---
generator/rust.ml | 460 +++++++++++++++++++++++++++++++---------------
1 file changed, 310 insertions(+), 150 deletions(-)
diff --git a/generator/rust.ml b/generator/rust.ml
index d0add9b3d..f8ed20023 100644
--- a/generator/rust.ml
+++ b/generator/rust.ml
@@ -60,13 +60,15 @@ let generate_rust () =
pr "
use std::collections;
use std::convert;
+use std::convert::TryFrom;
use std::ffi;
-use std::slice;
+use std::os::raw::{c_char, c_int, c_void};
use std::ptr;
-use std::os::raw::{c_char, c_int};
+use std::slice;
+use std::str;
#[allow(non_camel_case_types)]
-enum guestfs_h {} // opaque struct
+enum guestfs_h {} // opaque struct
#[link(name = \"guestfs\")]
extern \"C\" {
@@ -77,6 +79,10 @@ extern \"C\" {
fn guestfs_last_errno(g: *mut guestfs_h) -> c_int;
}
+extern \"C\" {
+ fn free(buf: *const c_void);
+}
+
const GUESTFS_CREATE_NO_ENVIRONMENT: i64 = 1;
const GUESTFS_CREATE_NO_CLOSE_ON_EXIT: i64 = 2;
@@ -134,77 +140,136 @@ impl CreateFlags {
}
struct NullTerminatedIter<T: Copy + Clone> {
- p: *const T
+ p: *const *const T,
}
impl<T: Copy + Clone> NullTerminatedIter<T> {
- fn new(p: *const T) -> NullTerminatedIter<T> {
- NullTerminatedIter{ p }
+ fn new(p: *const *const T) -> NullTerminatedIter<T> {
+ NullTerminatedIter { p }
}
}
impl<T: Copy + Clone> Iterator for NullTerminatedIter<T> {
- type Item = T;
- fn next(&mut self) -> Option<T> {
- if self.p.is_null() {
+ type Item = *const T;
+ fn next(&mut self) -> Option<*const T> {
+ let r = unsafe { *(self.p) };
+ if r.is_null() {
None
} else {
- let r = unsafe { *(self.p) };
self.p = unsafe { self.p.offset(1) };
Some(r)
}
}
}
-fn arg_string_list (v: &Vec<String>) -> Vec<*const i8> {
- let length = v.len();
+#[repr(C)]
+struct RawList<T> {
+ size: u32,
+ ptr: *const T,
+}
+
+struct RawListIter<'a, T> {
+ current: u32,
+ list: &'a RawList<T>,
+}
+
+impl<T> RawList<T> {
+ fn iter<'a>(&'a self) -> RawListIter<'a, T> {
+ RawListIter {
+ current: 0,
+ list: self,
+ }
+ }
+}
+
+impl<'a, T> Iterator for RawListIter<'a, T> {
+ type Item = *const T;
+ fn next(&mut self) -> Option<*const T> {
+ if self.current >= self.list.size {
+ None
+ } else {
+ let elem = unsafe { self.list.ptr.offset(self.current as isize) };
+ self.current += 1;
+ Some(elem)
+ }
+ }
+}
+
+fn arg_string_list(v: &[&str]) -> Result<Vec<ffi::CString>, Error>
{
let mut w = Vec::new();
for x in v.iter() {
let y: &str = x;
- let s = ffi::CString::new(y).unwrap();
- w.push(s.as_ptr());
+ w.push(ffi::CString::new(y)?);
+ }
+ Ok(w)
+}
+
+fn free_string_list(l: *const *const c_char) {
+ for buf in NullTerminatedIter::new(l) {
+ unsafe { free(buf as * const c_void) };
}
- w.push(ptr::null());
- w
+ unsafe { free(l as *const c_void) };
}
-fn hashmap (l: *const *const c_char) -> collections::HashMap<String, String> {
+fn hashmap(l: *const *const c_char) -> Result<collections::HashMap<String,
String>, Error> {
let mut map = collections::HashMap::new();
