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Merge remote-tracking branch 'origin/master' into fix-leb-i64

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# Conflicts:
#	Cargo.toml
This commit is contained in:
NikVolf
2018-03-23 16:31:37 +03:00
parent d86487aa84 2fc81dbce3
commit 42c60e9154
6 changed files with 407 additions and 1 deletions
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1
examples/roundtrip.rs
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@ -12,6 +12,7 @@ fn main() {
let module = match parity_wasm::deserialize_file(&args[1])
.expect("Failed to load module")
.parse_names()
.and_then(|module| module.parse_reloc())
{
Ok(m) => m,
Err((errors, m)) => {

BIN
res/cases/v1/relocatable.wasm Normal file
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Binary file not shown.

4
src/elements/mod.rs
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@ -33,6 +33,7 @@ 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::{
@ -56,6 +57,9 @@ pub use self::name_section::{
NameMap, NameSection, ModuleNameSection, FunctionNameSection,
LocalNameSection,
};
pub use self::reloc_section::{
RelocSection, RelocationEntry,
};
/// Deserialization from serial i/o
pub trait Deserialize : Sized {

42
src/elements/module.rs
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@ -7,6 +7,7 @@ use super::section::{
GlobalSection, TableSection, ElementSection, DataSection, MemorySection
};
use super::name_section::NameSection;
use super::reloc_section::RelocSection;
const WASM_MAGIC_NUMBER: [u8; 4] = [0x00, 0x61, 0x73, 0x6d];
@ -191,6 +192,47 @@ impl Module {
}
}
/// Try to parse reloc section in place
/// Corresponding custom section with proper header will convert to reloc sections
/// If some of them will fail to be decoded, Err variant is returned with the list of
/// (index, Error) tuples of failed sections.
pub fn parse_reloc(mut self) -> Result<Self, (Vec<(usize, Error)>, Self)> {
let mut parse_errors = Vec::new();
for (i, section) in self.sections.iter_mut().enumerate() {
if let Some(relocation_section) = {
if let Section::Custom(ref custom) = *section {
if custom.name().starts_with("reloc.") {
let mut rdr = io::Cursor::new(custom.payload());
let reloc_section = match RelocSection::deserialize(custom.name().to_owned(), &mut rdr) {
Ok(reloc_section) => reloc_section,
Err(e) => { parse_errors.push((i, e)); continue; }
};
if rdr.position() != custom.payload().len() as u64 {
parse_errors.push((i, io::Error::from(io::ErrorKind::InvalidData).into()));
continue;
}
Some(Section::Reloc(reloc_section))
}
else {
None
}
}
else {
None
}
} {
*section = relocation_section;
}
}
if parse_errors.len() > 0 {
Err((parse_errors, self))
} else {
Ok(self)
}
}
/// Count imports by provided type
pub fn import_count(&self, count_type: ImportCountType) -> usize {
self.import_section()

