Struct quarry_redeemer::RedeemTokens
source · [−]pub struct RedeemTokens<'info> {
pub redeemer: Account<'info, Redeemer>,
pub source_authority: Signer<'info>,
pub iou_mint: Account<'info, Mint>,
pub iou_source: Account<'info, TokenAccount>,
pub redemption_vault: Account<'info, TokenAccount>,
pub redemption_destination: Account<'info, TokenAccount>,
pub token_program: Program<'info, Token>,
}
Fields
redeemer: Account<'info, Redeemer>
Redeemer PDA.
Authority of the source of the redeemed tokens.
iou_mint: Account<'info, Mint>
Mint of the IOU token.
iou_source: Account<'info, TokenAccount>
Source of the IOU tokens.
redemption_vault: Account<'info, TokenAccount>
TokenAccount holding the Redeemer’s redemption tokens.
redemption_destination: Account<'info, TokenAccount>
Destination of the IOU tokens.
token_program: Program<'info, Token>
The spl_token program corresponding to Token.
Implementations
sourceimpl<'info> RedeemTokens<'info>
impl<'info> RedeemTokens<'info>
sourcepub fn burn_iou_tokens(&self, amount: u64) -> Result<()>
pub fn burn_iou_tokens(&self, amount: u64) -> Result<()>
Burn IOU tokens from source account.
sourcepub fn transfer_redemption_tokens(&self, amount: u64) -> Result<()>
pub fn transfer_redemption_tokens(&self, amount: u64) -> Result<()>
Transfer redemption tokens from the redemption vault to the user.
Trait Implementations
sourceimpl<'info> Accounts<'info> for RedeemTokens<'info> where
'info: 'info,
impl<'info> Accounts<'info> for RedeemTokens<'info> where
'info: 'info,
sourcefn try_accounts(
program_id: &Pubkey,
accounts: &mut &[AccountInfo<'info>],
ix_data: &[u8],
__bumps: &mut BTreeMap<String, u8>,
__reallocs: &mut BTreeSet<Pubkey>
) -> Result<Self>
fn try_accounts(
program_id: &Pubkey,
accounts: &mut &[AccountInfo<'info>],
ix_data: &[u8],
__bumps: &mut BTreeMap<String, u8>,
__reallocs: &mut BTreeSet<Pubkey>
) -> Result<Self>
Returns the validated accounts struct. What constitutes “valid” is
program dependent. However, users of these types should never have to
worry about account substitution attacks. For example, if a program
expects a Mint
account from the SPL token program in a particular
field, then it should be impossible for this method to return Ok
if
any other account type is given–from the SPL token program or elsewhere. Read more
sourceimpl<'info> AccountsExit<'info> for RedeemTokens<'info> where
'info: 'info,
impl<'info> AccountsExit<'info> for RedeemTokens<'info> where
'info: 'info,
sourceimpl<'info> ToAccountInfos<'info> for RedeemTokens<'info> where
'info: 'info,
impl<'info> ToAccountInfos<'info> for RedeemTokens<'info> where
'info: 'info,
sourceimpl<'info> ToAccountMetas for RedeemTokens<'info>
impl<'info> ToAccountMetas for RedeemTokens<'info>
sourcefn to_account_metas(&self, is_signer: Option<bool>) -> Vec<AccountMeta>ⓘNotable traits for Vec<u8, A>impl<A> Write for Vec<u8, A> where
A: Allocator,
fn to_account_metas(&self, is_signer: Option<bool>) -> Vec<AccountMeta>ⓘNotable traits for Vec<u8, A>impl<A> Write for Vec<u8, A> where
A: Allocator,
A: Allocator,
is_signer
is given as an optional override for the signer meta field.
This covers the edge case when a program-derived-address needs to relay
a transaction from a client to another program but sign the transaction
before the relay. The client cannot mark the field as a signer, and so
we have to override the is_signer meta field given by the client. Read more
Auto Trait Implementations
impl<'info> !RefUnwindSafe for RedeemTokens<'info>
impl<'info> !Send for RedeemTokens<'info>
impl<'info> !Sync for RedeemTokens<'info>
impl<'info> Unpin for RedeemTokens<'info>
impl<'info> !UnwindSafe for RedeemTokens<'info>
Blanket Implementations
impl<T> AbiExample for T
impl<T> AbiExample for T
default fn example() -> T
sourceimpl<T> BorrowMut<T> for T where
T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
const: unstable · sourcefn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more