wasmer/spectests/binary.wast

(module binary "\00asm\01\00\00\00")
(module binary "\00asm" "\01\00\00\00")
(module $M1 binary "\00asm\01\00\00\00")
(module $M2 binary "\00asm" "\01\00\00\00")

(assert_malformed (module binary "") "unexpected end")
(assert_malformed (module binary "\01") "unexpected end")
(assert_malformed (module binary "\00as") "unexpected end")
(assert_malformed (module binary "asm\00") "magic header not detected")
(assert_malformed (module binary "msa\00") "magic header not detected")
(assert_malformed (module binary "msa\00\01\00\00\00") "magic header not detected")
(assert_malformed (module binary "msa\00\00\00\00\01") "magic header not detected")
(assert_malformed (module binary "asm\01\00\00\00\00") "magic header not detected")
(assert_malformed (module binary "wasm\01\00\00\00") "magic header not detected")
(assert_malformed (module binary "\7fasm\01\00\00\00") "magic header not detected")
(assert_malformed (module binary "\80asm\01\00\00\00") "magic header not detected")
(assert_malformed (module binary "\82asm\01\00\00\00") "magic header not detected")
(assert_malformed (module binary "\ffasm\01\00\00\00") "magic header not detected")

;; 8-byte endian-reversed.
(assert_malformed (module binary "\00\00\00\01msa\00") "magic header not detected")

;; Middle-endian byte orderings.
(assert_malformed (module binary "a\00ms\00\01\00\00") "magic header not detected")
(assert_malformed (module binary "sm\00a\00\00\01\00") "magic header not detected")

;; Upper-cased.
(assert_malformed (module binary "\00ASM\01\00\00\00") "magic header not detected")

;; EBCDIC-encoded magic.
(assert_malformed (module binary "\00\81\a2\94\01\00\00\00") "magic header not detected")

;; Leading UTF-8 BOM.
(assert_malformed (module binary "\ef\bb\bf\00asm\01\00\00\00") "magic header not detected")

(assert_malformed (module binary "\00asm") "unexpected end")
(assert_malformed (module binary "\00asm\01") "unexpected end")
(assert_malformed (module binary "\00asm\01\00\00") "unexpected end")
(assert_malformed (module binary "\00asm\00\00\00\00") "unknown binary version")
(assert_malformed (module binary "\00asm\0d\00\00\00") "unknown binary version")
(assert_malformed (module binary "\00asm\0e\00\00\00") "unknown binary version")
(assert_malformed (module binary "\00asm\00\01\00\00") "unknown binary version")
(assert_malformed (module binary "\00asm\00\00\01\00") "unknown binary version")
(assert_malformed (module binary "\00asm\00\00\00\01") "unknown binary version")

;; Unsigned LEB128 can have non-minimal length
(module binary
  "\00asm" "\01\00\00\00"
  "\05\04\01"                          ;; Memory section with 1 entry
  "\00\82\00"                          ;; no max, minimum 2
)
(module binary
  "\00asm" "\01\00\00\00"
  "\05\07\01"                          ;; Memory section with 1 entry
  "\00\82\80\80\80\00"                 ;; no max, minimum 2
)

;; Signed LEB128 can have non-minimal length
(module binary
  "\00asm" "\01\00\00\00"
  "\06\07\01"                          ;; Global section with 1 entry
  "\7f\00"                             ;; i32, immutable
  "\41\80\00"                          ;; i32.const 0
  "\0b"                                ;; end
)
(module binary
  "\00asm" "\01\00\00\00"
  "\06\07\01"                          ;; Global section with 1 entry
  "\7f\00"                             ;; i32, immutable
  "\41\ff\7f"                          ;; i32.const -1
  "\0b"                                ;; end
)
(module binary
  "\00asm" "\01\00\00\00"
  "\06\0a\01"                          ;; Global section with 1 entry
  "\7f\00"                             ;; i32, immutable
  "\41\80\80\80\80\00"                 ;; i32.const 0
  "\0b"                                ;; end
)
(module binary
  "\00asm" "\01\00\00\00"
  "\06\0a\01"                          ;; Global section with 1 entry
  "\7f\00"                             ;; i32, immutable
  "\41\ff\ff\ff\ff\7f"                 ;; i32.const -1
  "\0b"                                ;; end
)

