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/* Copyright 2018 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
use crate::{
limits::*, BinaryReaderError, Encoding, FromReader, FunctionBody, Parser, Payload, Result,
SectionLimited, ValType, WASM_COMPONENT_VERSION, WASM_MODULE_VERSION,
};
use ::alloc::sync::Arc;
use ::alloc::vec::Vec;
use ::core::mem;
use ::core::ops::Range;
/// Test whether the given buffer contains a valid WebAssembly module or component,
/// analogous to [`WebAssembly.validate`][js] in the JS API.
///
/// This functions requires the bytes to validate are entirely resident in memory.
/// Additionally this validates the given bytes with the default set of WebAssembly
/// features implemented by `wasmparser_nostd`.
///
/// For more fine-tuned control over validation it's recommended to review the
/// documentation of [`Validator`].
///
/// Upon success, the type information for the top-level module or component will
/// be returned.
///
/// [js]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/WebAssembly/validate
pub fn validate(bytes: &[u8]) -> Result<Types> {
Validator::new().validate_all(bytes)
}
#[test]
fn test_validate() {
assert!(validate(&[0x0, 0x61, 0x73, 0x6d, 0x1, 0x0, 0x0, 0x0]).is_ok());
assert!(validate(&[0x0, 0x61, 0x73, 0x6d, 0x2, 0x0, 0x0, 0x0]).is_err());
}
mod component;
mod core;
mod func;
mod operators;
pub mod types;
use self::component::*;
pub use self::core::ValidatorResources;
use self::core::*;
use self::types::{TypeAlloc, Types, TypesRef};
pub use func::{FuncToValidate, FuncValidator, FuncValidatorAllocations};
pub use operators::{Frame, FrameKind};
fn check_max(cur_len: usize, amt_added: u32, max: usize, desc: &str, offset: usize) -> Result<()> {
if max
.checked_sub(cur_len)
.and_then(|amt| amt.checked_sub(amt_added as usize))
.is_none()
{
if max == 1 {
bail!(offset, "multiple {desc}");
}
bail!(offset, "{desc} count exceeds limit of {max}");
}
Ok(())
}
fn combine_type_sizes(a: u32, b: u32, offset: usize) -> Result<u32> {
match a.checked_add(b) {
Some(sum) if sum < MAX_WASM_TYPE_SIZE => Ok(sum),
_ => Err(format_err!(
offset,
"effective type size exceeds the limit of {MAX_WASM_TYPE_SIZE}",
)),
}
}
/// Validator for a WebAssembly binary module or component.
///
/// This structure encapsulates state necessary to validate a WebAssembly
/// binary. This implements validation as defined by the [core
/// specification][core]. A `Validator` is designed, like
/// [`Parser`], to accept incremental input over time.
/// Additionally a `Validator` is also designed for parallel validation of
/// functions as they are received.
///
/// It's expected that you'll be using a [`Parser`] in tandem with a
/// `Validator`. As each [`Payload`](crate::Payload) is received from a
/// [`Parser`] you'll pass it into a `Validator` to test the validity of the
/// payload. Note that all payloads received from a [`Parser`] are expected to
/// be passed to a [`Validator`]. For example if you receive
/// [`Payload::TypeSection`](crate::Payload) you'll call
/// [`Validator::type_section`] to validate this.
///
/// The design of [`Validator`] is intended that you'll interleave, in your own
/// application's processing, calls to validation. Each variant, after it's
/// received, will be validated and then your application would proceed as
/// usual. At all times, however, you'll have access to the [`Validator`] and
/// the validation context up to that point. This enables applications to check
/// the types of functions and learn how many globals there are, for example.
///
/// [core]: https://webassembly.github.io/spec/core/valid/index.html
#[derive(Default)]
pub struct Validator {
/// The current state of the validator.
state: State,
/// The global type space used by the validator and any sub-validators.
types: TypeAlloc,
/// The module state when parsing a WebAssembly module.
module: Option<ModuleState>,
/// With the component model enabled, this stores the pushed component states.
/// The top of the stack is the current component state.
components: Vec<ComponentState>,
/// Enabled WebAssembly feature flags, dictating what's valid and what
/// isn't.
features: WasmFeatures,
}
#[derive(Debug, Clone, Copy, Eq, PartialEq)]
enum State {
/// A header has not yet been parsed.
///
/// The value is the expected encoding for the header.
Unparsed(Option<Encoding>),
/// A module header has been parsed.
///
/// The associated module state is available via [`Validator::module`].
Module,
/// A component header has been parsed.
///
/// The associated component state exists at the top of the
/// validator's [`Validator::components`] stack.
Component,
/// The parse has completed and no more data is expected.
