use crate::rust::{fmt, vec::Vec, format, string::String};
use crate::io;
macro_rules! buffered_read {
($buffer_size: expr, $length: expr, $reader: expr) => {
{
let mut vec_buf = Vec::new();
let mut total_read = 0;
let mut buf = [0u8; $buffer_size];
while total_read < $length {
let next_to_read = if $length - total_read > $buffer_size { $buffer_size } else { $length - total_read };
$reader.read(&mut buf[0..next_to_read])?;
vec_buf.extend_from_slice(&buf[0..next_to_read]);
total_read += next_to_read;
}
vec_buf
}
}
}
mod primitives;
mod module;
mod section;
mod types;
mod import_entry;
mod export_entry;
mod global_entry;
mod ops;
mod func;
mod segment;
mod index_map;
mod name_section;
mod reloc_section;
pub use self::module::{Module, peek_size, ImportCountType};
pub use self::section::{
Section, FunctionSection, CodeSection, MemorySection, DataSection,
ImportSection, ExportSection, GlobalSection, TypeSection, ElementSection,
TableSection, CustomSection,
};
pub use self::import_entry::{ImportEntry, ResizableLimits, MemoryType, TableType, GlobalType, External};
pub use self::export_entry::{ExportEntry, Internal};
pub use self::global_entry::GlobalEntry;
pub use self::primitives::{
VarUint32, VarUint7, Uint8, VarUint1, VarInt7, Uint32, VarInt32, VarInt64,
Uint64, VarUint64, CountedList, CountedWriter, CountedListWriter,
};
pub use self::types::{Type, ValueType, BlockType, FunctionType, TableElementType};
pub use self::ops::{Instruction, Instructions, InitExpr, opcodes, MemArg, BrTableData};
pub use self::func::{Func, FuncBody, Local};
pub use self::segment::{ElementSegment, DataSegment};
pub use self::index_map::IndexMap;
pub use self::name_section::{
NameMap, NameSection, ModuleNameSubsection, FunctionNameSubsection,
LocalNameSubsection,
};
pub use self::reloc_section::{
RelocSection, RelocationEntry,
};
pub trait Deserialize : Sized {
type Error: From<io::Error>;
fn deserialize<R: io::Read>(reader: &mut R) -> Result<Self, Self::Error>;
}
pub trait Serialize {
type Error: From<io::Error>;
fn serialize<W: io::Write>(self, writer: &mut W) -> Result<(), Self::Error>;
}
#[derive(Debug, Clone)]
pub enum Error {
UnexpectedEof,
InvalidMagic,
UnsupportedVersion(u32),
InconsistentLength {
expected: usize,
actual: usize
},
Other(&'static str),
HeapOther(String),
UnknownValueType(i8),
UnknownTableElementType(i8),
NonUtf8String,
UnknownExternalKind(u8),
UnknownInternalKind(u8),
UnknownOpcode(u8),
UnknownSimdOpcode(u32),
InvalidVarUint1(u8),
InvalidVarInt32,
InvalidVarInt64,
InvalidVarUint32,
InvalidVarUint64,
InconsistentMetadata,
InvalidSectionId(u8),
SectionsOutOfOrder,
DuplicatedSections(u8),
InvalidMemoryReference(u8),
InvalidTableReference(u8),
InvalidLimitsFlags(u8),
UnknownFunctionForm(u8),
InvalidVarInt7(u8),
InconsistentCode,
InvalidSegmentFlags(u32),
TooManyLocals,
DuplicatedNameSubsections(u8),
UnknownNameSubsectionType(u8),
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::UnexpectedEof => write!(f, "Unexpected end of input"),
Error::InvalidMagic => write!(f, "Invalid magic number at start of file"),
Error::UnsupportedVersion(v) => write!(f, "Unsupported wasm version {}", v),
Error::InconsistentLength { expected, actual } => {
write!(f, "Expected length {}, found {}", expected, actual)
}
Error::Other(msg) => write!(f, "{}", msg),
Error::HeapOther(ref msg) => write!(f, "{}", msg),
Error::UnknownValueType(ty) => write!(f, "Invalid or unknown value type {}", ty),
Error::UnknownTableElementType(ty) => write!(f, "Unknown table element type {}", ty),
Error::NonUtf8String => write!(f, "Non-UTF-8 string"),
Error::UnknownExternalKind(kind) => write!(f, "Unknown external kind {}", kind),
Error::UnknownInternalKind(kind) => write!(f, "Unknown internal kind {}", kind),
Error::UnknownOpcode(opcode) => write!(f, "Unknown opcode {}", opcode),
Error::UnknownSimdOpcode(opcode) => write!(f, "Unknown SIMD opcode {}", opcode),
Error::InvalidVarUint1(val) => write!(f, "Not an unsigned 1-bit integer: {}", val),
Error::InvalidVarInt7(val) => write!(f, "Not a signed 7-bit integer: {}", val),
Error::InvalidVarInt32 => write!(f, "Not a signed 32-bit integer"),
Error::InvalidVarUint32 => write!(f, "Not an unsigned 32-bit integer"),
Error::InvalidVarInt64 => write!(f, "Not a signed 64-bit integer"),
Error::InvalidVarUint64 => write!(f, "Not an unsigned 64-bit integer"),
Error::InconsistentMetadata => write!(f, "Inconsistent metadata"),