(module binary
  "\00asm" "\01\00\00\00"
  "\06\07\01"                          ;; Global section with 1 entry
  "\7e\00"                             ;; i64, immutable
  "\42\80\00"                          ;; i64.const 0 with unused bits set
  "\0b"                                ;; end
)
(module binary
  "\00asm" "\01\00\00\00"
  "\06\07\01"                          ;; Global section with 1 entry
  "\7e\00"                             ;; i64, immutable
  "\42\ff\7f"                          ;; i64.const -1 with unused bits unset
  "\0b"                                ;; end
)
(module binary
  "\00asm" "\01\00\00\00"
  "\06\0f\01"                          ;; Global section with 1 entry
  "\7e\00"                             ;; i64, immutable
  "\42\80\80\80\80\80\80\80\80\80\00"  ;; i64.const 0 with unused bits set
  "\0b"                                ;; end
)
(module binary
  "\00asm" "\01\00\00\00"
  "\06\0f\01"                          ;; Global section with 1 entry
  "\7e\00"                             ;; i64, immutable
  "\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\7f"  ;; i64.const -1 with unused bits unset
  "\0b"                                ;; end
)

;; Data segment memory index can have non-minimal length
(module binary
  "\00asm" "\01\00\00\00"
  "\05\03\01"                          ;; Memory section with 1 entry
  "\00\00"                             ;; no max, minimum 0
  "\0b\07\01"                          ;; Data section with 1 entry
  "\80\00"                             ;; Memory index 0, encoded with 2 bytes
  "\41\00\0b\00"                       ;; (i32.const 0) with contents ""
)

;; Element segment table index can have non-minimal length
(module binary
  "\00asm" "\01\00\00\00"
  "\04\04\01"                          ;; Table section with 1 entry
  "\70\00\00"                          ;; no max, minimum 0, anyfunc
  "\09\07\01"                          ;; Element section with 1 entry
  "\80\00"                             ;; Table index 0, encoded with 2 bytes
  "\41\00\0b\00"                       ;; (i32.const 0) with no elements
)

;; Unsigned LEB128 must not be overlong
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\05\08\01"                          ;; Memory section with 1 entry
    "\00\82\80\80\80\80\00"              ;; no max, minimum 2 with one byte too many
  )
  "integer representation too long"
)

;; Signed LEB128 must not be overlong
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0b\01"                          ;; Global section with 1 entry
    "\7f\00"                             ;; i32, immutable
    "\41\80\80\80\80\80\00"              ;; i32.const 0 with one byte too many
    "\0b"                                ;; end
  )
  "integer representation too long"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0b\01"                          ;; Global section with 1 entry
    "\7f\00"                             ;; i32, immutable
    "\41\ff\ff\ff\ff\ff\7f"              ;; i32.const -1 with one byte too many
    "\0b"                                ;; end
  )
  "integer representation too long"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\10\01"                          ;; Global section with 1 entry
    "\7e\00"                             ;; i64, immutable
    "\42\80\80\80\80\80\80\80\80\80\80\00"  ;; i64.const 0 with one byte too many
    "\0b"                                ;; end
  )
  "integer representation too long"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\10\01"                          ;; Global section with 1 entry
    "\7e\00"                             ;; i64, immutable
    "\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\ff\7f"  ;; i64.const -1 with one byte too many
    "\0b"                                ;; end
  )
  "integer representation too long"
)

;; Unsigned LEB128s zero-extend
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\05\07\01"                          ;; Memory section with 1 entry
    "\00\82\80\80\80\70"                 ;; no max, minimum 2 with unused bits set
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\05\07\01"                          ;; Memory section with 1 entry
    "\00\82\80\80\80\40"                 ;; no max, minimum 2 with some unused bits set
  )
  "integer too large"
)