End,
}
impl State {
fn ensure_parsable(&self, offset: usize) -> Result<()> {
match self {
Self::Module | Self::Component => Ok(()),
Self::Unparsed(_) => Err(BinaryReaderError::new(
"unexpected section before header was parsed",
offset,
)),
Self::End => Err(BinaryReaderError::new(
"unexpected section after parsing has completed",
offset,
)),
}
}
fn ensure_module(&self, section: &str, offset: usize) -> Result<()> {
self.ensure_parsable(offset)?;
match self {
Self::Module => Ok(()),
Self::Component => Err(format_err!(
offset,
"unexpected module {section} section while parsing a component",
)),
_ => unreachable!(),
}
}
fn ensure_component(&self, section: &str, offset: usize) -> Result<()> {
self.ensure_parsable(offset)?;
match self {
Self::Component => Ok(()),
Self::Module => Err(format_err!(
offset,
"unexpected component {section} section while parsing a module",
)),
_ => unreachable!(),
}
}
}
impl Default for State {
fn default() -> Self {
Self::Unparsed(None)
}
}
/// Flags for features that are enabled for validation.
#[derive(Hash, Debug, Copy, Clone)]
pub struct WasmFeatures {
/// The WebAssembly `mutable-global` proposal (enabled by default)
pub mutable_global: bool,
/// The WebAssembly `nontrapping-float-to-int-conversions` proposal (enabled by default)
pub saturating_float_to_int: bool,
/// The WebAssembly `sign-extension-ops` proposal (enabled by default)
pub sign_extension: bool,
/// The WebAssembly reference types proposal (enabled by default)
pub reference_types: bool,
/// The WebAssembly multi-value proposal (enabled by default)
pub multi_value: bool,
/// The WebAssembly bulk memory operations proposal (enabled by default)
pub bulk_memory: bool,
/// The WebAssembly SIMD proposal (enabled by default)
pub simd: bool,
/// The WebAssembly Relaxed SIMD proposal
pub relaxed_simd: bool,
/// The WebAssembly threads proposal
pub threads: bool,
/// The WebAssembly tail-call proposal
pub tail_call: bool,
/// Whether or not floating-point instructions are enabled.
///
/// This is enabled by default can be used to disallow floating-point
/// operators and types.
///
/// This does not correspond to a WebAssembly proposal but is instead
/// intended for embeddings which have stricter-than-usual requirements
/// about execution. Floats in WebAssembly can have different NaN patterns
/// across hosts which can lead to host-dependent execution which some
/// runtimes may not desire.
pub floats: bool,
/// The WebAssembly multi memory proposal
pub multi_memory: bool,
/// The WebAssembly exception handling proposal
pub exceptions: bool,
/// The WebAssembly memory64 proposal
pub memory64: bool,
/// The WebAssembly extended_const proposal
pub extended_const: bool,
/// The WebAssembly component model proposal.
pub component_model: bool,
/// The WebAssembly memory control proposal
pub memory_control: bool,
}
impl WasmFeatures {
pub(crate) fn check_value_type(&self, ty: ValType) -> Result<(), &'static str> {
match ty {
ValType::I32 | ValType::I64 => Ok(()),
ValType::F32 | ValType::F64 => {
if self.floats {
Ok(())
} else {
Err("floating-point support is disabled")
}
}
ValType::FuncRef | ValType::ExternRef => {
if self.reference_types {
Ok(())
} else {
Err("reference types support is not enabled")
}
}
ValType::V128 => {
if self.simd {
Ok(())
} else {
Err("SIMD support is not enabled")
}
}
}
}
}
impl Default for WasmFeatures {
fn default() -> WasmFeatures {
WasmFeatures {
// Off-by-default features.
relaxed_simd: false,
threads: false,
multi_memory: false,
exceptions: false,
memory64: false,
extended_const: false,
component_model: false,
memory_control: false,
// On-by-default features (phase 4 or greater).
mutable_global: true,
saturating_float_to_int: true,
sign_extension: true,
bulk_memory: true,
multi_value: true,
reference_types: true,
tail_call: true,
simd: true,
floats: true,
}
}
}
/// Possible return values from [`Validator::payload`].
#[allow(clippy::large_enum_variant)]
pub enum ValidPayload<'a> {
/// The payload validated, no further action need be taken.
Ok,
/// The payload validated, but it started a nested module or component.
///
/// This result indicates that the specified parser should be used instead
/// of the currently-used parser until this returned one ends.
Parser(Parser),
/// A function was found to be validate.
Func(FuncToValidate<ValidatorResources>, FunctionBody<'a>),
/// The end payload was validated and the types known to the validator
/// are provided.
End(Types),
}
impl Validator {
/// Creates a new [`Validator`] ready to validate a WebAssembly module
/// or component.
