/* SPDX-License-Identifier: LGPL-2.1-or-later */ #pragma once #include #include "sd-id128.h" #include "architecture.h" #include "list.h" #include "loop-util.h" #include "macro.h" typedef struct DissectedImage DissectedImage; typedef struct DissectedPartition DissectedPartition; typedef struct DecryptedImage DecryptedImage; typedef struct MountOptions MountOptions; typedef struct VeritySettings VeritySettings; struct DissectedPartition { bool found:1; bool rw:1; bool growfs:1; int partno; /* -1 if there was no partition and the images contains a file system directly */ Architecture architecture; /* Intended architecture: either native, secondary or unset ARCHITECTURE_INVALID. */ sd_id128_t uuid; /* Partition entry UUID as reported by the GPT */ char *fstype; char *node; char *label; char *decrypted_node; char *decrypted_fstype; char *mount_options; int mount_node_fd; uint64_t size; uint64_t offset; }; #define DISSECTED_PARTITION_NULL \ ((DissectedPartition) { \ .partno = -1, \ .architecture = _ARCHITECTURE_INVALID, \ .mount_node_fd = -1, \ }) #define TAKE_PARTITION(p) \ ({ \ DissectedPartition *_pp = &(p), _p = *_pp; \ *_pp = DISSECTED_PARTITION_NULL; \ _p; \ }) typedef enum PartitionDesignator { PARTITION_ROOT, PARTITION_ROOT_SECONDARY, /* Secondary architecture */ PARTITION_ROOT_OTHER, PARTITION_USR, PARTITION_USR_SECONDARY, PARTITION_USR_OTHER, PARTITION_HOME, PARTITION_SRV, PARTITION_ESP, PARTITION_XBOOTLDR, PARTITION_SWAP, PARTITION_ROOT_VERITY, /* verity data for the PARTITION_ROOT partition */ PARTITION_ROOT_SECONDARY_VERITY, /* verity data for the PARTITION_ROOT_SECONDARY partition */ PARTITION_ROOT_OTHER_VERITY, PARTITION_USR_VERITY, PARTITION_USR_SECONDARY_VERITY, PARTITION_USR_OTHER_VERITY, PARTITION_ROOT_VERITY_SIG, /* PKCS#7 signature for root hash for the PARTITION_ROOT partition */ PARTITION_ROOT_SECONDARY_VERITY_SIG, /* ditto for the PARTITION_ROOT_SECONDARY partition */ PARTITION_ROOT_OTHER_VERITY_SIG, PARTITION_USR_VERITY_SIG, PARTITION_USR_SECONDARY_VERITY_SIG, PARTITION_USR_OTHER_VERITY_SIG, PARTITION_TMP, PARTITION_VAR, _PARTITION_DESIGNATOR_MAX, _PARTITION_DESIGNATOR_INVALID = -EINVAL, } PartitionDesignator; static inline bool PARTITION_DESIGNATOR_VERSIONED(PartitionDesignator d) { /* Returns true for all designators where we want to support a concept of "versioning", i.e. which * likely contain software binaries (or hashes thereof) that make sense to be versioned as a * whole. We use this check to automatically pick the newest version of these partitions, by version * comparing the partition labels. */ return IN_SET(d, PARTITION_ROOT, PARTITION_ROOT_SECONDARY, PARTITION_ROOT_OTHER, PARTITION_USR, PARTITION_USR_SECONDARY, PARTITION_USR_OTHER, PARTITION_ROOT_VERITY, PARTITION_ROOT_SECONDARY_VERITY, PARTITION_ROOT_OTHER_VERITY, PARTITION_USR_VERITY, PARTITION_USR_SECONDARY_VERITY, PARTITION_USR_OTHER_VERITY, PARTITION_ROOT_VERITY_SIG, PARTITION_ROOT_SECONDARY_VERITY_SIG, PARTITION_ROOT_OTHER_VERITY_SIG, PARTITION_USR_VERITY_SIG, PARTITION_USR_SECONDARY_VERITY_SIG, PARTITION_USR_OTHER_VERITY_SIG); } static inline PartitionDesignator PARTITION_VERITY_OF(PartitionDesignator p) { switch (p) { case PARTITION_ROOT: return PARTITION_ROOT_VERITY; case PARTITION_ROOT_SECONDARY: return PARTITION_ROOT_SECONDARY_VERITY; case PARTITION_ROOT_OTHER: return PARTITION_ROOT_OTHER_VERITY; case PARTITION_USR: return PARTITION_USR_VERITY; case PARTITION_USR_SECONDARY: return PARTITION_USR_SECONDARY_VERITY; case PARTITION_USR_OTHER: return PARTITION_USR_OTHER_VERITY; default: return _PARTITION_DESIGNATOR_INVALID; } } static inline PartitionDesignator PARTITION_VERITY_SIG_OF(PartitionDesignator p) { switch (p) { case PARTITION_ROOT: return PARTITION_ROOT_VERITY_SIG; case PARTITION_ROOT_SECONDARY: return PARTITION_ROOT_SECONDARY_VERITY_SIG; case PARTITION_ROOT_OTHER: return PARTITION_ROOT_OTHER_VERITY_SIG; case PARTITION_USR: return PARTITION_USR_VERITY_SIG; case PARTITION_USR_SECONDARY: return PARTITION_USR_SECONDARY_VERITY_SIG; case PARTITION_USR_OTHER: return PARTITION_USR_OTHER_VERITY_SIG; default: return _PARTITION_DESIGNATOR_INVALID; } } static inline PartitionDesignator PARTITION_ROOT_OF_ARCH(Architecture arch) { switch (arch) { case native_architecture(): return PARTITION_ROOT; #ifdef ARCHITECTURE_SECONDARY case ARCHITECTURE_SECONDARY: return PARTITION_ROOT_SECONDARY; #endif default: return PARTITION_ROOT_OTHER; } } static inline PartitionDesignator PARTITION_USR_OF_ARCH(Architecture arch) { switch (arch) { case native_architecture(): return PARTITION_USR; #ifdef ARCHITECTURE_SECONDARY case ARCHITECTURE_SECONDARY: return PARTITION_USR_SECONDARY; #endif default: return PARTITION_USR_OTHER; } } typedef enum DissectImageFlags { DISSECT_IMAGE_DEVICE_READ_ONLY = 1 << 0, /* Make device read-only */ DISSECT_IMAGE_DISCARD_ON_LOOP = 1 << 1, /* Turn on "discard" if on a loop device and file system supports it */ DISSECT_IMAGE_DISCARD = 1 << 2, /* Turn on "discard" if file system supports it, on all block devices */ DISSECT_IMAGE_DISCARD_ON_CRYPTO = 1 << 3, /* Turn on "discard" also on crypto devices */ DISSECT_IMAGE_DISCARD_ANY = DISSECT_IMAGE_DISCARD_ON_LOOP | DISSECT_IMAGE_DISCARD | DISSECT_IMAGE_DISCARD_ON_CRYPTO, DISSECT_IMAGE_GPT_ONLY = 1 << 4, /* Only recognize images with GPT partition tables */ DISSECT_IMAGE_GENERIC_ROOT = 1 << 5, /* If no partition table or only single generic partition, assume it's the root fs */ DISSECT_IMAGE_MOUNT_ROOT_ONLY = 1 << 6, /* Mount only the root and /usr partitions */ DISSECT_IMAGE_MOUNT_NON_ROOT_ONLY = 1 << 7, /* Mount only the non-root and non-/usr partitions */ DISSECT_IMAGE_VALIDATE_OS = 1 << 8, /* Refuse mounting images that aren't identifiable as OS images */ DISSECT_IMAGE_VALIDATE_OS_EXT = 1 << 9, /* Refuse mounting images that aren't identifiable as OS extension images */ DISSECT_IMAGE_RELAX_VAR_CHECK = 1 << 10, /* Don't insist that the UUID of /var is hashed from /etc/machine-id */ DISSECT_IMAGE_FSCK = 1 << 11, /* File system check the partition before mounting (no effect when combined with DISSECT_IMAGE_READ_ONLY) */ DISSECT_IMAGE_NO_PARTITION_TABLE = 1 << 12, /* Only recognize single file system images */ DISSECT_IMAGE_VERITY_SHARE = 1 << 13, /* When activating a verity device, reuse existing one if already open */ DISSECT_IMAGE_MKDIR = 1 << 14, /* Make top-level directory to mount right before mounting, if missing */ DISSECT_IMAGE_USR_NO_ROOT = 1 << 15, /* If no root fs is in the image, but /usr is, then allow this (so that we can mount the rootfs as tmpfs or so */ DISSECT_IMAGE_REQUIRE_ROOT = 1 << 16, /* Don't accept disks without root partition (or at least /usr partition if DISSECT_IMAGE_USR_NO_ROOT is set) */ DISSECT_IMAGE_MOUNT_READ_ONLY = 1 << 17, /* Make mounts read-only */ DISSECT_IMAGE_READ_ONLY = DISSECT_IMAGE_DEVICE_READ_ONLY | DISSECT_IMAGE_MOUNT_READ_ONLY, DISSECT_IMAGE_GROWFS = 1 << 18, /* Grow file systems in partitions marked for that to the size of the partitions after mount */ DISSECT_IMAGE_MOUNT_IDMAPPED = 1 << 19, /* Mount mounts with kernel 5.12-style userns ID mapping, if file system type doesn't support uid=/gid= */ DISSECT_IMAGE_ADD_PARTITION_DEVICES = 1 << 20, /* Create partition devices via BLKPG_ADD_PARTITION */ DISSECT_IMAGE_PIN_PARTITION_DEVICES = 1 << 21, /* Open dissected partitions and decrypted partitions and pin them by fd */ DISSECT_IMAGE_RELAX_SYSEXT_CHECK = 1 << 22, /* Don't insist that the extension-release file name matches the image name */ } DissectImageFlags; struct DissectedImage { bool encrypted:1; bool has_verity:1; /* verity available in image, but not necessarily used */ bool has_verity_sig:1; /* pkcs#7 signature embedded in image */ bool verity_ready:1; /* verity available, fully specified and usable */ bool verity_sig_ready:1; /* verity signature logic, fully specified and usable */ bool single_file_system:1; /* MBR/GPT or single file system */ LoopDevice *loop; DissectedPartition partitions[_PARTITION_DESIGNATOR_MAX]; DecryptedImage *decrypted_image; char *image_name; /* Meta information extracted from /etc/os-release and similar */ char *hostname; sd_id128_t machine_id; char **machine_info; char **os_release; char **extension_release; int has_init_system; }; struct MountOptions { PartitionDesignator partition_designator; char *options; LIST_FIELDS(MountOptions, mount_options); }; struct VeritySettings { /* Binary root hash for the Verity Merkle tree */ void *root_hash; size_t root_hash_size; /* PKCS#7 signature of the above */ void *root_hash_sig; size_t root_hash_sig_size; /* Path to the verity data file, if stored externally */ char *data_path; /* PARTITION_ROOT or PARTITION_USR, depending on what these Verity settings are for */ PartitionDesignator designator; }; #define VERITY_SETTINGS_DEFAULT { \ .designator = _PARTITION_DESIGNATOR_INVALID \ } MountOptions* mount_options_free_all(MountOptions *options); DEFINE_TRIVIAL_CLEANUP_FUNC(MountOptions*, mount_options_free_all); const char* mount_options_from_designator(const MountOptions *options, PartitionDesignator designator); int probe_filesystem_full(int fd, const char *path, uint64_t offset, uint64_t size, char **ret_fstype); static inline int probe_filesystem(const char *path, char **ret_fstype) { return probe_filesystem_full(-1, path, 0, UINT64_MAX, ret_fstype); } int dissect_image_file( const char *path, const VeritySettings *verity, const MountOptions *mount_options, DissectImageFlags flags, DissectedImage **ret); int dissect_loop_device(LoopDevice *loop, const VeritySettings *verity, const MountOptions *mount_options, DissectImageFlags flags, DissectedImage **ret); int dissect_loop_device_and_warn(LoopDevice *loop, const VeritySettings *verity, const MountOptions *mount_options, DissectImageFlags flags, DissectedImage **ret); DissectedImage* dissected_image_unref(DissectedImage *m); DEFINE_TRIVIAL_CLEANUP_FUNC(DissectedImage*, dissected_image_unref); int dissected_image_decrypt(DissectedImage *m, const char *passphrase, const VeritySettings *verity, DissectImageFlags flags); int dissected_image_decrypt_interactively(DissectedImage *m, const char *passphrase, const VeritySettings *verity, DissectImageFlags flags); int dissected_image_mount(DissectedImage *m, const char *dest, uid_t uid_shift, uid_t uid_range, DissectImageFlags flags); int dissected_image_mount_and_warn(DissectedImage *m, const char *where, uid_t uid_shift, uid_t uid_range, DissectImageFlags flags); int dissected_image_acquire_metadata(DissectedImage *m, DissectImageFlags extra_flags); DecryptedImage* decrypted_image_ref(DecryptedImage *p); DecryptedImage* decrypted_image_unref(DecryptedImage *p); DEFINE_TRIVIAL_CLEANUP_FUNC(DecryptedImage*, decrypted_image_unref); int dissected_image_relinquish(DissectedImage *m); const char* partition_designator_to_string(PartitionDesignator d) _const_; PartitionDesignator partition_designator_from_string(const char *name) _pure_; int verity_settings_load(VeritySettings *verity, const char *image, const char *root_hash_path, const char *root_hash_sig_path); void verity_settings_done(VeritySettings *verity); int dissected_image_load_verity_sig_partition(DissectedImage *m, int fd, VeritySettings *verity); bool dissected_image_verity_candidate(const DissectedImage *image, PartitionDesignator d); bool dissected_image_verity_ready(const DissectedImage *image, PartitionDesignator d); bool dissected_image_verity_sig_ready(const DissectedImage *image, PartitionDesignator d); int mount_image_privately_interactively(const char *path, DissectImageFlags flags, char **ret_directory, LoopDevice **ret_loop_device); int verity_dissect_and_mount(int src_fd, const char *src, const char *dest, const MountOptions *options, const char *required_host_os_release_id, const char *required_host_os_release_version_id, const char *required_host_os_release_sysext_level, const char *required_sysext_scope);