// SPDX-License-Identifier: GPL-2.0-only /* * Copyright 2023 Red Hat */ #include "status-codes.h" #include "errors.h" #include "logger.h" #include "permassert.h" #include "thread-utils.h" const struct error_info vdo_status_list[] = { { "VDO_NOT_IMPLEMENTED", "Not implemented" }, { "VDO_OUT_OF_RANGE", "Out of range" }, { "VDO_REF_COUNT_INVALID", "Reference count would become invalid" }, { "VDO_NO_SPACE", "Out of space" }, { "VDO_BAD_CONFIGURATION", "Bad configuration option" }, { "VDO_COMPONENT_BUSY", "Prior operation still in progress" }, { "VDO_BAD_PAGE", "Corrupt or incorrect page" }, { "VDO_UNSUPPORTED_VERSION", "Unsupported component version" }, { "VDO_INCORRECT_COMPONENT", "Component id mismatch in decoder" }, { "VDO_PARAMETER_MISMATCH", "Parameters have conflicting values" }, { "VDO_UNKNOWN_PARTITION", "No partition exists with a given id" }, { "VDO_PARTITION_EXISTS", "A partition already exists with a given id" }, { "VDO_INCREMENT_TOO_SMALL", "Physical block growth of too few blocks" }, { "VDO_CHECKSUM_MISMATCH", "Incorrect checksum" }, { "VDO_LOCK_ERROR", "A lock is held incorrectly" }, { "VDO_READ_ONLY", "The device is in read-only mode" }, { "VDO_SHUTTING_DOWN", "The device is shutting down" }, { "VDO_CORRUPT_JOURNAL", "Recovery journal corrupted" }, { "VDO_TOO_MANY_SLABS", "Exceeds maximum number of slabs supported" }, { "VDO_INVALID_FRAGMENT", "Compressed block fragment is invalid" }, { "VDO_RETRY_AFTER_REBUILD", "Retry operation after rebuilding finishes" }, { "VDO_BAD_MAPPING", "Invalid page mapping" }, { "VDO_BIO_CREATION_FAILED", "Bio creation failed" }, { "VDO_BAD_MAGIC", "Bad magic number" }, { "VDO_BAD_NONCE", "Bad nonce" }, { "VDO_JOURNAL_OVERFLOW", "Journal sequence number overflow" }, { "VDO_INVALID_ADMIN_STATE", "Invalid operation for current state" }, }; /** * vdo_register_status_codes() - Register the VDO status codes. * Return: A success or error code. */ int vdo_register_status_codes(void) { int result; BUILD_BUG_ON((VDO_STATUS_CODE_LAST - VDO_STATUS_CODE_BASE) != ARRAY_SIZE(vdo_status_list)); result = uds_register_error_block("VDO Status", VDO_STATUS_CODE_BASE, VDO_STATUS_CODE_BLOCK_END, vdo_status_list, sizeof(vdo_status_list)); return (result == UDS_SUCCESS) ? VDO_SUCCESS : result; } /** * vdo_status_to_errno() - Given an error code, return a value we can return to the OS. * @error: The error code to convert. * * The input error code may be a system-generated value (such as -EIO), an errno macro used in our * code (such as EIO), or a UDS or VDO status code; the result must be something the rest of the OS * can consume (negative errno values such as -EIO, in the case of the kernel). * * Return: A system error code value. */ int vdo_status_to_errno(int error) { char error_name[VDO_MAX_ERROR_NAME_SIZE]; char error_message[VDO_MAX_ERROR_MESSAGE_SIZE]; /* 0 is success, negative a system error code */ if (likely(error <= 0)) return error; if (error < 1024) return -error; /* VDO or UDS error */ switch (error) { case VDO_NO_SPACE: return -ENOSPC; case VDO_READ_ONLY: return -EIO; default: vdo_log_info("%s: mapping internal status code %d (%s: %s) to EIO", __func__, error, uds_string_error_name(error, error_name, sizeof(error_name)), uds_string_error(error, error_message, sizeof(error_message))); return -EIO; } }