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6cc248684d
Make various improvements to fscrypt dentry revalidation: - Don't try to handle the case where the per-directory key is removed, as this can't happen without the inode (and dentries) being evicted. - Flag ciphertext dentries rather than plaintext dentries, since it's ciphertext dentries that need the special handling. - Avoid doing unnecessary work for non-ciphertext dentries. - When revalidating ciphertext dentries, try to set up the directory's i_crypt_info to make sure the key is really still absent, rather than invalidating all negative dentries as the previous code did. An old comment suggested we can't do this for locking reasons, but AFAICT this comment was outdated and it actually works fine. Signed-off-by: Eric Biggers <ebiggers@google.com> Signed-off-by: Theodore Ts'o <tytso@mit.edu>
272 lines
7.4 KiB
C
272 lines
7.4 KiB
C
/*
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* fs/crypto/hooks.c
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*
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* Encryption hooks for higher-level filesystem operations.
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*/
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#include <linux/ratelimit.h>
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#include "fscrypt_private.h"
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/**
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* fscrypt_file_open - prepare to open a possibly-encrypted regular file
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* @inode: the inode being opened
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* @filp: the struct file being set up
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*
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* Currently, an encrypted regular file can only be opened if its encryption key
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* is available; access to the raw encrypted contents is not supported.
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* Therefore, we first set up the inode's encryption key (if not already done)
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* and return an error if it's unavailable.
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*
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* We also verify that if the parent directory (from the path via which the file
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* is being opened) is encrypted, then the inode being opened uses the same
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* encryption policy. This is needed as part of the enforcement that all files
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* in an encrypted directory tree use the same encryption policy, as a
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* protection against certain types of offline attacks. Note that this check is
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* needed even when opening an *unencrypted* file, since it's forbidden to have
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* an unencrypted file in an encrypted directory.
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*
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* Return: 0 on success, -ENOKEY if the key is missing, or another -errno code
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*/
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int fscrypt_file_open(struct inode *inode, struct file *filp)
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{
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int err;
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struct dentry *dir;
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err = fscrypt_require_key(inode);
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if (err)
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return err;
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dir = dget_parent(file_dentry(filp));
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if (IS_ENCRYPTED(d_inode(dir)) &&
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!fscrypt_has_permitted_context(d_inode(dir), inode)) {
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fscrypt_warn(inode->i_sb,
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"inconsistent encryption contexts: %lu/%lu",
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d_inode(dir)->i_ino, inode->i_ino);
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err = -EPERM;
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}
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dput(dir);
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return err;
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}
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EXPORT_SYMBOL_GPL(fscrypt_file_open);
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int __fscrypt_prepare_link(struct inode *inode, struct inode *dir)
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{
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int err;
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err = fscrypt_require_key(dir);
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if (err)
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return err;
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if (!fscrypt_has_permitted_context(dir, inode))
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return -EXDEV;
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return 0;
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}
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EXPORT_SYMBOL_GPL(__fscrypt_prepare_link);
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int __fscrypt_prepare_rename(struct inode *old_dir, struct dentry *old_dentry,
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struct inode *new_dir, struct dentry *new_dentry,
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unsigned int flags)
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{
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int err;
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err = fscrypt_require_key(old_dir);
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if (err)
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return err;
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err = fscrypt_require_key(new_dir);
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if (err)
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return err;
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if (old_dir != new_dir) {
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if (IS_ENCRYPTED(new_dir) &&
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!fscrypt_has_permitted_context(new_dir,
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d_inode(old_dentry)))
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return -EXDEV;
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if ((flags & RENAME_EXCHANGE) &&
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IS_ENCRYPTED(old_dir) &&
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!fscrypt_has_permitted_context(old_dir,
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d_inode(new_dentry)))
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return -EXDEV;
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}
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return 0;
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}
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EXPORT_SYMBOL_GPL(__fscrypt_prepare_rename);
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int __fscrypt_prepare_lookup(struct inode *dir, struct dentry *dentry)
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{
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int err = fscrypt_get_encryption_info(dir);
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if (err)
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return err;
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if (!fscrypt_has_encryption_key(dir)) {
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spin_lock(&dentry->d_lock);
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dentry->d_flags |= DCACHE_ENCRYPTED_NAME;
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spin_unlock(&dentry->d_lock);
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}
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d_set_d_op(dentry, &fscrypt_d_ops);
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return 0;
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}
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EXPORT_SYMBOL_GPL(__fscrypt_prepare_lookup);
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int __fscrypt_prepare_symlink(struct inode *dir, unsigned int len,
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unsigned int max_len,
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struct fscrypt_str *disk_link)
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{
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int err;
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/*
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* To calculate the size of the encrypted symlink target we need to know
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* the amount of NUL padding, which is determined by the flags set in
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* the encryption policy which will be inherited from the directory.
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* The easiest way to get access to this is to just load the directory's
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* fscrypt_info, since we'll need it to create the dir_entry anyway.