let mut iter = NullTerminatedIter::new(l);
while let Some(key) = iter.next() {
if let Some(val) = iter.next() {
- let key = unsafe { ffi::CStr::from_ptr(key) }.to_str().unwrap();
- let val = unsafe { ffi::CStr::from_ptr(val) }.to_str().unwrap();
+ let key = unsafe { ffi::CStr::from_ptr(key) }.to_str()?;
+ let val = unsafe { ffi::CStr::from_ptr(val) }.to_str()?;
map.insert(key.to_string(), val.to_string());
} else {
+ // Internal Error -> panic
panic!(\"odd number of items in hash table\");
}
}
- map
+ Ok(map)
}
-fn struct_list<T, S: convert::From<*const T>>(l: *const *const T) ->
Vec<S> {
+fn struct_list<T, S: TryFrom<*const T, Error = Error>>(
+ l: *const RawList<T>,
+) -> Result<Vec<S>, Error> {
let mut v = Vec::new();
- for x in NullTerminatedIter::new(l) {
- v.push(S::from(x));
+ for x in unsafe { &*l }.iter() {
+ v.push(S::try_from(x)?);
}
- v
+ Ok(v)
}
-fn string_list (l: *const *const c_char) -> Vec<String> {
+fn string_list(l: *const *const c_char) -> Result<Vec<String>, Error> {
let mut v = Vec::new();
for x in NullTerminatedIter::new(l) {
- let s = unsafe { ffi::CStr::from_ptr(x) }.to_str().unwrap();
+ let s = unsafe { ffi::CStr::from_ptr(x) }.to_str()?;
v.push(s.to_string());
}
- v
+ Ok(v)
}
#[derive(Debug)]
-pub struct Error {
+pub struct APIError {
operation: &'static str,
message: String,
- errno: i32
+ errno: i32,
+}
+
+#[derive(Debug)]
+pub enum Error {
+ API(APIError),
+ IllegalString(ffi::NulError),
+ Utf8Error(str::Utf8Error),
+}
+
+impl convert::From<ffi::NulError> for Error {
+ fn from(error: ffi::NulError) -> Self {
+ Error::IllegalString(error)
+ }
+}
+
+impl convert::From<str::Utf8Error> for Error {
+ fn from(error: str::Utf8Error) -> Self {
+ Error::Utf8Error(error)
+ }
}
impl Handle {
@@ -229,13 +294,17 @@ impl Handle {
fn get_error_from_handle(&self, operation: &'static str) -> Error {
let c_msg = unsafe { guestfs_last_error(self.g) };
let message = unsafe { ffi::CStr::from_ptr(c_msg).to_str().unwrap().to_string()
};
- let errno = unsafe { guestfs_last_errno(self.g) } ;
- Error { operation, message, errno }
+ let errno = unsafe { guestfs_last_errno(self.g) };
+ Error::API(APIError {
+ operation,
+ message,
+ errno,
+ })
}
}
pub struct UUID {
- uuid: [u8; 32]
+ uuid: [u8; 32],
}
impl UUID {
@@ -282,22 +351,24 @@ impl UUID {
) cols;
pr "}\n";
pr "\n";
- pr "impl convert::From<*const Raw%s> for %s {\n" name name;
- pr " fn from(raw: *const Raw%s) -> Self {\n" name;
- pr " unsafe { %s {\n" name;
+ pr "impl TryFrom<*const Raw%s> for %s {\n" name name;
+ pr " type Error = Error;\n";
+ pr " fn try_from(raw: *const Raw%s) -> Result<Self, Self::Error>
{\n" name;
+ pr " Ok(unsafe {\n";
+ pr " %s {\n" name;
List.iter (
fun x ->
- indent 3;
+ indent 4;
match x with
| n, FChar ->
pr "%s: (*raw).%s as i8,\n" n n;
| n, FString ->
pr "%s: {\n" n;
- indent 4;
+ indent 5;
pr "let s = ffi::CStr::from_ptr((*raw).%s);\n" n;
+ indent 5;
