chicken-xattr/xattr.scm

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;;
;; Copyright 2022, Jaidyn Levesque <jadedctrl@posteo.at>
;;
;; This program is free software: you can redistribute it and/or
;; modify it under the terms of the GNU General Public License as
;; published by the Free Software Foundation, either version 3 of
;; the License, or (at your option) any later version.
;;
;; This program is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;;
;; You should have received a copy of the GNU General Public License
;; along with this program. If not, see <https://www.gnu.org/licenses/>.
;;
(module xattr
(get-xattr set-xattr remove-xattr list-xattr)
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(import (chicken base) (chicken memory) srfi-1 scheme (chicken foreign) srfi-12)
(foreign-declare "#include \"xattr_ext.c\"")
;; The direct foreign binding for `get_xattr`
(define get-xattr-foreign
(foreign-lambda c-string* "get_xattr" c-string c-string (c-pointer int)))
;; Wrapper around get-xattr-foreign, which throws exceptions and such.
(define (get-xattr path attr)
(let-location ([error-code int])
(let ([attr-value (get-xattr-foreign path attr (location error-code))]
[exception (or (getxattr-exception error-code)
(stat-exception error-code))])
(if exception
(signal exception)
attr-value))))
;; The direct foreign binding for `list_xattr`
(define list-xattr-foreign
(foreign-lambda (c-pointer char) "list_xattr" c-string (c-pointer ssize_t) (c-pointer int)))
;; Wrapper around list-xattr-foreign, which throws exceptions and such.
(define (list-xattr path)
(let-location ([error-code int]
[length ssize_t])
(let ([list-pointer (list-xattr-foreign path (location length) (location error-code))]
[exception (or (getxattr-exception error-code)
(stat-exception error-code))])
(if exception
(signal exception)
;; listxattr offers a const char* \0-delimited list of strings
(pointer->delimited-string-list list-pointer length 0)))))
;; The direct foreign binding for `set_xattr`
(define set-xattr-foreign
(foreign-lambda int "set_xattr" c-string c-string c-string (c-pointer int)))
;; Wrapper around set-xattr-foreign, throwing exceptions and all that jazz
(define (set-xattr path attr value)
(let-location ([error-code int])
(let ([return-code (set-xattr-foreign path attr value (location error-code))]
[exception (or (setxattr-exception error-code)
(getxattr-exception error-code)
(stat-exception error-code))])
(if exception
(signal exception)
value))))
;; The direct foreign binding for `remove_xattr`
(define remove-xattr-foreign
(foreign-lambda int "remove_xattr" c-string c-string))
;; Wrapper around remove-xattr-foreign, blah blah
(define (remove-xattr path attr)
(let* ([error-code (remove-xattr-foreign path attr)]
[exception (or (getxattr-exception error-code)
(stat-exception error-code))])
(if exception
(signal exception)
attr)))
;; TODO: These exception functions should be constructed with a macro and a simple
;; list, like `((c-constant symbol error-message) ("E2BIG" 'e2big "The attribute value was too big."))
;; Unfortunately, it looks like chicken's macros work a good bit differently from CLs?
;; orr I'm losing my mind
;; Return the exception associated with an error-code as per getxattr(2), if it exists
(define (getxattr-exception error-code)
(cond
[(eq? error-code (foreign-value "E2BIG" int))
(build-exception 'e2big "The attribute value was too big.")]
[(eq? error-code (foreign-value "ENOTSUP" int))
(build-exception 'enotsup "Extended attributes are disabled or unavailable on this filesystem.")]
[(eq? error-code (foreign-value "ERANGE" int))
(build-exception 'erange "The xattr module's buffer was too small for the attribute value. Whoops <w<\"")]
[#t
#f]))
;; Return the exception associated with a setxattr(2) error-code, if it exists.
(define (setxattr-exception error-code)
(cond
[(eq? error-code (foreign-value "EDQUOT" int))
(build-exception 'edquot "Setting this attribute would violate disk quota.")]
[(eq? error-code (foreign-value "ENOSPC" int))
(build-exception 'enospc "There is insufficient space to store the extended attribute.")]
[(eq? error-code (foreign-value "EPERM" int))
(build-exception 'eperm "The file is immutable or append-only.")]
[(eq? error-code (foreign-value "ERANGE" int))
(build-exception 'erange "Either the attribute name or value exceeds the filesystem's limit.")]
[#t
#f]))
;; Return the exception associated with an error-code as per stat(2), if applicable
(define (stat-exception error-code)
(cond
[(eq? error-code (foreign-value "EACCES" int))
(build-exception 'file "Search permission denied for a parent directory.")]
[(eq? error-code (foreign-value "EBADF" int))
(build-exception 'file "The file-descriptor is bad. Wait, wha…?")]
[(eq? error-code (foreign-value "EFAULT" int))
(build-exception 'file "The address is bad. OK.")]
[(eq? error-code (foreign-value "EINVAL" int))
(build-exception 'file "Invalid fstatat flag.")]
[(eq? error-code (foreign-value "ELOOP" int))
(build-exception 'file "Too many symbolic links in recursion.")]
[(eq? error-code (foreign-value "ENAMETOOLONG" int))
(build-exception 'file "The given pathname is too long.")]
[(eq? error-code (foreign-value "ENOENT" int))
(build-exception 'file "This file doesn't exist, or there is a dangling symlink.")]
[(eq? error-code (foreign-value "ENOMEM" int))
(build-exception 'file "Out of memory.")]
[(eq? error-code (foreign-value "ENOTDIR" int))
(build-exception 'file "Component of path isn't a proper directory.")]
[(eq? error-code (foreign-value "EOVERFLOW" int))
(build-exception 'file "An overflow has occured.")]
[#t
#f]))
;; Creates a generic exception with given symbol and message
(define (build-exception symbol message)
(signal (make-property-condition 'exn 'location symbol 'message message)))
;; Some C functions offer up a string-list that isn't a two-dimensional array, but a
;; one-dimensional array with given length and strings separated by a given delimeter.
;; This takes that sort of pointer and gives you a nice list of strings.
(define (pointer->delimited-string-list pointer length delimiter)
(let* ([is-zero (lambda (num) (eq? num 0))]
[map-to-char (lambda (a) (map integer->char a))]
[byte-list (drop-right (pointer->integers pointer length) 1)])
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(map list->string
(map map-to-char
(split-list is-zero byte-list)))))
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;; Takes a pointer and returns a list of bytes of a given length
(define (pointer->integers pointer length)
(let ([byte (pointer-s8-ref pointer)])
(if (eq? length 0)
byte
(append (list byte)
(pointer->integers (pointer+ pointer 1) (- length 1))))))
;; Split a list into sublists, with items passing `test` being the delimiters
(define (split-list test list)
(let ([before (take-while (compose not test) list)]
[after (drop-while (compose not test) list)])
(cond
[(or (null-list? after) (null-list? (cdr after)))
`(,before)]
[(null-list? before)
(split-list test (cdr after))]
[#t
(append `(,before) (split-list test (cdr after)))])))
)