///
/// The new validator will receive payloads parsed from
/// [`Parser`], and expects the first payload received to be
/// the version header from the parser.
pub fn new() -> Validator {
Validator::default()
}
/// Creates a new [`Validator`] which has the specified set of wasm
/// features activated for validation.
///
/// This function is the same as [`Validator::new`] except it also allows
/// you to customize the active wasm features in use for validation. This
/// can allow enabling experimental proposals or also turning off
/// on-by-default wasm proposals.
pub fn new_with_features(features: WasmFeatures) -> Validator {
let mut ret = Validator::new();
ret.features = features;
ret
}
/// Returns the wasm features used for this validator.
pub fn features(&self) -> &WasmFeatures {
&self.features
}
/// Validates an entire in-memory module or component with this validator.
///
/// This function will internally create a [`Parser`] to parse the `bytes`
/// provided. The entire module or component specified by `bytes` will be
/// parsed and validated.
///
/// Upon success, the type information for the top-level module or component
/// will be returned.
pub fn validate_all(&mut self, bytes: &[u8]) -> Result<Types> {
let mut functions_to_validate = Vec::new();
let mut last_types = None;
for payload in Parser::new(0).parse_all(bytes) {
match self.payload(&payload?)? {
ValidPayload::Func(a, b) => {
functions_to_validate.push((a, b));
}
ValidPayload::End(types) => {
// Only the last (top-level) type information will be returned
last_types = Some(types);
}
_ => {}
}
}
let mut allocs = FuncValidatorAllocations::default();
for (func, body) in functions_to_validate {
let mut validator = func.into_validator(allocs);
validator.validate(&body)?;
allocs = validator.into_allocations();
}
Ok(last_types.unwrap())
}
/// Gets the types known by the validator so far within the
/// module/component `level` modules/components up from the
/// module/component currently being parsed.
///
/// For instance, calling `validator.types(0)` will get the types of the
/// module/component currently being parsed, and `validator.types(1)` will
/// get the types of the component containing that module/component.
///
/// Returns `None` if there is no module/component that many levels up.
pub fn types(&self, mut level: usize) -> Option<TypesRef> {
if let Some(module) = &self.module {
if level == 0 {
return Some(TypesRef::from_module(&self.types, &module.module));
} else {
level -= 1;
}
}
self.components
.iter()
.nth_back(level)
.map(|component| TypesRef::from_component(&self.types, component))
}
/// Convenience function to validate a single [`Payload`].
///
/// This function is intended to be used as a convenience. It will
/// internally perform any validation necessary to validate the [`Payload`]
/// provided. The convenience part is that you're likely already going to
/// be matching on [`Payload`] in your application, at which point it's more
/// appropriate to call the individual methods on [`Validator`] per-variant
/// in [`Payload`], such as [`Validator::type_section`].
///
/// This function returns a [`ValidPayload`] variant on success, indicating
/// one of a few possible actions that need to be taken after a payload is
/// validated. For example function contents are not validated here, they're
/// returned through [`ValidPayload`] for validation by the caller.
pub fn payload<'a>(&mut self, payload: &Payload<'a>) -> Result<ValidPayload<'a>> {
use crate::Payload::*;
match payload {
Version {
num,
encoding,
range,
} => self.version(*num, *encoding, range)?,
// Module sections
TypeSection(s) => self.type_section(s)?,
ImportSection(s) => self.import_section(s)?,
FunctionSection(s) => self.function_section(s)?,
TableSection(s) => self.table_section(s)?,
MemorySection(s) => self.memory_section(s)?,
TagSection(s) => self.tag_section(s)?,
GlobalSection(s) => self.global_section(s)?,
ExportSection(s) => self.export_section(s)?,
StartSection { func, range } => self.start_section(*func, range)?,
ElementSection(s) => self.element_section(s)?,
DataCountSection { count, range } => self.data_count_section(*count, range)?,
CodeSectionStart {
count,
range,
size: _,
} => self.code_section_start(*count, range)?,
CodeSectionEntry(body) => {
let func_validator = self.code_section_entry(body)?;
return Ok(ValidPayload::Func(func_validator, body.clone()));
}
DataSection(s) => self.data_section(s)?,
// Component sections
ModuleSection { parser, range, .. } => {
self.module_section(range)?;
return Ok(ValidPayload::Parser(parser.clone()));
}
InstanceSection(s) => self.instance_section(s)?,
CoreTypeSection(s) => self.core_type_section(s)?,
ComponentSection { parser, range, .. } => {
self.component_section(range)?;
return Ok(ValidPayload::Parser(parser.clone()));
}
ComponentInstanceSection(s) => self.component_instance_section(s)?,
ComponentAliasSection(s) => self.component_alias_section(s)?,
ComponentTypeSection(s) => self.component_type_section(s)?,
ComponentCanonicalSection(s) => self.component_canonical_section(s)?,
ComponentStartSection { start, range } => self.component_start_section(start, range)?,
ComponentImportSection(s) => self.component_import_section(s)?,
ComponentExportSection(s) => self.component_export_section(s)?,
End(offset) => return Ok(ValidPayload::End(self.end(*offset)?)),
CustomSection { .. } => {} // no validation for custom sections
UnknownSection { id, range, .. } => self.unknown_section(*id, range)?,
}
Ok(ValidPayload::Ok)
}
/// Validates [`Payload::Version`](crate::Payload).