Error::InvalidSectionId(ref id) => write!(f, "Invalid section id: {}", id),
Error::SectionsOutOfOrder => write!(f, "Sections out of order"),
Error::DuplicatedSections(ref id) => write!(f, "Duplicated sections ({})", id),
Error::InvalidMemoryReference(ref mem_ref) => write!(f, "Invalid memory reference ({})", mem_ref),
Error::InvalidTableReference(ref table_ref) => write!(f, "Invalid table reference ({})", table_ref),
Error::InvalidLimitsFlags(ref flags) => write!(f, "Invalid limits flags ({})", flags),
Error::UnknownFunctionForm(ref form) => write!(f, "Unknown function form ({})", form),
Error::InconsistentCode => write!(f, "Number of function body entries and signatures does not match"),
Error::InvalidSegmentFlags(n) => write!(f, "Invalid segment flags: {}", n),
Error::TooManyLocals => write!(f, "Too many locals"),
Error::DuplicatedNameSubsections(n) => write!(f, "Duplicated name subsections: {}", n),
Error::UnknownNameSubsectionType(n) => write!(f, "Unknown subsection type: {}", n),
}
}
}
#[cfg(feature = "std")]
impl ::std::error::Error for Error {
fn description(&self) -> &str {
match *self {
Error::UnexpectedEof => "Unexpected end of input",
Error::InvalidMagic => "Invalid magic number at start of file",
Error::UnsupportedVersion(_) => "Unsupported wasm version",
Error::InconsistentLength { .. } => "Inconsistent length",
Error::Other(msg) => msg,
Error::HeapOther(ref msg) => &msg[..],
Error::UnknownValueType(_) => "Invalid or unknown value type",
Error::UnknownTableElementType(_) => "Unknown table element type",
Error::NonUtf8String => "Non-UTF-8 string",
Error::UnknownExternalKind(_) => "Unknown external kind",
Error::UnknownInternalKind(_) => "Unknown internal kind",
Error::UnknownOpcode(_) => "Unknown opcode",
Error::UnknownSimdOpcode(_) => "Unknown SIMD opcode",
Error::InvalidVarUint1(_) => "Not an unsigned 1-bit integer",
Error::InvalidVarInt32 => "Not a signed 32-bit integer",
Error::InvalidVarInt7(_) => "Not a signed 7-bit integer",
Error::InvalidVarUint32 => "Not an unsigned 32-bit integer",
Error::InvalidVarInt64 => "Not a signed 64-bit integer",
Error::InvalidVarUint64 => "Not an unsigned 64-bit integer",
Error::InconsistentMetadata => "Inconsistent metadata",
Error::InvalidSectionId(_) => "Invalid section id",
Error::SectionsOutOfOrder => "Sections out of order",
Error::DuplicatedSections(_) => "Duplicated section",
Error::InvalidMemoryReference(_) => "Invalid memory reference",
Error::InvalidTableReference(_) => "Invalid table reference",
Error::InvalidLimitsFlags(_) => "Invalid limits flags",
Error::UnknownFunctionForm(_) => "Unknown function form",
Error::InconsistentCode => "Number of function body entries and signatures does not match",
Error::InvalidSegmentFlags(_) => "Invalid segment flags",
Error::TooManyLocals => "Too many locals",
Error::DuplicatedNameSubsections(_) => "Duplicated name subsections",
Error::UnknownNameSubsectionType(_) => "Unknown name subsections type",
}
}
}
impl From<io::Error> for Error {
fn from(err: io::Error) -> Self {
Error::HeapOther(format!("I/O Error: {:?}", err))
}
}
pub struct Unparsed(pub Vec<u8>);
impl Deserialize for Unparsed {
type Error = Error;
fn deserialize<R: io::Read>(reader: &mut R) -> Result<Self, Self::Error> {
let len = VarUint32::deserialize(reader)?.into();
let mut vec = vec![0u8; len];
reader.read(&mut vec[..])?;
Ok(Unparsed(vec))
}
}
impl From<Unparsed> for Vec<u8> {
fn from(u: Unparsed) -> Vec<u8> {
u.0
}
}
pub fn deserialize_buffer<T: Deserialize>(contents: &[u8]) -> Result<T, T::Error> {
let mut reader = io::Cursor::new(contents);
let result = T::deserialize(&mut reader)?;
if reader.position() != contents.len() {
return Err(io::Error::TrailingData.into())
}
Ok(result)
}
pub fn serialize<T: Serialize>(val: T) -> Result<Vec<u8>, T::Error> {
let mut buf = Vec::new();
val.serialize(&mut buf)?;
Ok(buf)
}
#[cfg(feature = "std")]
pub fn deserialize_file<P: AsRef<::std::path::Path>>(p: P) -> Result<Module, Error> {
let mut f = ::std::fs::File::open(p)
.map_err(|e| Error::HeapOther(format!("Can't read from the file: {:?}", e)))?;
Module::deserialize(&mut f)
}
#[cfg(feature = "std")]
pub fn serialize_to_file<P: AsRef<::std::path::Path>>(p: P, module: Module) -> Result<(), Error> {
let mut io = ::std::fs::File::create(p)
.map_err(|e|
Error::HeapOther(format!("Can't create the file: {:?}", e))
)?;
module.serialize(&mut io)?;
Ok(())
}