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*
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* Note: in test_dummy_encryption mode, @dir may be unencrypted.
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*/
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err = fscrypt_get_encryption_info(dir);
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if (err)
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return err;
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if (!fscrypt_has_encryption_key(dir))
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return -ENOKEY;
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/*
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* Calculate the size of the encrypted symlink and verify it won't
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* exceed max_len. Note that for historical reasons, encrypted symlink
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* targets are prefixed with the ciphertext length, despite this
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* actually being redundant with i_size. This decreases by 2 bytes the
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* longest symlink target we can accept.
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*
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* We could recover 1 byte by not counting a null terminator, but
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* counting it (even though it is meaningless for ciphertext) is simpler
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* for now since filesystems will assume it is there and subtract it.
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*/
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if (!fscrypt_fname_encrypted_size(dir, len,
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max_len - sizeof(struct fscrypt_symlink_data),
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&disk_link->len))
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return -ENAMETOOLONG;
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disk_link->len += sizeof(struct fscrypt_symlink_data);
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disk_link->name = NULL;
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return 0;
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}
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EXPORT_SYMBOL_GPL(__fscrypt_prepare_symlink);
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int __fscrypt_encrypt_symlink(struct inode *inode, const char *target,
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unsigned int len, struct fscrypt_str *disk_link)
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{
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int err;
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struct qstr iname = QSTR_INIT(target, len);
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struct fscrypt_symlink_data *sd;
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unsigned int ciphertext_len;
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err = fscrypt_require_key(inode);
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if (err)
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return err;
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if (disk_link->name) {
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/* filesystem-provided buffer */
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sd = (struct fscrypt_symlink_data *)disk_link->name;
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} else {
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sd = kmalloc(disk_link->len, GFP_NOFS);
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if (!sd)
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return -ENOMEM;
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}
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ciphertext_len = disk_link->len - sizeof(*sd);
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sd->len = cpu_to_le16(ciphertext_len);
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err = fname_encrypt(inode, &iname, sd->encrypted_path, ciphertext_len);
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if (err) {
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if (!disk_link->name)
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kfree(sd);
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return err;
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}
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/*
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* Null-terminating the ciphertext doesn't make sense, but we still
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* count the null terminator in the length, so we might as well
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* initialize it just in case the filesystem writes it out.
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*/
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sd->encrypted_path[ciphertext_len] = '\0';
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if (!disk_link->name)
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disk_link->name = (unsigned char *)sd;
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return 0;
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}
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EXPORT_SYMBOL_GPL(__fscrypt_encrypt_symlink);
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/**
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* fscrypt_get_symlink - get the target of an encrypted symlink
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* @inode: the symlink inode
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* @caddr: the on-disk contents of the symlink
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* @max_size: size of @caddr buffer
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* @done: if successful, will be set up to free the returned target
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*
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* If the symlink's encryption key is available, we decrypt its target.
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* Otherwise, we encode its target for presentation.
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*
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* This may sleep, so the filesystem must have dropped out of RCU mode already.
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*
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* Return: the presentable symlink target or an ERR_PTR()
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*/
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const char *fscrypt_get_symlink(struct inode *inode, const void *caddr,
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unsigned int max_size,
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struct delayed_call *done)
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{
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const struct fscrypt_symlink_data *sd;
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struct fscrypt_str cstr, pstr;
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int err;
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/* This is for encrypted symlinks only */
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if (WARN_ON(!IS_ENCRYPTED(inode)))
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return ERR_PTR(-EINVAL);
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/*
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* Try to set up the symlink's encryption key, but we can continue
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* regardless of whether the key is available or not.
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*/
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err = fscrypt_get_encryption_info(inode);
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if (err)
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return ERR_PTR(err);
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/*
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* For historical reasons, encrypted symlink targets are prefixed with
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* the ciphertext length, even though this is redundant with i_size.
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*/
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if (max_size < sizeof(*sd))
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return ERR_PTR(-EUCLEAN);
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sd = caddr;
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cstr.name = (unsigned char *)sd->encrypted_path;
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cstr.len = le16_to_cpu(sd->len);
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if (cstr.len == 0)
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return ERR_PTR(-EUCLEAN);
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if (cstr.len + sizeof(*sd) - 1 > max_size)
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return ERR_PTR(-EUCLEAN);
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err = fscrypt_fname_alloc_buffer(inode, cstr.len, &pstr);
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if (err)
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return ERR_PTR(err);
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err = fscrypt_fname_disk_to_usr(inode, 0, 0, &cstr, &pstr);
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if (err)
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goto err_kfree;
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err = -EUCLEAN;
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if (pstr.name[0] == '\0')
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goto err_kfree;
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pstr.name[pstr.len] = '\0';
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set_delayed_call(done, kfree_link, pstr.name);
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return pstr.name;
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err_kfree:
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kfree(pstr.name);
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return ERR_PTR(err);
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}
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EXPORT_SYMBOL_GPL(fscrypt_get_symlink);
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