+ pr "s.to_str()?.to_string()\n";
indent 4;
- pr "s.to_str().unwrap().to_string()\n";
- indent 3;
pr "},\n"
| n, FBuffer ->
pr "%s: slice::from_raw_parts((*raw).%s as *const u8,
(*raw).%s_len).to_vec(),\n" n n n
@@ -306,42 +377,128 @@ impl UUID {
| n, (FUInt32 | FInt32 | FUInt64 | FInt64 | FBytes) ->
pr "%s: (*raw).%s,\n" n n
| n, FOptPercent ->
- pr "%s: if (*raw).%s < 0.0 { None } else { Some((*raw).%s) },\n"
n n n
+ pr "%s: if (*raw).%s < 0.0 {\n" n n;
+ indent 4; pr " None\n";
+ indent 4; pr "} else {\n";
+ indent 4; pr " Some((*raw).%s)\n" n;
+ indent 4; pr"},\n"
) cols;
- pr " } }\n";
+ pr " }\n";
+ pr " })\n";
pr " }\n";
pr "}\n"
) external_structs;
+ (* generate free functionf of structs *)
+ pr "\n";
+ pr "extern \"C\" {\n";
+ List.iter (
+ fun { s_camel_name = name; s_name = c_name; } ->
+ pr " #[allow(dead_code)]\n";
+ pr " fn guestfs_free_%s(v: *const Raw%s);\n" c_name name;
+ pr " #[allow(dead_code)]\n";
+ pr " fn guestfs_free_%s_list(l: *const RawList<Raw%s>);\n"
c_name name;
+ ) external_structs;
+ pr "}\n";
+
+ (* [Outline] There are three types for each optional structs: SOptArgs,
+ * CExprSOptArgs, RawSOptArgs.
+ * SOptArgs: for Rust bindings' API. This can be seen by bindings' users.
+ * CExprSOptArgs: Each field has C expression(e.g. CString, *const c_char)
+ * RawSOptArgs: Each field has raw pointers or integer values
+ *
+ * SOptArgs ---try_into()---> CExprSOptArgs ---to_raw()---> RawSOptArgs
+ *
+ * Note: direct translation from SOptArgs to RawSOptArgs will cause a memory
+ * management problem. Using into_raw/from_raw, this problem can be avoided,
+ * but it is complex to handle freeing memories manually in Rust because of
+ * panic/?/etc.
+ *)
+ (* generate structs for optional arguments *)
List.iter (
fun ({ name = name; shortdesc = shortdesc;
style = (ret, args, optargs) }) ->
let cname = snake2caml name in
+ let rec contains_ptr args = match args with
+ | [] -> false
+ | OString _ ::_
+ | OStringList _::_ -> true
+ | _::xs -> contains_ptr xs
+ in
+ let opt_life_parameter = if contains_ptr optargs then "<'a>"
else "" in
if optargs <> [] then (
pr "\n";
pr "/* Optional Structs */\n";
pr "#[derive(Default)]\n";
- pr "pub struct OptArgs%s {\n" cname;
+ pr "pub struct %sOptArgs%s {\n" cname opt_life_parameter;
List.iter (
fun optarg ->
let n = translate_bad_symbols (name_of_optargt optarg) in
match optarg with
| OBool _ ->
- pr " _%s: Option<bool>,\n" n
+ pr " pub %s: Option<bool>,\n" n
| OInt _ ->
- pr " _%s: Option<i32>,\n" n
+ pr " pub %s: Option<i32>,\n" n
+ | OInt64 _ ->
+ pr " pub %s: Option<i64>,\n" n
+ | OString _ ->
+ pr " pub %s: Option<&'a str>,\n" n
+ | OStringList _ ->
+ pr " pub %s: Option<&'a [&'a str]>,\n"
n
+ ) optargs;
+ pr "}\n\n";
+
+ pr "struct CExpr%sOptArgs {\n" cname;
+ List.iter (
+ fun optarg ->
+ let n = translate_bad_symbols (name_of_optargt optarg) in
+ match optarg with
+ | OBool _ | OInt _ ->
+ pr " %s: Option<c_int>,\n" n