pub fn version(&mut self, num: u16, encoding: Encoding, range: &Range<usize>) -> Result<()> {
match &self.state {
State::Unparsed(expected) => {
if let Some(expected) = expected {
if *expected != encoding {
bail!(
range.start,
"expected a version header for a {}",
match expected {
Encoding::Module => "module",
Encoding::Component => "component",
}
);
}
}
}
_ => {
return Err(BinaryReaderError::new(
"wasm version header out of order",
range.start,
))
}
}
self.state = match encoding {
Encoding::Module => {
if num == WASM_MODULE_VERSION {
assert!(self.module.is_none());
self.module = Some(ModuleState::default());
State::Module
} else {
bail!(range.start, "unknown binary version: {num:#x}");
}
}
Encoding::Component => {
if !self.features.component_model {
bail!(
range.start,
"unknown binary version: {num:#x}, \
note: the WebAssembly component model feature is not enabled",
);
}
if num == WASM_COMPONENT_VERSION {
self.components.push(ComponentState::default());
State::Component
} else if num < WASM_COMPONENT_VERSION {
bail!(range.start, "unsupported component version: {num:#x}");
} else {
bail!(range.start, "unknown component version: {num:#x}");
}
}
};
Ok(())
}
/// Validates [`Payload::TypeSection`](crate::Payload).
pub fn type_section(&mut self, section: &crate::TypeSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Type,
section,
"type",
|state, _, types, count, offset| {
check_max(
state.module.types.len(),
count,
MAX_WASM_TYPES,
"types",
offset,
)?;
types.reserve(count as usize);
state.module.assert_mut().types.reserve(count as usize);
Ok(())
},
|state, features, types, def, offset| {
state
.module
.assert_mut()
.add_type(def, features, types, offset, false /* checked above */)
},
)
}
/// Validates [`Payload::ImportSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn import_section(&mut self, section: &crate::ImportSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Import,
section,
"import",
|_, _, _, _, _| Ok(()), // add_import will check limits
|state, features, types, import, offset| {
state
.module
.assert_mut()
.add_import(import, features, types, offset)
},
)
}
/// Validates [`Payload::FunctionSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn function_section(&mut self, section: &crate::FunctionSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Function,
section,
"function",
|state, _, _, count, offset| {
check_max(
state.module.functions.len(),
count,
MAX_WASM_FUNCTIONS,
"functions",
offset,
)?;
state.module.assert_mut().functions.reserve(count as usize);
debug_assert!(state.expected_code_bodies.is_none());
state.expected_code_bodies = Some(count);
Ok(())
},
|state, _, types, ty, offset| state.module.assert_mut().add_function(ty, types, offset),
)
}
/// Validates [`Payload::TableSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn table_section(&mut self, section: &crate::TableSectionReader<'_>) -> Result<()> {
let features = self.features;
self.process_module_section(
Order::Table,
section,
"table",
|state, _, _, count, offset| {
check_max(
state.module.tables.len(),
count,
state.module.max_tables(&features),
"tables",
offset,
)?;
state.module.assert_mut().tables.reserve(count as usize);
Ok(())
},
|state, features, _, ty, offset| {
state.module.assert_mut().add_table(ty, features, offset)
},
)
}
/// Validates [`Payload::MemorySection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn memory_section(&mut self, section: &crate::MemorySectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Memory,
section,
"memory",
|state, features, _, count, offset| {
check_max(
state.module.memories.len(),
count,
state.module.max_memories(features),
"memories",
offset,
)?;
state.module.assert_mut().memories.reserve(count as usize);
Ok(())
},
|state, features, _, ty, offset| {
state.module.assert_mut().add_memory(ty, features, offset)
},
)
}
/// Validates [`Payload::TagSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn tag_section(&mut self, section: &crate::TagSectionReader<'_>) -> Result<()> {
if !self.features.exceptions {
return Err(BinaryReaderError::new(
"exceptions proposal not enabled",
section.range().start,
));
}
self.process_module_section(
Order::Tag,
section,
"tag",
|state, _, _, count, offset| {
check_max(
state.module.tags.len(),
count,
MAX_WASM_TAGS,
"tags",
offset,
)?;
state.module.assert_mut().tags.reserve(count as usize);
Ok(())
},
|state, features, types, ty, offset| {
state
.module
.assert_mut()
.add_tag(ty, features, types, offset)
},
)
}
/// Validates [`Payload::GlobalSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn global_section(&mut self, section: &crate::GlobalSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Global,