;; Signed LEB128s sign-extend
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0a\01"                          ;; Global section with 1 entry
    "\7f\00"                             ;; i32, immutable
    "\41\80\80\80\80\70"                 ;; i32.const 0 with unused bits set
    "\0b"                                ;; end
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0a\01"                          ;; Global section with 1 entry
    "\7f\00"                             ;; i32, immutable
    "\41\ff\ff\ff\ff\0f"                 ;; i32.const -1 with unused bits unset
    "\0b"                                ;; end
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0a\01"                          ;; Global section with 1 entry
    "\7f\00"                             ;; i32, immutable
    "\41\80\80\80\80\1f"                 ;; i32.const 0 with some unused bits set
    "\0b"                                ;; end
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0a\01"                          ;; Global section with 1 entry
    "\7f\00"                             ;; i32, immutable
    "\41\ff\ff\ff\ff\4f"                 ;; i32.const -1 with some unused bits unset
    "\0b"                                ;; end
  )
  "integer too large"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0f\01"                          ;; Global section with 1 entry
    "\7e\00"                             ;; i64, immutable
    "\42\80\80\80\80\80\80\80\80\80\7e"  ;; i64.const 0 with unused bits set
    "\0b"                                ;; end
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0f\01"                          ;; Global section with 1 entry
    "\7e\00"                             ;; i64, immutable
    "\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\01"  ;; i64.const -1 with unused bits unset
    "\0b"                                ;; end
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0f\01"                          ;; Global section with 1 entry
    "\7e\00"                             ;; i64, immutable
    "\42\80\80\80\80\80\80\80\80\80\02"  ;; i64.const 0 with some unused bits set
    "\0b"                                ;; end
  )
  "integer too large"
)
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\06\0f\01"                          ;; Global section with 1 entry
    "\7e\00"                             ;; i64, immutable
    "\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\41"  ;; i64.const -1 with some unused bits unset
    "\0b"                                ;; end
  )
  "integer too large"
)

;; call_indirect reserved byte equal to zero.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"      ;; Type section
    "\03\02\01\00"            ;; Function section
    "\04\04\01\70\00\00"      ;; Table section
    "\0a\09\01"               ;; Code section

    ;; function 0
    "\07\00"
    "\41\00"                   ;; i32.const 0
    "\11\00"                   ;; call_indirect (type 0)
    "\01"                      ;; call_indirect reserved byte is not equal to zero!
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; call_indirect reserved byte should not be a "long" LEB128 zero.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"      ;; Type section
    "\03\02\01\00"            ;; Function section
    "\04\04\01\70\00\00"      ;; Table section
    "\0a\0a\01"               ;; Code section

    ;; function 0
    "\07\00"
    "\41\00"                   ;; i32.const 0
    "\11\00"                   ;; call_indirect (type 0)
    "\80\00"                   ;; call_indirect reserved byte
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; Same as above for 3, 4, and 5-byte zero encodings.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"      ;; Type section
    "\03\02\01\00"            ;; Function section
    "\04\04\01\70\00\00"      ;; Table section
    "\0a\0b\01"               ;; Code section

    ;; function 0
    "\08\00"
    "\41\00"                   ;; i32.const 0
    "\11\00"                   ;; call_indirect (type 0)
    "\80\80\00"                ;; call_indirect reserved byte
    "\0b"                      ;; end
  )
  "zero flag expected"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"      ;; Type section
    "\03\02\01\00"            ;; Function section
    "\04\04\01\70\00\00"      ;; Table section
    "\0a\0c\01"               ;; Code section

    ;; function 0
    "\09\00"
    "\41\00"                   ;; i32.const 0
    "\11\00"                   ;; call_indirect (type 0)
    "\80\80\80\00"             ;; call_indirect reserved byte
    "\0b"                      ;; end
  )
  "zero flag expected"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"      ;; Type section
    "\03\02\01\00"            ;; Function section
    "\04\04\01\70\00\00"      ;; Table section
    "\0a\0d\01"               ;; Code section

