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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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27e47a6342
fscrypt_free_filename() only needs to do a kfree() of crypto_buf.name, which works well as an inline function. We can skip setting the various pointers to NULL, since no user cares about it (the name is always freed just before it goes out of scope). Signed-off-by: Eric Biggers <ebiggers@google.com> Reviewed-by: David Gstir <david@sigma-star.at> Signed-off-by: Theodore Ts'o <tytso@mit.edu>
146 lines
5.6 KiB
C
146 lines
5.6 KiB
C
/*
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* fscrypt_supp.h
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*
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* This is included by filesystems configured with encryption support.
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*/
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#ifndef _LINUX_FSCRYPT_SUPP_H
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#define _LINUX_FSCRYPT_SUPP_H
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#include <linux/fscrypt_common.h>
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/* crypto.c */
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extern struct kmem_cache *fscrypt_info_cachep;
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extern struct fscrypt_ctx *fscrypt_get_ctx(const struct inode *, gfp_t);
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extern void fscrypt_release_ctx(struct fscrypt_ctx *);
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extern struct page *fscrypt_encrypt_page(const struct inode *, struct page *,
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unsigned int, unsigned int,
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u64, gfp_t);
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extern int fscrypt_decrypt_page(const struct inode *, struct page *, unsigned int,
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unsigned int, u64);
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extern void fscrypt_restore_control_page(struct page *);
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extern const struct dentry_operations fscrypt_d_ops;
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static inline void fscrypt_set_d_op(struct dentry *dentry)
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{
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d_set_d_op(dentry, &fscrypt_d_ops);
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}
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static inline void fscrypt_set_encrypted_dentry(struct dentry *dentry)
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{
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spin_lock(&dentry->d_lock);
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dentry->d_flags |= DCACHE_ENCRYPTED_WITH_KEY;
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spin_unlock(&dentry->d_lock);
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}
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/* policy.c */
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extern int fscrypt_ioctl_set_policy(struct file *, const void __user *);
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extern int fscrypt_ioctl_get_policy(struct file *, void __user *);
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extern int fscrypt_has_permitted_context(struct inode *, struct inode *);
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extern int fscrypt_inherit_context(struct inode *, struct inode *,
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void *, bool);
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/* keyinfo.c */
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extern int fscrypt_get_encryption_info(struct inode *);
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extern void fscrypt_put_encryption_info(struct inode *, struct fscrypt_info *);
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/* fname.c */
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extern int fscrypt_setup_filename(struct inode *, const struct qstr *,
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int lookup, struct fscrypt_name *);
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static inline void fscrypt_free_filename(struct fscrypt_name *fname)
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{
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kfree(fname->crypto_buf.name);
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}
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extern u32 fscrypt_fname_encrypted_size(const struct inode *, u32);
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extern int fscrypt_fname_alloc_buffer(const struct inode *, u32,
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struct fscrypt_str *);
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extern void fscrypt_fname_free_buffer(struct fscrypt_str *);
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extern int fscrypt_fname_disk_to_usr(struct inode *, u32, u32,
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const struct fscrypt_str *, struct fscrypt_str *);
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extern int fscrypt_fname_usr_to_disk(struct inode *, const struct qstr *,
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struct fscrypt_str *);
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#define FSCRYPT_FNAME_MAX_UNDIGESTED_SIZE 32
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/* Extracts the second-to-last ciphertext block; see explanation below */
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#define FSCRYPT_FNAME_DIGEST(name, len) \
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((name) + round_down((len) - FS_CRYPTO_BLOCK_SIZE - 1, \
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FS_CRYPTO_BLOCK_SIZE))
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#define FSCRYPT_FNAME_DIGEST_SIZE FS_CRYPTO_BLOCK_SIZE
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/**
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* fscrypt_digested_name - alternate identifier for an on-disk filename
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*
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* When userspace lists an encrypted directory without access to the key,
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* filenames whose ciphertext is longer than FSCRYPT_FNAME_MAX_UNDIGESTED_SIZE
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* bytes are shown in this abbreviated form (base64-encoded) rather than as the
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* full ciphertext (base64-encoded). This is necessary to allow supporting
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* filenames up to NAME_MAX bytes, since base64 encoding expands the length.
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*
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* To make it possible for filesystems to still find the correct directory entry
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* despite not knowing the full on-disk name, we encode any filesystem-specific
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* 'hash' and/or 'minor_hash' which the filesystem may need for its lookups,
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* followed by the second-to-last ciphertext block of the filename. Due to the
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* use of the CBC-CTS encryption mode, the second-to-last ciphertext block
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* depends on the full plaintext. (Note that ciphertext stealing causes the
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* last two blocks to appear "flipped".) This makes accidental collisions very
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* unlikely: just a 1 in 2^128 chance for two filenames to collide even if they
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* share the same filesystem-specific hashes.
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*
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* However, this scheme isn't immune to intentional collisions, which can be
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* created by anyone able to create arbitrary plaintext filenames and view them
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* without the key. Making the "digest" be a real cryptographic hash like
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* SHA-256 over the full ciphertext would prevent this, although it would be
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* less efficient and harder to implement, especially since the filesystem would
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* need to calculate it for each directory entry examined during a search.
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*/
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struct fscrypt_digested_name {
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u32 hash;
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u32 minor_hash;
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u8 digest[FSCRYPT_FNAME_DIGEST_SIZE];
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};
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/**
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* fscrypt_match_name() - test whether the given name matches a directory entry
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* @fname: the name being searched for
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* @de_name: the name from the directory entry
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* @de_name_len: the length of @de_name in bytes
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*
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* Normally @fname->disk_name will be set, and in that case we simply compare
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* that to the name stored in the directory entry. The only exception is that
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* if we don't have the key for an encrypted directory and a filename in it is
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* very long, then we won't have the full disk_name and we'll instead need to
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* match against the fscrypt_digested_name.
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*
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* Return: %true if the name matches, otherwise %false.
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*/
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static inline bool fscrypt_match_name(const struct fscrypt_name *fname,
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const u8 *de_name, u32 de_name_len)
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{
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if (unlikely(!fname->disk_name.name)) {
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const struct fscrypt_digested_name *n =
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(const void *)fname->crypto_buf.name;
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if (WARN_ON_ONCE(fname->usr_fname->name[0] != '_'))
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return false;
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if (de_name_len <= FSCRYPT_FNAME_MAX_UNDIGESTED_SIZE)
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return false;
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return !memcmp(FSCRYPT_FNAME_DIGEST(de_name, de_name_len),
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n->digest, FSCRYPT_FNAME_DIGEST_SIZE);
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}
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if (de_name_len != fname->disk_name.len)
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return false;
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return !memcmp(de_name, fname->disk_name.name, fname->disk_name.len);
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}
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/* bio.c */
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extern void fscrypt_decrypt_bio_pages(struct fscrypt_ctx *, struct bio *);
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extern void fscrypt_pullback_bio_page(struct page **, bool);
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extern int fscrypt_zeroout_range(const struct inode *, pgoff_t, sector_t,
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unsigned int);
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#endif /* _LINUX_FSCRYPT_SUPP_H */
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