section,
"global",
|state, _, _, count, offset| {
check_max(
state.module.globals.len(),
count,
MAX_WASM_GLOBALS,
"globals",
offset,
)?;
state.module.assert_mut().globals.reserve(count as usize);
Ok(())
},
|state, features, types, global, offset| {
state.add_global(global, features, types, offset)
},
)
}
/// Validates [`Payload::ExportSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn export_section(&mut self, section: &crate::ExportSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Export,
section,
"export",
|state, _, _, count, offset| {
check_max(
state.module.exports.len(),
count,
MAX_WASM_EXPORTS,
"exports",
offset,
)?;
state.module.assert_mut().exports.reserve(count as usize);
Ok(())
},
|state, features, _, e, offset| {
let state = state.module.assert_mut();
let ty = state.export_to_entity_type(&e, offset)?;
state.add_export(e.name, ty, features, offset, false /* checked above */)
},
)
}
/// Validates [`Payload::StartSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn start_section(&mut self, func: u32, range: &Range<usize>) -> Result<()> {
let offset = range.start;
self.state.ensure_module("start", offset)?;
let state = self.module.as_mut().unwrap();
state.update_order(Order::Start, offset)?;
let ty = state.module.get_func_type(func, &self.types, offset)?;
if !ty.params().is_empty() || !ty.results().is_empty() {
return Err(BinaryReaderError::new(
"invalid start function type",
offset,
));
}
Ok(())
}
/// Validates [`Payload::ElementSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn element_section(&mut self, section: &crate::ElementSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Element,
section,
"element",
|state, _, _, count, offset| {
check_max(
state.module.element_types.len(),
count,
MAX_WASM_ELEMENT_SEGMENTS,
"element segments",
offset,
)?;
state
.module
.assert_mut()
.element_types
.reserve(count as usize);
Ok(())
},
|state, features, types, e, offset| {
state.add_element_segment(e, features, types, offset)
},
)
}
/// Validates [`Payload::DataCountSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn data_count_section(&mut self, count: u32, range: &Range<usize>) -> Result<()> {
let offset = range.start;
self.state.ensure_module("data count", offset)?;
let state = self.module.as_mut().unwrap();
state.update_order(Order::DataCount, offset)?;
if count > MAX_WASM_DATA_SEGMENTS as u32 {
return Err(BinaryReaderError::new(
"data count section specifies too many data segments",
offset,
));
}
state.module.assert_mut().data_count = Some(count);
Ok(())
}
/// Validates [`Payload::CodeSectionStart`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn code_section_start(&mut self, count: u32, range: &Range<usize>) -> Result<()> {
let offset = range.start;
self.state.ensure_module("code", offset)?;
let state = self.module.as_mut().unwrap();
state.update_order(Order::Code, offset)?;
match state.expected_code_bodies.take() {
Some(n) if n == count => {}
Some(_) => {
return Err(BinaryReaderError::new(
"function and code section have inconsistent lengths",
offset,
));
}
// empty code sections are allowed even if the function section is
// missing
None if count == 0 => {}
None => {
return Err(BinaryReaderError::new(
"code section without function section",
offset,
))
}
}
// Take a snapshot of the types when we start the code section.
state.module.assert_mut().snapshot = Some(Arc::new(self.types.commit()));
Ok(())
}
/// Validates [`Payload::CodeSectionEntry`](crate::Payload).
///
/// This function will prepare a [`FuncToValidate`] which can be used to
/// create a [`FuncValidator`] to validate the function. The function body
/// provided will not be parsed or validated by this function.
///
/// Note that the returned [`FuncToValidate`] is "connected" to this
/// [`Validator`] in that it uses the internal context of this validator for
/// validating the function. The [`FuncToValidate`] can be sent to another
/// thread, for example, to offload actual processing of functions
/// elsewhere.
///
/// This method should only be called when parsing a module.
pub fn code_section_entry(
&mut self,
body: &crate::FunctionBody,
) -> Result<FuncToValidate<ValidatorResources>> {
let offset = body.range().start;
self.state.ensure_module("code", offset)?;
let state = self.module.as_mut().unwrap();
let (index, ty) = state.next_code_index_and_type(offset)?;
Ok(FuncToValidate::new(
index,
ty,
ValidatorResources(state.module.arc().clone()),
&self.features,
))
}
/// Validates [`Payload::DataSection`](crate::Payload).