346
src/elements/reloc_section.rs Normal file
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@ -0,0 +1,346 @@
use std::io::{Read, Write};
use super::{CountedList, CountedListWriter, CountedWriter, Deserialize, Error, Serialize, VarInt32, VarUint32, VarUint7};
const FUNCTION_INDEX_LEB: u8 = 0;
const TABLE_INDEX_SLEB: u8 = 1;
const TABLE_INDEX_I32: u8 = 2;
const MEMORY_ADDR_LEB: u8 = 3;
const MEMORY_ADDR_SLEB: u8 = 4;
const MEMORY_ADDR_I32: u8 = 5;
const TYPE_INDEX_LEB: u8 = 6;
const GLOBAL_INDEX_LEB: u8 = 7;
/// Relocation information.
#[derive(Clone, Debug)]
pub struct RelocSection {
/// Name of this section.
name: String,
/// ID of the section containing the relocations described in this section.
section_id: u32,
/// Name of the section containing the relocations described in this section. Only set if section_id is 0.
relocation_section_name: Option<String>,
/// Relocation entries.
entries: Vec<RelocationEntry>,
}
impl RelocSection {
/// Name of this section.
pub fn name(&self) -> &str {
&self.name
}
/// Name of this section (mutable).
pub fn name_mut(&mut self) -> &mut String {
&mut self.name
}
/// ID of the section containing the relocations described in this section.
pub fn section_id(&self) -> u32 {
self.section_id
}
/// ID of the section containing the relocations described in this section (mutable).
pub fn section_id_mut(&mut self) -> &mut u32 {
&mut self.section_id
}
/// Name of the section containing the relocations described in this section.
pub fn relocation_section_name(&self) -> Option<&str> {
self.relocation_section_name.as_ref().map(String::as_str)
}
/// Name of the section containing the relocations described in this section (mutable).
pub fn relocation_section_name_mut(&mut self) -> &mut Option<String> {
&mut self.relocation_section_name
}
/// List of relocation entries.
pub fn entries(&self) -> &[RelocationEntry] {
&self.entries
}
/// List of relocation entries (mutable).
pub fn entries_mut(&mut self) -> &mut Vec<RelocationEntry> {
&mut self.entries
}
}
impl RelocSection {
/// Deserialize a reloc section.
pub fn deserialize<R: Read>(
name: String,
rdr: &mut R,
) -> Result<Self, Error> {
let section_id = VarUint32::deserialize(rdr)?.into();
let relocation_section_name =
if section_id == 0 {
Some(String::deserialize(rdr)?)
}
else {
None
};
let entries = CountedList::deserialize(rdr)?.into_inner();
Ok(RelocSection {
name,
section_id,
relocation_section_name,
entries,
})
}
}
impl Serialize for RelocSection {
type Error = Error;
fn serialize<W: Write>(self, wtr: &mut W) -> Result<(), Error> {
let mut counted_writer = CountedWriter::new(wtr);
self.name.serialize(&mut counted_writer)?;
VarUint32::from(self.section_id).serialize(&mut counted_writer)?;
if let Some(relocation_section_name) = self.relocation_section_name {
relocation_section_name.serialize(&mut counted_writer)?;
}
let counted_list = CountedListWriter(self.entries.len(), self.entries.into_iter());
counted_list.serialize(&mut counted_writer)?;
counted_writer.done()?;
Ok(())
}
}
/// Relocation entry.
#[derive(Clone, Copy, Debug, PartialEq)]
pub enum RelocationEntry {
/// Function index.
FunctionIndexLeb {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the function symbol in the symbol table.
index: u32,
},
/// Function table index.
TableIndexSleb {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the function symbol in the symbol table.
index: u32,
},
/// Function table index.
TableIndexI32 {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the function symbol in the symbol table.
index: u32,
},
/// Linear memory index.
MemoryAddressLeb {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the data symbol in the symbol table.
index: u32,
/// Addend to add to the address.
addend: i32,
},
/// Linear memory index.
MemoryAddressSleb {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the data symbol in the symbol table.
index: u32,
/// Addend to add to the address.
addend: i32,
},
/// Linear memory index.
MemoryAddressI32 {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the data symbol in the symbol table.
index: u32,
/// Addend to add to the address.
addend: i32,
},
/// Type table index.
TypeIndexLeb {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the type used.
index: u32,
},
/// Global index.
GlobalIndexLeb {
/// Offset of the value to rewrite.
offset: u32,
/// Index of the global symbol in the symbol table.
index: u32,
},
}
impl Deserialize for RelocationEntry {
type Error = Error;
fn deserialize<R: Read>(rdr: &mut R) -> Result<Self, Self::Error> {
