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MintTo.go
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/
MintTo.go
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// Copyright 2021 github.com/gagliardetto
//
// 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.
package token
import (
"errors"
"fmt"
ag_binary "github.com/gagliardetto/binary"
ag_solanago "github.com/gagliardetto/solana-go"
ag_format "github.com/gagliardetto/solana-go/text/format"
ag_treeout "github.com/gagliardetto/treeout"
)
// Mints new tokens to an account. The native mint does not support
// minting.
type MintTo struct {
// The amount of new tokens to mint.
Amount *uint64
// [0] = [WRITE] mint
// ··········· The mint.
//
// [1] = [WRITE] destination
// ··········· The account to mint tokens to.
//
// [2] = [] authority
// ··········· The mint's minting authority.
//
// [3...] = [SIGNER] signers
// ··········· M signer accounts.
Accounts ag_solanago.AccountMetaSlice `bin:"-" borsh_skip:"true"`
Signers ag_solanago.AccountMetaSlice `bin:"-" borsh_skip:"true"`
}
func (obj *MintTo) SetAccounts(accounts []*ag_solanago.AccountMeta) error {
obj.Accounts, obj.Signers = ag_solanago.AccountMetaSlice(accounts).SplitFrom(3)
return nil
}
func (slice MintTo) GetAccounts() (accounts []*ag_solanago.AccountMeta) {
accounts = append(accounts, slice.Accounts...)
accounts = append(accounts, slice.Signers...)
return
}
// NewMintToInstructionBuilder creates a new `MintTo` instruction builder.
func NewMintToInstructionBuilder() *MintTo {
nd := &MintTo{
Accounts: make(ag_solanago.AccountMetaSlice, 3),
Signers: make(ag_solanago.AccountMetaSlice, 0),
}
return nd
}
// SetAmount sets the "amount" parameter.
// The amount of new tokens to mint.
func (inst *MintTo) SetAmount(amount uint64) *MintTo {
inst.Amount = &amount
return inst
}
// SetMintAccount sets the "mint" account.
// The mint.
func (inst *MintTo) SetMintAccount(mint ag_solanago.PublicKey) *MintTo {
inst.Accounts[0] = ag_solanago.Meta(mint).WRITE()
return inst
}
// GetMintAccount gets the "mint" account.
// The mint.
func (inst *MintTo) GetMintAccount() *ag_solanago.AccountMeta {
return inst.Accounts[0]
}
// SetDestinationAccount sets the "destination" account.
// The account to mint tokens to.
func (inst *MintTo) SetDestinationAccount(destination ag_solanago.PublicKey) *MintTo {
inst.Accounts[1] = ag_solanago.Meta(destination).WRITE()
return inst
}
// GetDestinationAccount gets the "destination" account.
// The account to mint tokens to.
func (inst *MintTo) GetDestinationAccount() *ag_solanago.AccountMeta {
return inst.Accounts[1]
}
// SetAuthorityAccount sets the "authority" account.
// The mint's minting authority.
func (inst *MintTo) SetAuthorityAccount(authority ag_solanago.PublicKey, multisigSigners ...ag_solanago.PublicKey) *MintTo {
inst.Accounts[2] = ag_solanago.Meta(authority)
if len(multisigSigners) == 0 {
inst.Accounts[2].SIGNER()
}
for _, signer := range multisigSigners {
inst.Signers = append(inst.Signers, ag_solanago.Meta(signer).SIGNER())
}
return inst
}
// GetAuthorityAccount gets the "authority" account.
// The mint's minting authority.
func (inst *MintTo) GetAuthorityAccount() *ag_solanago.AccountMeta {
return inst.Accounts[2]
}
func (inst MintTo) Build() *Instruction {
return &Instruction{BaseVariant: ag_binary.BaseVariant{
Impl: inst,
TypeID: ag_binary.TypeIDFromUint8(Instruction_MintTo),
}}
}
// ValidateAndBuild validates the instruction parameters and accounts;
// if there is a validation error, it returns the error.
// Otherwise, it builds and returns the instruction.
func (inst MintTo) ValidateAndBuild() (*Instruction, error) {
if err := inst.Validate(); err != nil {
return nil, err
}
return inst.Build(), nil
}
func (inst *MintTo) Validate() error {
// Check whether all (required) parameters are set:
{
if inst.Amount == nil {
return errors.New("Amount parameter is not set")
}
}
// Check whether all (required) accounts are set:
{
if inst.Accounts[0] == nil {
return errors.New("accounts.Mint is not set")
}
if inst.Accounts[1] == nil {
return errors.New("accounts.Destination is not set")
}
if inst.Accounts[2] == nil {
return errors.New("accounts.Authority is not set")
}
if !inst.Accounts[2].IsSigner && len(inst.Signers) == 0 {
return fmt.Errorf("accounts.Signers is not set")
}
if len(inst.Signers) > MAX_SIGNERS {
return fmt.Errorf("too many signers; got %v, but max is 11", len(inst.Signers))
}
}
return nil
}
func (inst *MintTo) EncodeToTree(parent ag_treeout.Branches) {
parent.Child(ag_format.Program(ProgramName, ProgramID)).
//
ParentFunc(func(programBranch ag_treeout.Branches) {
programBranch.Child(ag_format.Instruction("MintTo")).
//
ParentFunc(func(instructionBranch ag_treeout.Branches) {
// Parameters of the instruction:
instructionBranch.Child("Params").ParentFunc(func(paramsBranch ag_treeout.Branches) {
paramsBranch.Child(ag_format.Param("Amount", *inst.Amount))
})
// Accounts of the instruction:
instructionBranch.Child("Accounts").ParentFunc(func(accountsBranch ag_treeout.Branches) {
accountsBranch.Child(ag_format.Meta(" mint", inst.Accounts[0]))
accountsBranch.Child(ag_format.Meta("destination", inst.Accounts[1]))
accountsBranch.Child(ag_format.Meta(" authority", inst.Accounts[2]))
signersBranch := accountsBranch.Child(fmt.Sprintf("signers[len=%v]", len(inst.Signers)))
for i, v := range inst.Signers {
if len(inst.Signers) > 9 && i < 10 {
signersBranch.Child(ag_format.Meta(fmt.Sprintf(" [%v]", i), v))
} else {
signersBranch.Child(ag_format.Meta(fmt.Sprintf("[%v]", i), v))
}
}
})
})
})
}
func (obj MintTo) MarshalWithEncoder(encoder *ag_binary.Encoder) (err error) {
// Serialize `Amount` param:
err = encoder.Encode(obj.Amount)
if err != nil {
return err
}
return nil
}
func (obj *MintTo) UnmarshalWithDecoder(decoder *ag_binary.Decoder) (err error) {
// Deserialize `Amount`:
err = decoder.Decode(&obj.Amount)
if err != nil {
return err
}
return nil
}
// NewMintToInstruction declares a new MintTo instruction with the provided parameters and accounts.
func NewMintToInstruction(
// Parameters:
amount uint64,
// Accounts:
mint ag_solanago.PublicKey,
destination ag_solanago.PublicKey,
authority ag_solanago.PublicKey,
multisigSigners []ag_solanago.PublicKey,
) *MintTo {
return NewMintToInstructionBuilder().
SetAmount(amount).
SetMintAccount(mint).
SetDestinationAccount(destination).
SetAuthorityAccount(authority, multisigSigners...)
}