///
/// This method should only be called when parsing a module.
pub fn data_section(&mut self, section: &crate::DataSectionReader<'_>) -> Result<()> {
self.process_module_section(
Order::Data,
section,
"data",
|state, _, _, count, offset| {
state.data_segment_count = count;
check_max(0, count, MAX_WASM_DATA_SEGMENTS, "data segments", offset)
},
|state, features, types, d, offset| state.add_data_segment(d, features, types, offset),
)
}
/// Validates [`Payload::ModuleSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn module_section(&mut self, range: &Range<usize>) -> Result<()> {
self.state.ensure_component("module", range.start)?;
let current = self.components.last_mut().unwrap();
check_max(
current.core_modules.len(),
1,
MAX_WASM_MODULES,
"modules",
range.start,
)?;
match mem::replace(&mut self.state, State::Unparsed(Some(Encoding::Module))) {
State::Component => {}
_ => unreachable!(),
}
Ok(())
}
/// Validates [`Payload::InstanceSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn instance_section(&mut self, section: &crate::InstanceSectionReader) -> Result<()> {
self.process_component_section(
section,
"core instance",
|components, _, count, offset| {
let current = components.last_mut().unwrap();
check_max(
current.instance_count(),
count,
MAX_WASM_INSTANCES,
"instances",
offset,
)?;
current.core_instances.reserve(count as usize);
Ok(())
},
|components, types, _, instance, offset| {
components
.last_mut()
.unwrap()
.add_core_instance(instance, types, offset)
},
)
}
/// Validates [`Payload::CoreTypeSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn core_type_section(&mut self, section: &crate::CoreTypeSectionReader<'_>) -> Result<()> {
self.process_component_section(
section,
"core type",
|components, types, count, offset| {
let current = components.last_mut().unwrap();
check_max(current.type_count(), count, MAX_WASM_TYPES, "types", offset)?;
types.reserve(count as usize);
current.core_types.reserve(count as usize);
Ok(())
},
|components, types, features, ty, offset| {
ComponentState::add_core_type(
components, ty, features, types, offset, false, /* checked above */
)
},
)
}
/// Validates [`Payload::ComponentSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_section(&mut self, range: &Range<usize>) -> Result<()> {
self.state.ensure_component("component", range.start)?;
let current = self.components.last_mut().unwrap();
check_max(
current.components.len(),
1,
MAX_WASM_COMPONENTS,
"components",
range.start,
)?;
match mem::replace(&mut self.state, State::Unparsed(Some(Encoding::Component))) {
State::Component => {}
_ => unreachable!(),
}
Ok(())
}
/// Validates [`Payload::ComponentInstanceSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_instance_section(
&mut self,
section: &crate::ComponentInstanceSectionReader,
) -> Result<()> {
self.process_component_section(
section,
"instance",
|components, _, count, offset| {
let current = components.last_mut().unwrap();
check_max(
current.instance_count(),
count,
MAX_WASM_INSTANCES,
"instances",
offset,
)?;
current.instances.reserve(count as usize);
Ok(())
},
|components, types, _, instance, offset| {
components
.last_mut()
.unwrap()
.add_instance(instance, types, offset)
},
)
}
/// Validates [`Payload::ComponentAliasSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_alias_section(
&mut self,
section: &crate::ComponentAliasSectionReader<'_>,
) -> Result<()> {
self.process_component_section(
section,
"alias",
|_, _, _, _| Ok(()), // maximums checked via `add_alias`
|components, types, _, alias, offset| -> Result<(), BinaryReaderError> {
ComponentState::add_alias(components, alias, types, offset)
},
)
}
/// Validates [`Payload::ComponentTypeSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_type_section(
&mut self,
section: &crate::ComponentTypeSectionReader,
) -> Result<()> {
self.process_component_section(
section,
"type",
|components, types, count, offset| {
let current = components.last_mut().unwrap();
check_max(current.type_count(), count, MAX_WASM_TYPES, "types", offset)?;
types.reserve(count as usize);
current.types.reserve(count as usize);
Ok(())
},
|components, types, features, ty, offset| {
ComponentState::add_type(
components, ty, features, types, offset, false, /* checked above */
)
},
)
}
/// Validates [`Payload::ComponentCanonicalSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_canonical_section(
&mut self,