| OInt64 _ ->
- pr " _%s: Option<i64>,\n" n
+ pr " %s: Option<i64>,\n" n
| OString _ ->
- pr " _%s: Option<String>,\n" n
+ pr " %s: Option<ffi::CString>,\n" n
| OStringList _ ->
- pr " _%s: Option<Vec<String>>,\n" n
+ (* buffers and their pointer vector *)
+ pr " %s: Option<(Vec<ffi::CString>, Vec<*const
c_char>)>,\n" n
) optargs;
pr "}\n\n";
+ pr "impl%s TryFrom<%sOptArgs%s> for CExpr%sOptArgs {\n"
+ opt_life_parameter cname opt_life_parameter cname;
+ pr " type Error = Error;\n";
+ pr " fn try_from(optargs: %sOptArgs%s) -> Result<Self,
Self::Error> {\n" cname opt_life_parameter;
+ pr " Ok(CExpr%sOptArgs {\n" cname;
+ List.iteri (
+ fun index optarg ->
+ let n = translate_bad_symbols (name_of_optargt optarg) in
+ match optarg with
+ | OBool _ ->
+ pr " %s: optargs.%s.map(|b| if b { 1 } else { 0 }),\n" n
n;
+ | OInt _ | OInt64 _ ->
+ pr " %s: optargs.%s, \n" n n;
+ | OString _ ->
+ pr " %s: optargs.%s.map(|v|
ffi::CString::new(v)).transpose()?,\n" n n;
+ | OStringList _ ->
+ pr " %s: optargs.%s.map(\n" n n;
+ pr " |v| Ok::<_, Error>({\n";
+ pr " let v = arg_string_list(v)?;\n";
+ pr " let mut w =
(&v).into_iter()\n";
+ pr " .map(|v|
v.as_ptr())\n";
+ pr "
.collect::<Vec<_>>();\n";
+ pr " w.push(ptr::null());\n";
+ pr " (v, w)\n";
+ pr " })\n";
+ pr " ).transpose()?,\n";
+ ) optargs;
+ pr " })\n";
+ pr " }\n";
+ pr "}\n";
+
(* raw struct for C bindings *)
pr "#[repr(C)]\n";
- pr "struct RawOptArgs%s {\n" cname;
+ pr "struct Raw%sOptArgs {\n" cname;
pr " bitmask: u64,\n";
List.iter (
fun optarg ->
@@ -360,40 +517,33 @@ impl UUID {
) optargs;
pr "}\n\n";
- pr "impl convert::From<OptArgs%s> for RawOptArgs%s {\n" cname
cname;
- pr " fn from(optargs: OptArgs%s) -> Self {\n" cname;
+ pr "impl convert::From<&CExpr%sOptArgs> for Raw%sOptArgs
{\n"
+ cname cname;
+ pr " fn from(optargs: &CExpr%sOptArgs) -> Self {\n" cname;
pr " let mut bitmask = 0;\n";
- pr " RawOptArgs%s {\n" cname;
+ pr " Raw%sOptArgs {\n" cname;
List.iteri (
fun index optarg ->
let n = translate_bad_symbols (name_of_optargt optarg) in
match optarg with
- | OBool _ ->
- pr " %s: if let Some(v) = optargs._%s {\n" n n;
- pr " bitmask |= 1 << %d;\n" index;
- pr " if v { 1 } else { 0 }\n";
- pr " } else {\n";
- pr " 0\n";
- pr " },\n";
- | OInt _ | OInt64 _ ->
- pr " %s: if let Some(v) = optargs._%s {\n" n n;
+ | OBool _ | OInt _ | OInt64 _ ->
+ pr " %s: if let Some(v) = optargs.%s {\n" n n;
pr " bitmask |= 1 << %d;\n" index;
pr " v\n";
pr " } else {\n";
pr " 0\n";
pr " },\n";
| OString _ ->
- pr " %s: if let Some(v) = optargs._%s {\n" n n;
+ pr " %s: if let Some(ref v) = optargs.%s {\n" n n;
pr " bitmask |= 1 << %d;\n" index;
- pr " let y: &str = &v;\n";
- pr " ffi::CString::new(y).unwrap().as_ptr()\n";
+ pr " v.as_ptr()\n";
pr " } else {\n";
pr " ptr::null()\n";
pr " },\n";
| OStringList _ ->
- pr " %s: if let Some(v) = optargs._%s {\n" n n;
+ pr " %s: if let Some((_, ref v)) = optargs.%s {\n" n n;
