use super::env;
use super::env::get_emscripten_data;
use crate::storage::align_memory;
use libc::stat;
use std::ffi::CStr;
use std::mem::size_of;
use std::os::raw::c_char;
use std::path::PathBuf;
use std::slice;
use wasmer_runtime_core::memory::Memory;
use wasmer_runtime_core::{
module::Module,
structures::TypedIndex,
types::{ImportedMemoryIndex, ImportedTableIndex},
units::Pages,
vm::Ctx,
};
/// We check if a provided module is an Emscripten generated one
pub fn is_emscripten_module(module: &Module) -> bool {
for (_, import_name) in &module.info().imported_functions {
let namespace = module
.info()
.namespace_table
.get(import_name.namespace_index);
let field = module.info().name_table.get(import_name.name_index);
if (field == "_emscripten_memcpy_big" || field == "emscripten_memcpy_big")
&& namespace == "env"
{
return true;
}
}
false
}
pub fn get_emscripten_table_size(module: &Module) -> (u32, Option<u32>) {
assert!(
module.info().imported_tables.len() > 0,
"Emscripten requires at least one imported table"
);
let (_, table) = &module.info().imported_tables[ImportedTableIndex::new(0)];
(table.minimum, table.maximum)
}
pub fn get_emscripten_memory_size(module: &Module) -> (Pages, Option<Pages>, bool) {
assert!(
module.info().imported_tables.len() > 0,
"Emscripten requires at least one imported memory"
);
let (_, memory) = &module.info().imported_memories[ImportedMemoryIndex::new(0)];
(memory.minimum, memory.maximum, memory.shared)
}
/// Reads values written by `-s EMIT_EMSCRIPTEN_METADATA=1`
/// Assumes values start from the end in this order:
/// Last export: Dynamic Base
/// Second-to-Last export: Dynamic top pointer
pub fn get_emscripten_metadata(module: &Module) -> Option<(u32, u32)> {
let max_idx = &module.info().globals.iter().map(|(k, _)| k).max()?;
let snd_max_idx = &module
.info()
.globals
.iter()
.map(|(k, _)| k)
.filter(|k| k != max_idx)
.max()?;
use wasmer_runtime_core::types::{GlobalInit, Initializer::Const, Value::I32};
if let (
GlobalInit {
init: Const(I32(dynamic_base)),
..
},
GlobalInit {
init: Const(I32(dynamictop_ptr)),
..
},
) = (
&module.info().globals[*max_idx],
&module.info().globals[*snd_max_idx],
) {
Some((
align_memory(*dynamic_base as u32 - 32),
align_memory(*dynamictop_ptr as u32 - 32),
))
} else {
None
}
}
pub unsafe fn write_to_buf(ctx: &mut Ctx, string: *const c_char, buf: u32, max: u32) -> u32 {
let buf_addr = emscripten_memory_pointer!(ctx.memory(0), buf) as *mut c_char;
for i in 0..max {
*buf_addr.add(i as _) = *string.add(i as _);
}
buf
}
/// This function expects nullbyte to be appended.
pub unsafe fn copy_cstr_into_wasm(ctx: &mut Ctx, cstr: *const c_char) -> u32 {
let s = CStr::from_ptr(cstr).to_str().unwrap();
let cstr_len = s.len();
let space_offset = env::call_malloc(ctx, (cstr_len as u32) + 1);
let raw_memory = emscripten_memory_pointer!(ctx.memory(0), space_offset) as *mut c_char;
let slice = slice::from_raw_parts_mut(raw_memory, cstr_len);
for (byte, loc) in s.bytes().zip(slice.iter_mut()) {
*loc = byte as _;
}
// TODO: Appending null byte won't work, because there is CStr::from_ptr(cstr)
// at the top that crashes when there is no null byte
*raw_memory.add(cstr_len) = 0;
space_offset
}
pub unsafe fn allocate_on_stack<'a, T: Copy>(ctx: &'a mut Ctx, count: u32) -> (u32, &'a mut [T]) {
let offset = get_emscripten_data(ctx)
.stack_alloc
.as_ref()
.unwrap()
.call(count * (size_of::<T>() as u32))
.unwrap();
let addr = emscripten_memory_pointer!(ctx.memory(0), offset) as *mut T;
let slice = slice::from_raw_parts_mut(addr, count as usize);
(offset, slice)
}
pub unsafe fn allocate_cstr_on_stack<'a>(ctx: &'a mut Ctx, s: &str) -> (u32, &'a [u8]) {