    ;; function 0
    "\0a\00"
    "\41\00"                   ;; i32.const 0
    "\11\00"                   ;; call_indirect (type 0)
    "\80\80\80\80\00"          ;; call_indirect reserved byte
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; memory.grow reserved byte equal to zero.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\09\01"                ;; Code section

    ;; function 0
    "\07\00"
    "\41\00"                   ;; i32.const 0
    "\40"                      ;; memory.grow
    "\01"                      ;; memory.grow reserved byte is not equal to zero!
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; memory.grow reserved byte should not be a "long" LEB128 zero.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\0a\01"                ;; Code section

    ;; function 0
    "\08\00"
    "\41\00"                   ;; i32.const 0
    "\40"                      ;; memory.grow
    "\80\00"                   ;; memory.grow reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; Same as above for 3, 4, and 5-byte zero encodings.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\0b\01"                ;; Code section

    ;; function 0
    "\09\00"
    "\41\00"                   ;; i32.const 0
    "\40"                      ;; memory.grow
    "\80\80\00"                ;; memory.grow reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\0c\01"                ;; Code section

    ;; function 0
    "\0a\00"
    "\41\00"                   ;; i32.const 0
    "\40"                      ;; memory.grow
    "\80\80\80\00"             ;; memory.grow reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\0d\01"                ;; Code section

    ;; function 0
    "\0b\00"
    "\41\00"                   ;; i32.const 0
    "\40"                      ;; memory.grow
    "\80\80\80\80\00"          ;; memory.grow reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; memory.size reserved byte equal to zero.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\07\01"                ;; Code section

    ;; function 0
    "\05\00"
    "\3f"                      ;; memory.size
    "\01"                      ;; memory.size reserved byte is not equal to zero!
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; memory.size reserved byte should not be a "long" LEB128 zero.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\08\01"                ;; Code section

    ;; function 0
    "\06\00"
    "\3f"                      ;; memory.size
    "\80\00"                   ;; memory.size reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; Same as above for 3, 4, and 5-byte zero encodings.
(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\09\01"                ;; Code section

    ;; function 0
    "\07\00"
    "\3f"                      ;; memory.size
    "\80\80\00"                ;; memory.size reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\0a\01"                ;; Code section

    ;; function 0
    "\08\00"
    "\3f"                      ;; memory.size
    "\80\80\80\00"             ;; memory.size reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

(assert_malformed
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\05\03\01\00\00"          ;; Memory section
    "\0a\0b\01"                ;; Code section

    ;; function 0
    "\09\00"
    "\3f"                      ;; memory.size
    "\80\80\80\80\00"          ;; memory.size reserved byte
    "\1a"                      ;; drop
    "\0b"                      ;; end
  )
  "zero flag expected"
)

;; No more than 2^32 locals.
(assert_malformed 
  (module binary
    "\00asm" "\01\00\00\00"
    "\01\04\01\60\00\00"       ;; Type section
    "\03\02\01\00"             ;; Function section
    "\0a\0c\01"                ;; Code section

    ;; function 0
    "\0a\02"
    "\ff\ff\ff\ff\0f\7f"       ;; 0xFFFFFFFF i32
    "\02\7e"                   ;; 0x00000002 i64
    "\0b"                      ;; end
  )
  "too many locals"
)
Added binary spectests 2018-10-29 23:32:53 +00:00			`(module binary "\00asm\01\00\00\00")`
			`(module binary "\00asm" "\01\00\00\00")`
			`(module $M1 binary "\00asm\01\00\00\00")`
			`(module $M2 binary "\00asm" "\01\00\00\00")`

