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lib.go
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//go:build cgo
// This file contains the part of the API that is exposed when cgo is enabled.
package cosmwasm
import (
"encoding/json"
"fmt"
"github.com/CosmWasm/wasmvm/internal/api"
"github.com/CosmWasm/wasmvm/types"
)
// VM is the main entry point to this library.
// You should create an instance with its own subdirectory to manage state inside,
// and call it for all cosmwasm code related actions.
type VM struct {
cache api.Cache
printDebug bool
}
// NewVM creates a new VM.
//
// `dataDir` is a base directory for Wasm blobs and various caches.
// `supportedFeatures` is a comma separated list of features suppored by the chain.
// `memoryLimit` is the memory limit of each contract execution (in MiB)
// `printDebug` is a flag to enable/disable printing debug logs from the contract to STDOUT. This should be false in production environments.
// `cacheSize` sets the size in MiB of an in-memory cache for e.g. module caching. Set to 0 to disable.
// `deserCost` sets the gas cost of deserializing one byte of data.
func NewVM(dataDir string, supportedFeatures string, memoryLimit uint32, printDebug bool, cacheSize uint32) (*VM, error) {
cache, err := api.InitCache(dataDir, supportedFeatures, cacheSize, memoryLimit)
if err != nil {
return nil, err
}
return &VM{cache: cache, printDebug: printDebug}, nil
}
// Cleanup should be called when no longer using this to free resources on the rust-side
func (vm *VM) Cleanup() {
api.ReleaseCache(vm.cache)
}
// Deprecated: Renamed to StoreCode
func (vm *VM) Create(code WasmCode) (Checksum, error) {
return vm.StoreCode(code)
}
// StoreCode will compile the Wasm code, and store the resulting compiled module
// as well as the original code. Both can be referenced later via Checksum.
// This must be done one time for given code, after which it can be
// instatitated many times, and each instance called many times.
//
// For example, the code for all ERC-20 contracts should be the same.
// This function stores the code for that contract only once, but it can
// be instantiated with custom inputs in the future.
//
// TODO: return gas cost? Add gas limit??? there is no metering here...
func (vm *VM) StoreCode(code WasmCode) (Checksum, error) {
return api.StoreCode(vm.cache, code)
}
func (vm *VM) RemoveCode(checksum Checksum) error {
return api.RemoveCode(vm.cache, checksum)
}
// GetCode will load the original Wasm code for the given checksum.
// This will only succeed if that checksum was previously returned from
// a call to StoreCode.
//
// This can be used so that the (short) checksum is stored in the iavl tree
// and the larger binary blobs (wasm and compiled modules) are all managed
// by libwasmvm/cosmwasm-vm (Rust part).
func (vm *VM) GetCode(checksum Checksum) (WasmCode, error) {
return api.GetCode(vm.cache, checksum)
}
// Pin pins a code to an in-memory cache, such that is
// always loaded quickly when executed.
// Pin is idempotent.
func (vm *VM) Pin(checksum Checksum) error {
return api.Pin(vm.cache, checksum)
}
// Unpin removes the guarantee of a contract to be pinned (see Pin).
// After calling this, the code may or may not remain in memory depending on
// the implementor's choice.
// Unpin is idempotent.
func (vm *VM) Unpin(checksum Checksum) error {
return api.Unpin(vm.cache, checksum)
}
// Returns a report of static analysis of the wasm contract (uncompiled).
// This contract must have been stored in the cache previously (via Create).
// Only info currently returned is if it exposes all ibc entry points, but this may grow later
func (vm *VM) AnalyzeCode(checksum Checksum) (*types.AnalysisReport, error) {
return api.AnalyzeCode(vm.cache, checksum)
}
// GetMetrics some internal metrics for monitoring purposes.
func (vm *VM) GetMetrics() (*types.Metrics, error) {
return api.GetMetrics(vm.cache)
}
// Instantiate will create a new contract based on the given Checksum.
// We can set the initMsg (contract "genesis") here, and it then receives
// an account and address and can be invoked (Execute) many times.
//
// Storage should be set with a PrefixedKVStore that this code can safely access.
//
// Under the hood, we may recompile the wasm, use a cached native compile, or even use a cached instance
// for performance.
func (vm *VM) Instantiate(
checksum Checksum,
env types.Env,
info types.MessageInfo,
initMsg []byte,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.Response, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
infoBin, err := json.Marshal(info)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.Instantiate(vm.cache, checksum, envBin, infoBin, initMsg, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var result types.ContractResult
err = json.Unmarshal(data, &result)
if err != nil {
return nil, gasUsed, err
}
if result.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", result.Err)
}
return result.Ok, gasUsed, nil
}
// Execute calls a given contract. Since the only difference between contracts with the same Checksum is the
// data in their local storage, and their address in the outside world, we need no ContractID here.
// (That is a detail for the external, sdk-facing, side).
//
// The caller is responsible for passing the correct `store` (which must have been initialized exactly once),
// and setting the env with relevant info on this instance (address, balance, etc)
func (vm *VM) Execute(
checksum Checksum,
env types.Env,
info types.MessageInfo,
executeMsg []byte,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.Response, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
infoBin, err := json.Marshal(info)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.Execute(vm.cache, checksum, envBin, infoBin, executeMsg, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var result types.ContractResult
err = json.Unmarshal(data, &result)
if err != nil {
return nil, gasUsed, err
}
if result.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", result.Err)
}
return result.Ok, gasUsed, nil
}
// Query allows a client to execute a contract-specific query. If the result is not empty, it should be
// valid json-encoded data to return to the client.