match VarUint7::deserialize(rdr)?.into() {
FUNCTION_INDEX_LEB => Ok(RelocationEntry::FunctionIndexLeb {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
}),
TABLE_INDEX_SLEB => Ok(RelocationEntry::TableIndexSleb {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
}),
TABLE_INDEX_I32 => Ok(RelocationEntry::TableIndexI32 {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
}),
MEMORY_ADDR_LEB => Ok(RelocationEntry::MemoryAddressLeb {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
addend: VarInt32::deserialize(rdr)?.into(),
}),
MEMORY_ADDR_SLEB => Ok(RelocationEntry::MemoryAddressSleb {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
addend: VarInt32::deserialize(rdr)?.into(),
}),
MEMORY_ADDR_I32 => Ok(RelocationEntry::MemoryAddressI32 {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
addend: VarInt32::deserialize(rdr)?.into(),
}),
TYPE_INDEX_LEB => Ok(RelocationEntry::TypeIndexLeb {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
}),
GLOBAL_INDEX_LEB => Ok(RelocationEntry::GlobalIndexLeb {
offset: VarUint32::deserialize(rdr)?.into(),
index: VarUint32::deserialize(rdr)?.into(),
}),
entry_type => Err(Error::UnknownValueType(entry_type as i8)),
}
}
}
impl Serialize for RelocationEntry {
type Error = Error;
fn serialize<W: Write>(self, wtr: &mut W) -> Result<(), Error> {
match self {
RelocationEntry::FunctionIndexLeb { offset, index } => {
VarUint7::from(FUNCTION_INDEX_LEB).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
},
RelocationEntry::TableIndexSleb { offset, index } => {
VarUint7::from(TABLE_INDEX_SLEB).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
},
RelocationEntry::TableIndexI32 { offset, index } => {
VarUint7::from(TABLE_INDEX_I32).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
},
RelocationEntry::MemoryAddressLeb { offset, index, addend } => {
VarUint7::from(MEMORY_ADDR_LEB).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
VarInt32::from(addend).serialize(wtr)?;
},
RelocationEntry::MemoryAddressSleb { offset, index, addend } => {
VarUint7::from(MEMORY_ADDR_SLEB).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
VarInt32::from(addend).serialize(wtr)?;
},
RelocationEntry::MemoryAddressI32 { offset, index, addend } => {
VarUint7::from(MEMORY_ADDR_I32).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
VarInt32::from(addend).serialize(wtr)?;
},
RelocationEntry::TypeIndexLeb { offset, index } => {
VarUint7::from(TYPE_INDEX_LEB).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
},
RelocationEntry::GlobalIndexLeb { offset, index } => {
VarUint7::from(GLOBAL_INDEX_LEB).serialize(wtr)?;
VarUint32::from(offset).serialize(wtr)?;
VarUint32::from(index).serialize(wtr)?;
},
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::super::{Section, deserialize_file};
use super::RelocationEntry;
#[test]
fn reloc_section() {
let module =
deserialize_file("./res/cases/v1/relocatable.wasm").expect("Module should be deserialized")
.parse_reloc().expect("Reloc section should be deserialized");
let mut found = false;
for section in module.sections() {
match *section {
Section::Reloc(ref reloc_section) => {
assert_eq!(vec![
RelocationEntry::MemoryAddressSleb { offset: 4, index: 0, addend: 0 },
RelocationEntry::FunctionIndexLeb { offset: 12, index: 0 },
], reloc_section.entries());
found = true
},
_ => { }
}
}
assert!(found, "There should be a reloc section in relocatable.wasm");
}
}

15
src/elements/section.rs
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@ -23,6 +23,7 @@ use super::{
use super::types::Type;
use super::name_section::NameSection;
use super::reloc_section::RelocSection;
const ENTRIES_BUFFER_LENGTH: usize = 16384;
@ -64,6 +65,13 @@ pub enum Section {
///
/// Note that initially it is not parsed until `parse_names` is called explicitly.
Name(NameSection),
/// Relocation section.
///
/// Note that initially it is not parsed until `parse_reloc` is called explicitly.
/// Also note that currently there are serialization (but not de-serialization)
/// issues with this section
/// (see https://github.com/paritytech/parity-wasm/issues/198)
Reloc(RelocSection),
}
impl Deserialize for Section {
@ -191,7 +199,11 @@ impl Serialize for Section {
payload: serialize(name_section)?,
};
custom.serialize(writer)?;
}
},
Section::Reloc(reloc_section) => {
VarUint7::from(0x00).serialize(writer)?;
reloc_section.serialize(writer)?;
},
}
Ok(())
}
@ -214,6 +226,7 @@ impl Section {
Section::Code(_) => 0x0a,
Section::Data(_) => 0x0b,
Section::Name(_) => 0x00,
Section::Reloc(_) => 0x00,
}
}
}