			`(assert_malformed (module binary "") "unexpected end")`
			`(assert_malformed (module binary "\01") "unexpected end")`
			`(assert_malformed (module binary "\00as") "unexpected end")`
			`(assert_malformed (module binary "asm\00") "magic header not detected")`
			`(assert_malformed (module binary "msa\00") "magic header not detected")`
			`(assert_malformed (module binary "msa\00\01\00\00\00") "magic header not detected")`
			`(assert_malformed (module binary "msa\00\00\00\00\01") "magic header not detected")`
			`(assert_malformed (module binary "asm\01\00\00\00\00") "magic header not detected")`
			`(assert_malformed (module binary "wasm\01\00\00\00") "magic header not detected")`
			`(assert_malformed (module binary "\7fasm\01\00\00\00") "magic header not detected")`
			`(assert_malformed (module binary "\80asm\01\00\00\00") "magic header not detected")`
			`(assert_malformed (module binary "\82asm\01\00\00\00") "magic header not detected")`
			`(assert_malformed (module binary "\ffasm\01\00\00\00") "magic header not detected")`

			`;; 8-byte endian-reversed.`
			`(assert_malformed (module binary "\00\00\00\01msa\00") "magic header not detected")`

			`;; Middle-endian byte orderings.`
			`(assert_malformed (module binary "a\00ms\00\01\00\00") "magic header not detected")`
			`(assert_malformed (module binary "sm\00a\00\00\01\00") "magic header not detected")`

			`;; Upper-cased.`
			`(assert_malformed (module binary "\00ASM\01\00\00\00") "magic header not detected")`

			`;; EBCDIC-encoded magic.`
			`(assert_malformed (module binary "\00\81\a2\94\01\00\00\00") "magic header not detected")`

			`;; Leading UTF-8 BOM.`
			`(assert_malformed (module binary "\ef\bb\bf\00asm\01\00\00\00") "magic header not detected")`

			`(assert_malformed (module binary "\00asm") "unexpected end")`
			`(assert_malformed (module binary "\00asm\01") "unexpected end")`
			`(assert_malformed (module binary "\00asm\01\00\00") "unexpected end")`
			`(assert_malformed (module binary "\00asm\00\00\00\00") "unknown binary version")`
			`(assert_malformed (module binary "\00asm\0d\00\00\00") "unknown binary version")`
			`(assert_malformed (module binary "\00asm\0e\00\00\00") "unknown binary version")`
			`(assert_malformed (module binary "\00asm\00\01\00\00") "unknown binary version")`
			`(assert_malformed (module binary "\00asm\00\00\01\00") "unknown binary version")`
			`(assert_malformed (module binary "\00asm\00\00\00\01") "unknown binary version")`

			`;; Unsigned LEB128 can have non-minimal length`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\05\04\01" ;; Memory section with 1 entry`
			`"\00\82\00" ;; no max, minimum 2`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\05\07\01" ;; Memory section with 1 entry`
			`"\00\82\80\80\80\00" ;; no max, minimum 2`
			`)`

			`;; Signed LEB128 can have non-minimal length`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\07\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\80\00" ;; i32.const 0`
			`"\0b" ;; end`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\07\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\ff\7f" ;; i32.const -1`
			`"\0b" ;; end`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0a\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\80\80\80\80\00" ;; i32.const 0`
			`"\0b" ;; end`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0a\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\ff\ff\ff\ff\7f" ;; i32.const -1`
			`"\0b" ;; end`
			`)`

			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\07\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\80\00" ;; i64.const 0 with unused bits set`
			`"\0b" ;; end`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\07\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\ff\7f" ;; i64.const -1 with unused bits unset`
			`"\0b" ;; end`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0f\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\80\80\80\80\80\80\80\80\80\00" ;; i64.const 0 with unused bits set`
			`"\0b" ;; end`
			`)`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0f\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\7f" ;; i64.const -1 with unused bits unset`
			`"\0b" ;; end`
			`)`

			`;; Data segment memory index can have non-minimal length`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\05\03\01" ;; Memory section with 1 entry`
			`"\00\00" ;; no max, minimum 0`
			`"\0b\07\01" ;; Data section with 1 entry`
			`"\80\00" ;; Memory index 0, encoded with 2 bytes`
			`"\41\00\0b\00" ;; (i32.const 0) with contents ""`
			`)`