section: &crate::ComponentCanonicalSectionReader,
) -> Result<()> {
self.process_component_section(
section,
"function",
|components, _, count, offset| {
let current = components.last_mut().unwrap();
check_max(
current.function_count(),
count,
MAX_WASM_FUNCTIONS,
"functions",
offset,
)?;
current.funcs.reserve(count as usize);
Ok(())
},
|components, types, _, func, offset| {
let current = components.last_mut().unwrap();
match func {
crate::CanonicalFunction::Lift {
core_func_index,
type_index,
options,
} => current.lift_function(
core_func_index,
type_index,
options.into_vec(),
types,
offset,
),
crate::CanonicalFunction::Lower {
func_index,
options,
} => current.lower_function(func_index, options.into_vec(), types, offset),
}
},
)
}
/// Validates [`Payload::ComponentStartSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_start_section(
&mut self,
f: &crate::ComponentStartFunction,
range: &Range<usize>,
) -> Result<()> {
self.state.ensure_component("start", range.start)?;
// let mut section = section.clone();
// let f = section.read()?;
// if !section.eof() {
// return Err(BinaryReaderError::new(
// "trailing data at the end of the start section",
// section.original_position(),
// ));
// }
self.components.last_mut().unwrap().add_start(
f.func_index,
&f.arguments,
f.results,
&self.types,
range.start,
)
}
/// Validates [`Payload::ComponentImportSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_import_section(
&mut self,
section: &crate::ComponentImportSectionReader,
) -> Result<()> {
self.process_component_section(
section,
"import",
|_, _, _, _| Ok(()), // add_import will check limits
|components, types, _, import, offset| {
components
.last_mut()
.unwrap()
.add_import(import, types, offset)
},
)
}
/// Validates [`Payload::ComponentExportSection`](crate::Payload).
///
/// This method should only be called when parsing a component.
pub fn component_export_section(
&mut self,
section: &crate::ComponentExportSectionReader,
) -> Result<()> {
self.process_component_section(
section,
"export",
|components, _, count, offset| {
let current = components.last_mut().unwrap();
check_max(
current.exports.len(),
count,
MAX_WASM_EXPORTS,
"exports",
offset,
)?;
current.exports.reserve(count as usize);
Ok(())
},
|components, types, _, export, offset| {
let current = components.last_mut().unwrap();
let ty = current.export_to_entity_type(&export, types, offset)?;
current.add_export(
export.name,
export.url,
ty,
offset,
false, /* checked above */
)
},
)
}
/// Validates [`Payload::UnknownSection`](crate::Payload).
///
/// Currently always returns an error.
pub fn unknown_section(&mut self, id: u8, range: &Range<usize>) -> Result<()> {
Err(format_err!(range.start, "malformed section id: {id}"))
}
/// Validates [`Payload::End`](crate::Payload).
///
/// Returns the types known to the validator for the module or component.
pub fn end(&mut self, offset: usize) -> Result<Types> {
match ::core::mem::replace(&mut self.state, State::End) {
State::Unparsed(_) => Err(BinaryReaderError::new(
"cannot call `end` before a header has been parsed",
offset,
)),
State::End => Err(BinaryReaderError::new(
"cannot call `end` after parsing has completed",
offset,
)),
State::Module => {
let mut state = self.module.take().unwrap();
state.validate_end(offset)?;
// If there's a parent component, we'll add a module to the parent state
// and continue to validate the component
if let Some(parent) = self.components.last_mut() {
parent.add_core_module(&state.module, &mut self.types, offset)?;
self.state = State::Component;
}
Ok(Types::from_module(
self.types.commit(),
state.module.arc().clone(),
))
}
State::Component => {
let mut component = self.components.pop().unwrap();
// Validate that all values were used for the component
if let Some(index) = component.values.iter().position(|(_, used)| !*used) {
return Err(
format_err!(offset,"value index {index} was not used as part of an instantiation, start function, or export"
)
);
}
// If there's a parent component, pop the stack, add it to the parent,
// and continue to validate the component
if let Some(parent) = self.components.last_mut() {
parent.add_component(&mut component, &mut self.types);
self.state = State::Component;
}
Ok(Types::from_component(self.types.commit(), component))
}
}
}
fn process_module_section<'a, T>(
&mut self,
order: Order,
section: &SectionLimited<'a, T>,
name: &str,
validate_section: impl FnOnce(
