use super::VmApiImpl;
use dharitri_wasm::{
api::{
const_handles, StorageReadApi, StorageReadApiImpl, StorageWriteApi, StorageWriteApiImpl,
},
types::heap::{Box, BoxedBytes},
};
#[rustfmt::skip]
extern "C" {
fn storageStore(keyOffset: *const u8, keyLength: i32, dataOffset: *const u8, dataLength: i32) -> i32;
fn storageLoadLength(keyOffset: *const u8, keyLength: i32) -> i32;
fn storageLoad(keyOffset: *const u8, keyLength: i32, dataOffset: *mut u8) -> i32;
fn bigIntStorageStoreUnsigned(keyOffset: *const u8, keyLength: i32, source: i32) -> i32;
fn bigIntStorageLoadUnsigned(keyOffset: *const u8, keyLength: i32, destination: i32) -> i32;
fn mBufferSetBytes(mBufferHandle: i32, byte_ptr: *const u8, byte_len: i32) -> i32;
fn mBufferStorageStore(keyHandle: i32, mBufferHandle: i32) -> i32;
fn mBufferStorageLoad(keyHandle: i32, mBufferHandle: i32) -> i32;
fn mBufferStorageLoadFromAddress(addressHandle: i32, keyHandle: i32, mBufferHandle: i32);
}
impl StorageReadApi for VmApiImpl {
type StorageReadApiImpl = VmApiImpl;
#[inline]
fn storage_read_api_impl() -> Self::StorageReadApiImpl {
VmApiImpl {}
}
}
impl StorageReadApiImpl for VmApiImpl {
#[inline]
fn storage_load_len(&self, key: &[u8]) -> usize {
unsafe { storageLoadLength(key.as_ref().as_ptr(), key.len() as i32) as usize }
}
fn storage_load_to_heap(&self, key: &[u8]) -> Box<[u8]> {
let len = self.storage_load_len(key);
unsafe {
let mut res = BoxedBytes::allocate(len);
if len > 0 {
storageLoad(key.as_ref().as_ptr(), key.len() as i32, res.as_mut_ptr());
}
res.into_box()
}
}
#[inline]
fn storage_load_big_uint_raw(&self, key: &[u8], dest: Self::ManagedBufferHandle) {
unsafe {
bigIntStorageLoadUnsigned(key.as_ref().as_ptr(), key.len() as i32, dest);
}
}
#[inline]
fn storage_load_managed_buffer_raw(
&self,
key_handle: Self::ManagedBufferHandle,
dest: Self::ManagedBufferHandle,
) {
unsafe {
mBufferStorageLoad(key_handle, dest);
}
}
#[inline]
fn storage_load_from_address(
&self,
address_handle: Self::ManagedBufferHandle,
key_handle: Self::ManagedBufferHandle,
dest: Self::ManagedBufferHandle,
) {
unsafe {
mBufferStorageLoadFromAddress(address_handle, key_handle, dest);
}
}
}
impl StorageWriteApi for VmApiImpl {
type StorageWriteApiImpl = VmApiImpl;
#[inline]
fn storage_write_api_impl() -> Self::StorageWriteApiImpl {
VmApiImpl {}
}
}
impl StorageWriteApiImpl for VmApiImpl {
fn storage_store_slice_u8(&self, key: &[u8], value: &[u8]) {
unsafe {
storageStore(
key.as_ref().as_ptr(),
key.len() as i32,
value.as_ptr(),
value.len() as i32,
);
}
}
#[inline]
fn storage_store_big_uint_raw(&self, key: &[u8], value_handle: Self::BigIntHandle) {
unsafe {
bigIntStorageStoreUnsigned(key.as_ref().as_ptr(), key.len() as i32, value_handle);
}
}
fn storage_store_managed_buffer_raw(
&self,
key_handle: Self::ManagedBufferHandle,
value_handle: Self::ManagedBufferHandle,
) {
unsafe {
mBufferStorageStore(key_handle, value_handle);
}
}
fn storage_store_managed_buffer_clear(&self, key_handle: Self::ManagedBufferHandle) {
unsafe {
let _ = mBufferSetBytes(const_handles::MBUF_CONST_EMPTY, core::ptr::null(), 0);
mBufferStorageStore(key_handle, const_handles::MBUF_CONST_EMPTY);
}
}
}