			`;; Element segment table index can have non-minimal length`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\04\04\01" ;; Table section with 1 entry`
			`"\70\00\00" ;; no max, minimum 0, anyfunc`
			`"\09\07\01" ;; Element section with 1 entry`
			`"\80\00" ;; Table index 0, encoded with 2 bytes`
			`"\41\00\0b\00" ;; (i32.const 0) with no elements`
			`)`

			`;; Unsigned LEB128 must not be overlong`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\05\08\01" ;; Memory section with 1 entry`
			`"\00\82\80\80\80\80\00" ;; no max, minimum 2 with one byte too many`
			`)`
			`"integer representation too long"`
			`)`

			`;; Signed LEB128 must not be overlong`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0b\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\80\80\80\80\80\00" ;; i32.const 0 with one byte too many`
			`"\0b" ;; end`
			`)`
			`"integer representation too long"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0b\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\ff\ff\ff\ff\ff\7f" ;; i32.const -1 with one byte too many`
			`"\0b" ;; end`
			`)`
			`"integer representation too long"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\10\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\80\80\80\80\80\80\80\80\80\80\00" ;; i64.const 0 with one byte too many`
			`"\0b" ;; end`
			`)`
			`"integer representation too long"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\10\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\ff\7f" ;; i64.const -1 with one byte too many`
			`"\0b" ;; end`
			`)`
			`"integer representation too long"`
			`)`

			`;; Unsigned LEB128s zero-extend`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\05\07\01" ;; Memory section with 1 entry`
			`"\00\82\80\80\80\70" ;; no max, minimum 2 with unused bits set`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\05\07\01" ;; Memory section with 1 entry`
			`"\00\82\80\80\80\40" ;; no max, minimum 2 with some unused bits set`
			`)`
			`"integer too large"`
			`)`

			`;; Signed LEB128s sign-extend`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0a\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\80\80\80\80\70" ;; i32.const 0 with unused bits set`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0a\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\ff\ff\ff\ff\0f" ;; i32.const -1 with unused bits unset`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0a\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\80\80\80\80\1f" ;; i32.const 0 with some unused bits set`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0a\01" ;; Global section with 1 entry`
			`"\7f\00" ;; i32, immutable`
			`"\41\ff\ff\ff\ff\4f" ;; i32.const -1 with some unused bits unset`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0f\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\80\80\80\80\80\80\80\80\80\7e" ;; i64.const 0 with unused bits set`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0f\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\01" ;; i64.const -1 with unused bits unset`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0f\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\80\80\80\80\80\80\80\80\80\02" ;; i64.const 0 with some unused bits set`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\06\0f\01" ;; Global section with 1 entry`
			`"\7e\00" ;; i64, immutable`
			`"\42\ff\ff\ff\ff\ff\ff\ff\ff\ff\41" ;; i64.const -1 with some unused bits unset`
			`"\0b" ;; end`
			`)`
			`"integer too large"`
			`)`

			`;; call_indirect reserved byte equal to zero.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\04\04\01\70\00\00" ;; Table section`
			`"\0a\09\01" ;; Code section`

			`;; function 0`
			`"\07\00"`
			`"\41\00" ;; i32.const 0`
			`"\11\00" ;; call_indirect (type 0)`
			`"\01" ;; call_indirect reserved byte is not equal to zero!`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; call_indirect reserved byte should not be a "long" LEB128 zero.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\04\04\01\70\00\00" ;; Table section`
			`"\0a\0a\01" ;; Code section`

			`;; function 0`
			`"\07\00"`
			`"\41\00" ;; i32.const 0`
			`"\11\00" ;; call_indirect (type 0)`
			`"\80\00" ;; call_indirect reserved byte`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; Same as above for 3, 4, and 5-byte zero encodings.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\04\04\01\70\00\00" ;; Table section`
			`"\0a\0b\01" ;; Code section`

