version(scannable_fingerprint *scannable) { assert(scannable); return scannable->version; } const char *scannable_fingerprint_get_local_stable_identifier(scannable_fingerprint *scannable) { assert(scannable); return scannable->local_stable_identifier; } ec_public_key *scannable_fingerprint_get_local_identity_key(scannable_fingerprint *scannable) { assert(scannable); return scannable->local_identity_key; } const char *scannable_fingerprint_get_remote_stable_identifier(scannable_fingerprint *scannable) { assert(scannable); return scannable->remote_stable_identifier; } ec_public_key *scannable_fingerprint_get_remote_identity_key(scannable_fingerprint *scannable) { assert(scannable); return scannable->remote_identity_key; } int scannable_fingerprint_compare(scannable_fingerprint *scannable, const scannable_fingerprint *other_scannable) { if(!other_scannable->remote_identity_key || !other_scannable->local_identity_key || other_scannable->version != scannable->version) { return AX_ERR_FP_VERSION_MISMATCH; } if(strcmp(scannable->local_stable_identifier, other_scannable->remote_stable_identifier) != 0) { return AX_ERR_FP_IDENT_MISMATCH; } if(strcmp(scannable->remote_stable_identifier, other_scannable->local_stable_identifier) != 0) { return AX_ERR_FP_IDENT_MISMATCH; } if(ec_public_key_compare(scannable->local_identity_key, other_scannable->remote_identity_key) != 0) { return 0; } if(ec_public_key_compare(scannable->remote_identity_key, other_scannable->local_identity_key) != 0) { return 0; } return 1; } void scannable_fingerprint_destroy(axolotl_type_base *type) { scannable_fingerprint *scannable = (scannable_fingerprint *)type; if(scannable->local_stable_identifier) { free(scannable->local_stable_identifier); } AXOLOTL_UNREF(scannable->local_identity_key); if(scannable->remote_stable_identifier) { free(scannable->remote_stable_identifier); } AXOLOTL_UNREF(scannable->remote_identity_key); free(scannable); }