pr " bitmask |= 1 << %d;\n" index;
- pr " arg_string_list(&v).as_ptr()";
+ pr " v.as_ptr()\n";
pr " } else {\n";
pr " ptr::null()\n";
pr " },\n";
@@ -402,29 +552,6 @@ impl UUID {
pr " }\n";
pr " }\n";
pr "}\n";
-
- pr "impl OptArgs%s {\n" cname;
- List.iter (
- fun optarg ->
- let n = translate_bad_symbols (name_of_optargt optarg) in
- pr " pub fn %s(self, %s: " n n;
- (match optarg with
- | OBool _ ->
- pr "bool"
- | OInt _ ->
- pr "i32"
- | OInt64 _ ->
- pr "i64"
- | OString _ ->
- pr "String"
- | OStringList _ ->
- pr "Vec<String>"
- );
- pr ") -> OptArgs%s {\n" cname;
- pr " OptArgs%s { _%s: Some(%s), ..self }\n" cname n n;
- pr " }\n"
- ) optargs;
- pr "}\n\n";
);
) (actions |> external_functions |> sort);
@@ -434,7 +561,8 @@ impl UUID {
fun ({ name = name; shortdesc = shortdesc;
style = (ret, args, optargs) } as f) ->
let cname = snake2caml name in
- pr "fn %s(g: *const guestfs_h" f.c_function;
+ pr " #[allow(non_snake_case)]\n";
+ pr " fn %s(g: *const guestfs_h" f.c_function;
List.iter (
fun arg ->
pr ", ";
@@ -453,7 +581,7 @@ impl UUID {
| _ -> ()
);
if optargs <> [] then
- pr ", optarg: *const RawOptArgs%s" cname;
+ pr ", optarg: *const Raw%sOptArgs" cname;
pr ") -> ";
@@ -468,7 +596,7 @@ impl UUID {
pr "*const Raw%s" n
| RStructList (_, n) ->
let n = camel_name_of_struct n in
- pr "*const *const Raw%s" n
+ pr "*const RawList<Raw%s>" n
);
pr ";\n";
@@ -478,14 +606,16 @@ impl UUID {
pr "impl Handle {\n";
List.iter (
- fun ({ name = name; shortdesc = shortdesc;
+ fun ({ name = name; shortdesc = shortdesc; longdesc = longdesc;
style = (ret, args, optargs) } as f) ->
let cname = snake2caml name in
- pr " /// %s \n" shortdesc;
+ pr " /// %s\n" shortdesc;
+ pr " #[allow(non_snake_case)]\n";
pr " pub fn %s" name;
(* generate arguments *)
pr "(&self, ";
+
let comma = ref false in
List.iter (
fun arg ->
@@ -495,16 +625,16 @@ impl UUID {
| Bool n -> pr "%s: bool" n
| Int n -> pr "%s: i32" n
| Int64 n -> pr "%s: i64" n
- | String (_, n) -> pr "%s: String" n
- | OptString n -> pr "%s: Option<String>" n
- | StringList (_, n) -> pr "%s: Vec<String>" n
- | BufferIn n -> pr "%s: Vec<u8>" n
- | Pointer (_, n) -> pr "%s: usize" n
+ | String (_, n) -> pr "%s: &str" n
+ | OptString n -> pr "%s: Option<&str>" n
+ | StringList (_, n) -> pr "%s: &[&str]" n
+ | BufferIn n -> pr "%s: &[u8]" n
+ | Pointer (_, n) -> pr "%s: *mut c_void" n
) args;
if optargs <> [] then (
if !comma then pr ", ";
comma := true;
- pr "optargs: OptArgs%s" cname
+ pr "optargs: %sOptArgs" cname
);
pr ")";
@@ -529,45 +659,37 @@ impl UUID {
| RBufferOut _ -> pr "Vec<u8>");
pr ", Error> {\n";
+
let _pr = pr in
let pr fs = indent 2; pr fs in
List.iter (
function
| Bool n ->
- pr "let c_%s = if %s { 1 } else { 0 };\n" n n
+ pr "let %s = if %s { 1 } else { 0 };\n" n n
| String (_, n) ->
- (* TODO: handle errors *)
- pr "let c_%s = \n" n;
- pr " ffi::CString::new(%s).expect(\"CString::new