// The meaning of path and data can be determined by the code. Path is the suffix of the abci.QueryRequest.Path
func (vm *VM) Query(
checksum Checksum,
env types.Env,
queryMsg []byte,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) ([]byte, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.Query(vm.cache, checksum, envBin, queryMsg, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.QueryResponse
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// Migrate will migrate an existing contract to a new code binary.
// This takes storage of the data from the original contract and the Checksum of the new contract that should
// replace it. This allows it to run a migration step if needed, or return an error if unable to migrate
// the given data.
//
// MigrateMsg has some data on how to perform the migration.
func (vm *VM) Migrate(
checksum Checksum,
env types.Env,
migrateMsg []byte,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.Response, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.Migrate(vm.cache, checksum, envBin, migrateMsg, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.ContractResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// Sudo allows native Go modules to make priviledged (sudo) calls on the contract.
// The contract can expose entry points that cannot be triggered by any transaction, but only via
// native Go modules, and delegate the access control to the system.
//
// These work much like Migrate (same scenario) but allows custom apps to extend the priviledged entry points
// without forking cosmwasm-vm.
func (vm *VM) Sudo(
checksum Checksum,
env types.Env,
sudoMsg []byte,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.Response, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.Sudo(vm.cache, checksum, envBin, sudoMsg, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.ContractResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// Reply allows the native Go wasm modules to make a priviledged call to return the result
// of executing a SubMsg.
//
// These work much like Sudo (same scenario) but focuses on one specific case (and one message type)
func (vm *VM) Reply(
checksum Checksum,
env types.Env,
reply types.Reply,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.Response, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
replyBin, err := json.Marshal(reply)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.Reply(vm.cache, checksum, envBin, replyBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.ContractResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// IBCChannelOpen is available on IBC-enabled contracts and is a hook to call into
// during the handshake pahse
func (vm *VM) IBCChannelOpen(
checksum Checksum,
env types.Env,
msg types.IBCChannelOpenMsg,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.IBC3ChannelOpenResponse, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
msgBin, err := json.Marshal(msg)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.IBCChannelOpen(vm.cache, checksum, envBin, msgBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.IBCChannelOpenResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// IBCChannelConnect is available on IBC-enabled contracts and is a hook to call into
// during the handshake pahse
func (vm *VM) IBCChannelConnect(
checksum Checksum,
env types.Env,
msg types.IBCChannelConnectMsg,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.IBCBasicResponse, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
msgBin, err := json.Marshal(msg)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.IBCChannelConnect(vm.cache, checksum, envBin, msgBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.IBCBasicResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// IBCChannelClose is available on IBC-enabled contracts and is a hook to call into
// at the end of the channel lifetime
func (vm *VM) IBCChannelClose(
checksum Checksum,
env types.Env,
msg types.IBCChannelCloseMsg,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.IBCBasicResponse, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
msgBin, err := json.Marshal(msg)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.IBCChannelClose(vm.cache, checksum, envBin, msgBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.IBCBasicResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// IBCPacketReceive is available on IBC-enabled contracts and is called when an incoming
// packet is received on a channel belonging to this contract
func (vm *VM) IBCPacketReceive(
checksum Checksum,
env types.Env,
msg types.IBCPacketReceiveMsg,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.IBCReceiveResult, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
msgBin, err := json.Marshal(msg)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.IBCPacketReceive(vm.cache, checksum, envBin, msgBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.IBCReceiveResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
return &resp, gasUsed, nil
}
// IBCPacketAck is available on IBC-enabled contracts and is called when an
// the response for an outgoing packet (previously sent by this contract)
// is received
func (vm *VM) IBCPacketAck(
checksum Checksum,
env types.Env,
msg types.IBCPacketAckMsg,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.IBCBasicResponse, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
msgBin, err := json.Marshal(msg)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.IBCPacketAck(vm.cache, checksum, envBin, msgBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.IBCBasicResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}
// IBCPacketTimeout is available on IBC-enabled contracts and is called when an
// outgoing packet (previously sent by this contract) will provably never be executed.
// Usually handled like ack returning an error
func (vm *VM) IBCPacketTimeout(
checksum Checksum,
env types.Env,
msg types.IBCPacketTimeoutMsg,
store KVStore,
goapi GoAPI,
querier Querier,
gasMeter GasMeter,
gasLimit uint64,
deserCost types.UFraction,
) (*types.IBCBasicResponse, uint64, error) {
envBin, err := json.Marshal(env)
if err != nil {
return nil, 0, err
}
msgBin, err := json.Marshal(msg)
if err != nil {
return nil, 0, err
}
data, gasUsed, err := api.IBCPacketTimeout(vm.cache, checksum, envBin, msgBin, &gasMeter, store, &goapi, &querier, gasLimit, vm.printDebug)
if err != nil {
return nil, gasUsed, err
}
gasForDeserialization := deserCost.Mul(uint64(len(data))).Floor()
if gasLimit < gasForDeserialization+gasUsed {
return nil, gasUsed, fmt.Errorf("Insufficient gas left to deserialize contract execution result (%d bytes)", len(data))
}
gasUsed += gasForDeserialization
var resp types.IBCBasicResult
err = json.Unmarshal(data, &resp)
if err != nil {
return nil, gasUsed, err
}
if resp.Err != "" {
return nil, gasUsed, fmt.Errorf("%s", resp.Err)
}
return resp.Ok, gasUsed, nil
}