let (offset, slice) = allocate_on_stack(ctx, (s.len() + 1) as u32);
use std::iter;
for (byte, loc) in s.bytes().chain(iter::once(0)).zip(slice.iter_mut()) {
*loc = byte;
}
(offset, slice)
}
#[cfg(not(target_os = "windows"))]
pub unsafe fn copy_terminated_array_of_cstrs(_ctx: &mut Ctx, cstrs: *mut *mut c_char) -> u32 {
let _total_num = {
let mut ptr = cstrs;
let mut counter = 0;
while !(*ptr).is_null() {
counter += 1;
ptr = ptr.add(1);
}
counter
};
debug!(
"emscripten::copy_terminated_array_of_cstrs::total_num: {}",
_total_num
);
0
}
#[repr(C)]
pub struct GuestStat {
st_dev: u32,
__st_dev_padding: u32,
__st_ino_truncated: u32,
st_mode: u32,
st_nlink: u32,
st_uid: u32,
st_gid: u32,
st_rdev: u32,
__st_rdev_padding: u32,
st_size: u32,
st_blksize: u32,
st_blocks: u32,
st_atime: u64,
st_mtime: u64,
st_ctime: u64,
st_ino: u32,
}
#[allow(clippy::cast_ptr_alignment)]
pub unsafe fn copy_stat_into_wasm(ctx: &mut Ctx, buf: u32, stat: &stat) {
let stat_ptr = emscripten_memory_pointer!(ctx.memory(0), buf) as *mut GuestStat;
(*stat_ptr).st_dev = stat.st_dev as _;
(*stat_ptr).__st_dev_padding = 0;
(*stat_ptr).__st_ino_truncated = stat.st_ino as _;
(*stat_ptr).st_mode = stat.st_mode as _;
(*stat_ptr).st_nlink = stat.st_nlink as _;
(*stat_ptr).st_uid = stat.st_uid as _;
(*stat_ptr).st_gid = stat.st_gid as _;
(*stat_ptr).st_rdev = stat.st_rdev as _;
(*stat_ptr).__st_rdev_padding = 0;
(*stat_ptr).st_size = stat.st_size as _;
(*stat_ptr).st_blksize = 4096;
#[cfg(not(target_os = "windows"))]
{
(*stat_ptr).st_blocks = stat.st_blocks as _;
}
#[cfg(target_os = "windows")]
{
(*stat_ptr).st_blocks = 0;
}
(*stat_ptr).st_atime = stat.st_atime as _;
(*stat_ptr).st_mtime = stat.st_mtime as _;
(*stat_ptr).st_ctime = stat.st_ctime as _;
(*stat_ptr).st_ino = stat.st_ino as _;
}
#[allow(dead_code)] // it's used in `env/windows/mod.rs`.
pub fn read_string_from_wasm(memory: &Memory, offset: u32) -> String {
let v: Vec<u8> = memory.view()[(offset as usize)..]
.iter()
.map(|cell| cell.get())
.take_while(|&byte| byte != 0)
.collect();
String::from_utf8_lossy(&v).to_owned().to_string()
}
/// This function trys to find an entry in mapdir
/// translating paths into their correct value
pub fn get_cstr_path(ctx: &mut Ctx, path: *const i8) -> Option<std::ffi::CString> {
use std::collections::VecDeque;
let path_str = unsafe { std::ffi::CStr::from_ptr(path).to_str().unwrap() }.to_string();
let data = get_emscripten_data(ctx);
let path = PathBuf::from(path_str);
let mut prefix_added = false;
let mut components = path.components().collect::<VecDeque<_>>();
// TODO(mark): handle absolute/non-canonical/non-relative paths too (this
// functionality should be shared among the abis)
if components.len() == 1 {
components.push_front(std::path::Component::CurDir);
prefix_added = true;
}
let mut cumulative_path = PathBuf::new();
for c in components.into_iter() {
cumulative_path.push(c);
if let Some(val) = data
.mapped_dirs
.get(&cumulative_path.to_string_lossy().to_string())
{
let rest_of_path = if !prefix_added {
path.strip_prefix(cumulative_path).ok()?
} else {
&path
};
let rebased_path = val.join(rest_of_path);
return std::ffi::CString::new(rebased_path.to_string_lossy().as_bytes()).ok();
}
}
None
}
/// gets the current directory
/// handles mapdir logic
pub fn get_current_directory(ctx: &mut Ctx) -> Option<PathBuf> {
if let Some(val) = get_emscripten_data(ctx).mapped_dirs.get(".") {
return Some(val.clone());
}
std::env::current_dir()
.map(|cwd| {
if let Some(val) = get_emscripten_data(ctx)
.mapped_dirs
.get(&cwd.to_string_lossy().to_string())
{
val.clone()
} else {
cwd
}
})
.ok()
}