#ifdef HAVE_EIP712_FULL_SUPPORT #include #include #include #include #include "apdu_constants.h" #include "eip712.h" #include "mem.h" #include "type_hash.h" #include "context.h" #include "sol_typenames.h" #include "field_hash.h" #include "path.h" #include "shared_context.h" #include "ui_logic.h" #include "common_712.h" // lib functions const void *get_array_in_mem(const void *ptr, uint8_t *const array_size) { *array_size = *(uint8_t*)ptr; return (ptr + 1); } const char *get_string_in_mem(const uint8_t *ptr, uint8_t *const string_length) { return (char*)get_array_in_mem(ptr, string_length); } // ptr must point to the beginning of a struct field static inline uint8_t get_struct_field_typedesc(const uint8_t *ptr) { return *ptr; } // ptr must point to the beginning of a struct field bool struct_field_is_array(const uint8_t *ptr) { return (get_struct_field_typedesc(ptr) & ARRAY_MASK); } // ptr must point to the beginning of a struct field bool struct_field_has_typesize(const uint8_t *ptr) { return (get_struct_field_typedesc(ptr) & TYPESIZE_MASK); } // ptr must point to the beginning of a struct field e_type struct_field_type(const uint8_t *ptr) { return (get_struct_field_typedesc(ptr) & TYPE_MASK); } // ptr must point to the beginning of a struct field // TODO: Extra check inside or not uint8_t get_struct_field_typesize(const uint8_t *ptr) { return *(ptr + 1); } // ptr must point to the beginning of a struct field const char *get_struct_field_custom_typename(const uint8_t *ptr, uint8_t *const length) { ptr += 1; // skip TypeDesc return get_string_in_mem(ptr, length); } // ptr must point to the beginning of a struct field const char *get_struct_field_typename(const uint8_t *ptr, uint8_t *const length) { if (struct_field_type(ptr) == TYPE_CUSTOM) { return get_struct_field_custom_typename(ptr, length); } return get_struct_field_sol_typename(ptr, length); } // ptr must point to the beginning of a depth level e_array_type struct_field_array_depth(const uint8_t *ptr, uint8_t *const array_size) { if (*ptr == ARRAY_FIXED_SIZE) { *array_size = *(ptr + 1); } return *ptr; } // ptr must point to the beginning of a struct field level const uint8_t *get_next_struct_field_array_lvl(const uint8_t *ptr) { switch (*ptr) { case ARRAY_DYNAMIC: break; case ARRAY_FIXED_SIZE: ptr += 1; break; default: // should not be in here :^) break; } return ptr + 1; } // Skips TypeDesc and TypeSize/Length+TypeName // Came to be since it is used in multiple functions // TODO: Find better name const uint8_t *struct_field_half_skip(const uint8_t *ptr) { const uint8_t *field_ptr; uint8_t size; field_ptr = ptr; ptr += 1; // skip TypeDesc if (struct_field_type(field_ptr) == TYPE_CUSTOM) { get_string_in_mem(ptr, &size); ptr += (1 + size); // skip typename } else if (struct_field_has_typesize(field_ptr)) { ptr += 1; // skip TypeSize } return ptr; } // ptr must point to the beginning of a struct field const uint8_t *get_struct_field_array_lvls_array(const uint8_t *ptr, uint8_t *const length) { ptr = struct_field_half_skip(ptr); return get_array_in_mem(ptr, length); } // ptr must point to the beginning of a struct field const char *get_struct_field_keyname(const uint8_t *ptr, uint8_t *const length) { const uint8_t *field_ptr; uint8_t size; field_ptr = ptr; ptr = struct_field_half_skip(ptr); if (struct_field_is_array(field_ptr)) { ptr = get_array_in_mem(ptr, &size); while (size-- > 0) { ptr = get_next_struct_field_array_lvl(ptr); } } return get_string_in_mem(ptr, length); } // ptr must point to the beginning of a struct field const uint8_t *get_next_struct_field(const void *ptr) { uint8_t length; ptr = (uint8_t*)get_struct_field_keyname(ptr, &length); return (ptr + length); } // ptr must point to the beginning of a struct const char *get_struct_name(const uint8_t *ptr, uint8_t *const length) { return (char*)get_string_in_mem(ptr, length); } // ptr must point to the beginning of a struct const uint8_t *get_struct_fields_array(const uint8_t *ptr, uint8_t *const length) { uint8_t name_length; get_struct_name(ptr, &name_length); ptr += (1 + name_length); // skip length return get_array_in_mem(ptr, length); } // ptr must point to the beginning of a struct const uint8_t *get_next_struct(const uint8_t *ptr) { uint8_t fields_count; ptr = get_struct_fields_array(ptr, &fields_count); while (fields_count-- > 0) { ptr = get_next_struct_field(ptr); } return ptr; } // ptr must point to the size of the structs array const uint8_t *get_structs_array(const uint8_t *ptr, uint8_t *const length) { return get_array_in_mem(ptr, length); } // Finds struct with a given name const uint8_t *get_structn(const uint8_t *const ptr, const char *const name_ptr, const uint8_t name_length) { uint8_t structs_count; const uint8_t *struct_ptr; const char *name; uint8_t length; struct_ptr = get_structs_array(ptr, &structs_count); while (structs_count-- > 0) { name = get_struct_name(struct_ptr, &length); if ((name_length == length) && (memcmp(name, name_ptr, length) == 0)) { return struct_ptr; } struct_ptr = get_next_struct(struct_ptr); } return NULL; } static inline const uint8_t *get_struct(const uint8_t *const ptr, const char *const name_ptr) { return get_structn(ptr, name_ptr, strlen(name_ptr)); } // bool set_struct_name(const uint8_t *const data) { uint8_t *length_ptr; char *name_ptr; // increment number of structs *(eip712_context->structs_array) += 1; // copy length if ((length_ptr = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *length_ptr = data[OFFSET_LC]; // copy name if ((name_ptr = mem_alloc(sizeof(char) * data[OFFSET_LC])) == NULL) { return false; } memmove(name_ptr, &data[OFFSET_CDATA], data[OFFSET_LC]); // initialize number of fields if ((eip712_context->current_struct_fields_array = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *(eip712_context->current_struct_fields_array) = 0; return true; } // TODO: Split this function // TODO: Handle partial sends bool set_struct_field(const uint8_t *const data) { uint8_t data_idx = OFFSET_CDATA; uint8_t *type_desc_ptr; uint8_t *type_size_ptr; uint8_t *typename_len_ptr; char *typename; uint8_t *array_levels_count; e_array_type *array_level; uint8_t *array_level_size; uint8_t *fieldname_len_ptr; char *fieldname_ptr; // increment number of struct fields *(eip712_context->current_struct_fields_array) += 1; // copy TypeDesc if ((type_desc_ptr = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *type_desc_ptr = data[data_idx++]; // check TypeSize flag in TypeDesc if (*type_desc_ptr & TYPESIZE_MASK) { // copy TypeSize if ((type_size_ptr = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *type_size_ptr = data[data_idx++]; } else if ((*type_desc_ptr & TYPE_MASK) == TYPE_CUSTOM) { // copy custom struct name length if ((typename_len_ptr = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *typename_len_ptr = data[data_idx++]; // copy name if ((typename = mem_alloc(sizeof(char) * *typename_len_ptr)) == NULL) { return false; } memmove(typename, &data[data_idx], *typename_len_ptr); data_idx += *typename_len_ptr; } if (*type_desc_ptr & ARRAY_MASK) { if ((array_levels_count = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *array_levels_count = data[data_idx++]; for (int idx = 0; idx < *array_levels_count; ++idx) { if ((array_level = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *array_level = data[data_idx++]; switch (*array_level) { case ARRAY_DYNAMIC: // nothing to do break; case ARRAY_FIXED_SIZE: if ((array_level_size = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *array_level_size = data[data_idx++]; break; default: // should not be in here :^) break; } } } // copy length if ((fieldname_len_ptr = mem_alloc(sizeof(uint8_t))) == NULL) { return false; } *fieldname_len_ptr = data[data_idx++]; // copy name if ((fieldname_ptr = mem_alloc(sizeof(char) * *fieldname_len_ptr)) == NULL) { return false; } memmove(fieldname_ptr, &data[data_idx], *fieldname_len_ptr); return true; } bool handle_eip712_struct_def(const uint8_t *const apdu_buf) { bool ret = true; if (eip712_context == NULL) { if (!eip712_context_init()) { return false; } } switch (apdu_buf[OFFSET_P2]) { case P2_NAME: ret = set_struct_name(apdu_buf); break; case P2_FIELD: ret = set_struct_field(apdu_buf); break; default: PRINTF("Unknown P2 0x%x for APDU 0x%x\n", apdu_buf[OFFSET_P2], apdu_buf[OFFSET_INS]); ret = false; } if (ret) { G_io_apdu_buffer[0] = 0x90; G_io_apdu_buffer[1] = 0x00; } else { G_io_apdu_buffer[0] = 0x6A; G_io_apdu_buffer[1] = 0x80; } // Send back the response, do not restart the event loop io_exchange(CHANNEL_APDU | IO_RETURN_AFTER_TX, 2); return ret; } bool handle_eip712_struct_impl(const uint8_t *const apdu_buf) { bool ret = true; switch (apdu_buf[OFFSET_P2]) { case P2_NAME: // set root type ret = path_set_root((char*)&apdu_buf[OFFSET_CDATA], apdu_buf[OFFSET_LC]); break; case P2_FIELD: ret = field_hash(&apdu_buf[OFFSET_CDATA], apdu_buf[OFFSET_LC], apdu_buf[OFFSET_P1] != P1_COMPLETE); break; case P2_ARRAY: ret = path_new_array_depth(apdu_buf[OFFSET_CDATA]); break; default: PRINTF("Unknown P2 0x%x for APDU 0x%x\n", apdu_buf[OFFSET_P2], apdu_buf[OFFSET_INS]); ret = false; } if (!ret) { // Send back the response, do not restart the event loop G_io_apdu_buffer[0] = 0x6A; G_io_apdu_buffer[1] = 0x80; io_exchange(CHANNEL_APDU | IO_RETURN_AFTER_TX, 2); } return ret; } bool handle_eip712_sign(const uint8_t *const apdu_buf) { if (parseBip32(&apdu_buf[OFFSET_CDATA], &apdu_buf[OFFSET_LC], &tmpCtx.messageSigningContext.bip32) == NULL) { return false; } #ifdef HAVE_EIP712_HALF_BLIND ui_712_message_hash(); #endif // HAVE_EIP712_HALF_BLIND ui_712_end_sign(); return true; } #endif // HAVE_EIP712_FULL_SUPPORT