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| author | Kaz Kylheku <kaz@kylheku.com> | 2019-01-23 20:19:51 -0800 |
|---|---|---|
| committer | Kaz Kylheku <kaz@kylheku.com> | 2019-01-23 20:19:51 -0800 |
| commit | ea68a3bfa64a5e652ee45227d7aff1aba73c001b (patch) | |
| tree | e45a61cce808a4c70eb49e20d7d597c66fb52da2 | |
| parent | f4052d2d430083cee285c9cdb9ff8f67dab852ae (diff) | |
| download | txr-ea68a3bfa64a5e652ee45227d7aff1aba73c001b.tar.gz txr-ea68a3bfa64a5e652ee45227d7aff1aba73c001b.tar.bz2 txr-ea68a3bfa64a5e652ee45227d7aff1aba73c001b.zip | |
ffi: almost bug: 64 bit signed big/little endian type.
* ffi.c (ffi_be_i64_get, ffi_le_i64_get): The code here for 32
bit platforms is fishy: it is using the signed cnum type for
the low 32 bits, when that should be ucnum. We are actually
okay because ths code would only be executed on a platform
where cnum is 32 bits. We are saved by the fact that we are
doing left shifts (no sign extension), that shifting a 1 into
a sign bit is harmless on two's complement machines, and that
the lo32 value is ultimately passed to unum whereby it is
coerced to a ucnum argument type (which preserves the bit
representation) and prevents logior from seeing a negative
value.
| -rw-r--r-- | ffi.c | 8 |
1 files changed, 4 insertions, 4 deletions
@@ -975,8 +975,8 @@ static val ffi_be_i64_get(struct txr_ffi_type *tft, mem_t *src, val self) #else cnum hi32 = (convert(cnum, src[0]) << 24 | convert(cnum, src[1]) << 16 | convert(cnum, src[2]) << 8 | src[3]); - cnum lo32 = (convert(cnum, src[4]) << 24 | convert(cnum, src[5]) << 16 | - convert(cnum, src[6]) << 8 | src[7]); + ucnum lo32 = (convert(ucnum, src[4]) << 24 | convert(ucnum, src[5]) << 16 | + convert(ucnum, src[6]) << 8 | src[7]); return logior(ash(num(hi32), num_fast(32)), unum(lo32)); #endif } @@ -1089,8 +1089,8 @@ static val ffi_le_i64_get(struct txr_ffi_type *tft, mem_t *src, val self) #else cnum hi32 = (convert(cnum, src[3]) << 24 | convert(cnum, src[2]) << 16 | convert(cnum, src[1]) << 8 | src[0]); - cnum lo32 = (convert(cnum, src[3]) << 24 | convert(cnum, src[2]) << 16 | - convert(cnum, src[1]) << 8 | src[0]); + ucnum lo32 = (convert(ucnum, src[3]) << 24 | convert(ucnum, src[2]) << 16 | + convert(ucnum, src[1]) << 8 | src[0]); return logior(ash(num(hi32), num_fast(32)), unum(lo32)); #endif } |