failed\").as_ptr();\n" n;
+ pr "let c_%s = ffi::CString::new(%s)?;\n" n n;
| OptString n ->
- pr "let c_%s = match %s {" n n;
- pr " Some(s) => \n";
- pr " ffi::CString::new(s)\n";
- pr " .expect(\"CString::new failed\")\n";
- pr " .as_ptr(),\n";
- pr " None => ptr::null(),\n";
- pr "};\n";
+ pr "let c_%s = %s.map(|s| ffi::CString::new(s)).transpose()?;\n" n
n;
| StringList (_, n) ->
- pr "let c_%s = arg_string_list(&%s).as_ptr();\n" n n;
+ pr "let c_%s_v = arg_string_list(%s)?;\n" n n;
+ pr "let mut c_%s = (&c_%s_v).into_iter().map(|v|
v.as_ptr()).collect::<Vec<_>>();\n" n n;
+ pr "c_%s.push(ptr::null());\n" n;
| BufferIn n ->
- pr "let c_%s_len = (&%s).len();\n" n n;
- pr "let c_%s = ffi::CString::new(%s)\n" n n;
- pr " .expect(\"CString::new failed\")\n";
- pr " .as_ptr();\n";
+ pr "let c_%s_len = %s.len();\n" n n;
+ pr "let c_%s = unsafe {
ffi::CString::from_vec_unchecked(%s.to_vec())};\n" n n;
| Int _ | Int64 _ | Pointer _ -> ()
) args;
- (* TODO: handle optargs *)
- if optargs <> [] then (
- pr "let optargs_raw = RawOptArgs%s::from(optargs);\n" cname;
- );
-
(match ret with
| RBufferOut _ ->
pr "let mut size = 0usize;\n"
| _ -> ()
);
+ if optargs <> [] then (
+ pr "let optargs_cexpr = CExpr%sOptArgs::try_from(optargs)?;\n" cname;
+ );
+
pr "\n";
pr "let r = unsafe { %s(self.g" f.c_function;
@@ -576,18 +698,19 @@ impl UUID {
fun arg ->
pr ", ";
match arg with
- | Bool n | String (_, n) | OptString n -> pr "c_%s" n
- | Int n | Int64 n -> pr "%s" n
- | Pointer _ -> pr "ptr::null()" (* XXX: what is pointer? *)
- | StringList (_, n) -> pr "c_%s as *const *const c_char" n
- | BufferIn n -> pr "c_%s, c_%s_len" n n
+ | String (_, n) -> pr "(&c_%s).as_ptr()" n
+ | OptString n -> pr "match &c_%s { Some(ref s) => s.as_ptr(),
None => ptr::null() }\n" n
+ | StringList (_, n) -> pr "(&c_%s).as_ptr() as *const *const
c_char" n
+ | Bool n | Int n | Int64 n | Pointer (_, n) -> pr "%s" n
+ | BufferIn n -> pr "(&c_%s).as_ptr(), c_%s_len" n n
) args;
(match ret with
- | RBufferOut _ -> pr ", &size as *const usize"
+ | RBufferOut _ -> pr ", &mut size as *mut usize"
| _ -> ()
);
if optargs <> [] then (
- pr ", &optargs_raw as *const RawOptArgs%s" cname;
+ pr ", &(Raw%sOptArgs::from(&optargs_cexpr)) as *const
Raw%sOptArgs"
+ cname cname;
);
pr ") };\n";
@@ -597,48 +720,85 @@ impl UUID {
| `CannotReturnError -> ()
| `ErrorIsMinusOne ->
pr "if r == -1 {\n";
- pr " return Err(self.get_error_from_handle (\"%s\"));\n"
name;
+ pr " return Err(self.get_error_from_handle(\"%s\"));\n"
name;
pr "}\n"
| `ErrorIsNULL ->
pr "if r.is_null() {\n";
- pr " return Err(self.get_error_from_handle (\"%s\"));\n"
name;
+ pr " return Err(self.get_error_from_handle(\"%s\"));\n"
name;
pr "}\n"
);
+
+ (* This part is not required, but type system will guarantee that
+ * the buffers are still alive. This is useful because Rust cannot
+ * know whether raw pointers used above are alive or not.