			`;; function 0`
			`"\08\00"`
			`"\41\00" ;; i32.const 0`
			`"\11\00" ;; call_indirect (type 0)`
			`"\80\80\00" ;; call_indirect reserved byte`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\04\04\01\70\00\00" ;; Table section`
			`"\0a\0c\01" ;; Code section`

			`;; function 0`
			`"\09\00"`
			`"\41\00" ;; i32.const 0`
			`"\11\00" ;; call_indirect (type 0)`
			`"\80\80\80\00" ;; call_indirect reserved byte`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\04\04\01\70\00\00" ;; Table section`
			`"\0a\0d\01" ;; Code section`

			`;; function 0`
			`"\0a\00"`
			`"\41\00" ;; i32.const 0`
			`"\11\00" ;; call_indirect (type 0)`
			`"\80\80\80\80\00" ;; call_indirect reserved byte`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; memory.grow reserved byte equal to zero.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\09\01" ;; Code section`

			`;; function 0`
			`"\07\00"`
			`"\41\00" ;; i32.const 0`
			`"\40" ;; memory.grow`
			`"\01" ;; memory.grow reserved byte is not equal to zero!`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; memory.grow reserved byte should not be a "long" LEB128 zero.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\0a\01" ;; Code section`

			`;; function 0`
			`"\08\00"`
			`"\41\00" ;; i32.const 0`
			`"\40" ;; memory.grow`
			`"\80\00" ;; memory.grow reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; Same as above for 3, 4, and 5-byte zero encodings.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\0b\01" ;; Code section`

			`;; function 0`
			`"\09\00"`
			`"\41\00" ;; i32.const 0`
			`"\40" ;; memory.grow`
			`"\80\80\00" ;; memory.grow reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\0c\01" ;; Code section`

			`;; function 0`
			`"\0a\00"`
			`"\41\00" ;; i32.const 0`
			`"\40" ;; memory.grow`
			`"\80\80\80\00" ;; memory.grow reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\0d\01" ;; Code section`

			`;; function 0`
			`"\0b\00"`
			`"\41\00" ;; i32.const 0`
			`"\40" ;; memory.grow`
			`"\80\80\80\80\00" ;; memory.grow reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; memory.size reserved byte equal to zero.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\07\01" ;; Code section`

			`;; function 0`
			`"\05\00"`
			`"\3f" ;; memory.size`
			`"\01" ;; memory.size reserved byte is not equal to zero!`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; memory.size reserved byte should not be a "long" LEB128 zero.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\08\01" ;; Code section`

			`;; function 0`
			`"\06\00"`
			`"\3f" ;; memory.size`
			`"\80\00" ;; memory.size reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; Same as above for 3, 4, and 5-byte zero encodings.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\09\01" ;; Code section`

			`;; function 0`
			`"\07\00"`
			`"\3f" ;; memory.size`
			`"\80\80\00" ;; memory.size reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\0a\01" ;; Code section`

			`;; function 0`
			`"\08\00"`
			`"\3f" ;; memory.size`
			`"\80\80\80\00" ;; memory.size reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\05\03\01\00\00" ;; Memory section`
			`"\0a\0b\01" ;; Code section`

			`;; function 0`
			`"\09\00"`
			`"\3f" ;; memory.size`
			`"\80\80\80\80\00" ;; memory.size reserved byte`
			`"\1a" ;; drop`
			`"\0b" ;; end`
			`)`
			`"zero flag expected"`
			`)`

			`;; No more than 2^32 locals.`
			`(assert_malformed`
			`(module binary`
			`"\00asm" "\01\00\00\00"`
			`"\01\04\01\60\00\00" ;; Type section`
			`"\03\02\01\00" ;; Function section`
			`"\0a\0c\01" ;; Code section`

			`;; function 0`
			`"\0a\02"`
			`"\ff\ff\ff\ff\0f\7f" ;; 0xFFFFFFFF i32`
			`"\02\7e" ;; 0x00000002 i64`
			`"\0b" ;; end`
			`)`
			`"too many locals"`
			`)`