&mut ModuleState,
&WasmFeatures,
&mut TypeAlloc,
u32,
usize,
) -> Result<()>,
mut validate_item: impl FnMut(
&mut ModuleState,
&WasmFeatures,
&mut TypeAlloc,
T,
usize,
) -> Result<()>,
) -> Result<()>
where
T: FromReader<'a>,
{
let offset = section.range().start;
self.state.ensure_module(name, offset)?;
let state = self.module.as_mut().unwrap();
state.update_order(order, offset)?;
validate_section(
state,
&self.features,
&mut self.types,
section.count(),
offset,
)?;
for item in section.clone().into_iter_with_offsets() {
let (offset, item) = item?;
validate_item(state, &self.features, &mut self.types, item, offset)?;
}
Ok(())
}
fn process_component_section<'a, T>(
&mut self,
section: &SectionLimited<'a, T>,
name: &str,
validate_section: impl FnOnce(
&mut Vec<ComponentState>,
&mut TypeAlloc,
u32,
usize,
) -> Result<()>,
mut validate_item: impl FnMut(
&mut Vec<ComponentState>,
&mut TypeAlloc,
&WasmFeatures,
T,
usize,
) -> Result<()>,
) -> Result<()>
where
T: FromReader<'a>,
{
let offset = section.range().start;
if !self.features.component_model {
return Err(BinaryReaderError::new(
"component model feature is not enabled",
offset,
));
}
self.state.ensure_component(name, offset)?;
validate_section(
&mut self.components,
&mut self.types,
section.count(),
offset,
)?;
for item in section.clone().into_iter_with_offsets() {
let (offset, item) = item?;
validate_item(
&mut self.components,
&mut self.types,
&self.features,
item,
offset,
)?;
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use crate::{GlobalType, MemoryType, TableType, ValType, Validator, WasmFeatures};
use anyhow::Result;
#[test]
fn test_module_type_information() -> Result<()> {
let bytes = wat::parse_str(
r#"
(module
(type (func (param i32 i64) (result i32)))
(memory 1 5)
(table 10 funcref)
(global (mut i32) (i32.const 0))
(func (type 0) (i32.const 0))
(tag (param i64 i32))
(elem funcref (ref.func 0))
)
"#,
)?;
let mut validator = Validator::new_with_features(WasmFeatures {
exceptions: true,
..Default::default()
});
let types = validator.validate_all(&bytes)?;
assert_eq!(types.type_count(), 2);
assert_eq!(types.memory_count(), 1);
assert_eq!(types.table_count(), 1);
assert_eq!(types.global_count(), 1);
assert_eq!(types.function_count(), 1);
assert_eq!(types.tag_count(), 1);
assert_eq!(types.element_count(), 1);
assert_eq!(types.module_count(), 0);
assert_eq!(types.component_count(), 0);
assert_eq!(types.instance_count(), 0);
assert_eq!(types.value_count(), 0);
match types.func_type_at(0) {
Some(ty) => {
assert_eq!(ty.params(), [ValType::I32, ValType::I64]);
assert_eq!(ty.results(), [ValType::I32]);
}
_ => unreachable!(),
}
match types.func_type_at(1) {
Some(ty) => {
assert_eq!(ty.params(), [ValType::I64, ValType::I32]);
assert_eq!(ty.results(), []);
}
_ => unreachable!(),
}
assert_eq!(
types.memory_at(0),
Some(MemoryType {
memory64: false,
shared: false,
initial: 1,
maximum: Some(5)
})
);
assert_eq!(
types.table_at(0),
Some(TableType {
initial: 10,
maximum: None,
element_type: ValType::FuncRef,
})
);
assert_eq!(
types.global_at(0),
Some(GlobalType {
content_type: ValType::I32,
mutable: true
})
);
match types.function_at(0) {
Some(ty) => {
assert_eq!(ty.params(), [ValType::I32, ValType::I64]);
assert_eq!(ty.results(), [ValType::I32]);
}
_ => unreachable!(),
}
match types.tag_at(0) {
Some(ty) => {
assert_eq!(ty.params(), [ValType::I64, ValType::I32]);
assert_eq!(ty.results(), []);
}
_ => unreachable!(),
}
assert_eq!(types.element_at(0), Some(ValType::FuncRef));
Ok(())
}
#[test]
fn test_type_id_aliasing() -> Result<()> {
let bytes = wat::parse_str(
r#"
(component
(type $T (list string))
(alias outer 0 $T (type $A1))
(alias outer 0 $T (type $A2))
)
"#,
)?;
let mut validator = Validator::new_with_features(WasmFeatures {
component_model: true,
..Default::default()
});
let types = validator.validate_all(&bytes)?;
let t_id = types.id_from_type_index(0, false).unwrap();
let a1_id = types.id_from_type_index(1, false).unwrap();
let a2_id = types.id_from_type_index(2, false).unwrap();
// The ids should all be different
assert!(t_id != a1_id);
assert!(t_id != a2_id);
assert!(a1_id != a2_id);
// However, they should all point to the same type
assert!(::core::ptr::eq(
types.type_from_id(t_id).unwrap(),
types.type_from_id(a1_id).unwrap()
));
assert!(::core::ptr::eq(
types.type_from_id(t_id).unwrap(),
types.type_from_id(a2_id).unwrap()
));
Ok(())
}
}