+ *)
+ List.iter (
+ function
+ | Bool _ | Int _ | Int64 _ | Pointer _ -> ()
+ | String (_, n)
+ | OptString n
+ | BufferIn n -> pr "drop(c_%s);\n" n;
+ | StringList (_, n) ->
+ pr "drop(c_%s);\n" n;
+ pr "drop(c_%s_v);\n" n;
+ ) args;
+ if optargs <> [] then (
+ pr "drop(optargs_cexpr);\n";
+ );
+
pr "Ok(";
let pr = _pr in
+ let pr3 fs = indent 3; pr fs in
(match ret with
| RErr -> pr "()"
| RInt _ | RInt64 _ -> pr "r"
| RBool _ -> pr "r != 0"
| RConstString _ ->
- pr "unsafe{ ffi::CStr::from_ptr(r) }.to_str().unwrap()\n"
+ pr "unsafe{ ffi::CStr::from_ptr(r) }.to_str()?"
| RString _ ->
- (* TODO: free r *)
- pr "unsafe { ffi::CStr::from_ptr(r) }.to_str().unwrap().to_string()"
+ pr "{\n";
+ pr3 "let s = unsafe { ffi::CStr::from_ptr(r) };\n";
+ pr3 "unsafe { free(r as *const c_void) };\n";
+ pr3 "s.to_str()?.to_string()\n";
+ indent 2; pr "}";
| RConstOptString _ ->
- (* TODO: free ? not? *)
- indent 3; pr "if r.is_null() {\n";
- indent 3; pr " None\n";
- indent 3; pr "} else {\n";
- indent 3; pr " Some(unsafe { ffi::CStr::from_ptr(r)
}.to_str().unwrap())\n";
- indent 3; pr "}";
+ pr "if r.is_null() {\n";
+ pr3 "None\n";
+ indent 2; pr "} else {\n";
+ pr3 "Some(unsafe { ffi::CStr::from_ptr(r) }.to_str()?)\n";
+ indent 2; pr "}";
| RStringList _ ->
- (* TODO: free r *)
- pr "string_list(r)"
+ pr "{\n";
+ pr3 "let s = string_list(r);\n";
+ pr3 "free_string_list(r);\n";
+ pr3 "s?\n";
+ indent 2; pr "}";
| RStruct (_, n) ->
- (* TODO: free r *)
- let n = camel_name_of_struct n in
- pr "%s::from(r)" n
+ let sn = camel_name_of_struct n in
+ pr "{\n";
+ pr3 "let s = %s::try_from(r);\n" sn;
+ pr3 "unsafe { guestfs_free_%s(r) };\n" n;
+ pr3 "s?\n";
+ indent 2; pr "}";
| RStructList (_, n) ->
- (* TODO: free r *)
- let n = camel_name_of_struct n in
- pr "struct_list::<Raw%s, %s>(r)" n n
+ let sn = camel_name_of_struct n in
+ pr "{\n";
+ pr3 "let l = struct_list::<Raw%s, %s>(r);\n" sn sn;
+ pr3 "unsafe { guestfs_free_%s_list(r) };\n" n;
+ pr3 "l?\n";
+ indent 2; pr "}";
| RHashtable _ ->
- (* TODO: free r *)
- pr "hashmap(r)"
+ pr "{\n";
+ pr3 "let h = hashmap(r);\n";
+ pr3 "free_string_list(r);\n";
+ pr3 "h?\n";
+ indent 2; pr "}";
| RBufferOut _ ->
- (* TODO: free r *)
- pr "unsafe { slice::from_raw_parts(r, size) }.to_vec()"
+ pr "{\n";
+ pr3 "let s = unsafe { slice::from_raw_parts(r, size) }.to_vec();\n";
+ pr3 "unsafe { free(r as *const c_void) } ;\n";
+ pr3 "s\n";
+ indent 2; pr "}";
);
pr ")\n";
pr " }\n\n"
--
2.20.1 (Apple Git-117)