//! Instruction types

use crate::error::TokenError;
use solana_sdk::{
    instruction::{AccountMeta, Instruction},
    program_error::ProgramError,
    pubkey::Pubkey,
};
use std::mem::size_of;

/// Minimum number of multisignature signers (min N)
pub const MIN_SIGNERS: usize = 1;
/// Maximum number of multisignature signers (max N)
pub const MAX_SIGNERS: usize = 11;

/// Instructions supported by the token program.
#[repr(C)]
#[derive(Clone, Debug, PartialEq)]
pub enum TokenInstruction {
    /// Initializes a new mint and optionally deposits all the newly minted tokens in an account.
    ///
    /// The `InitializeMint` instruction requires no signers and MUST be included within
    /// the same Transaction as the system program's `CreateInstruction` that creates the account
    /// being initialized.  Otherwise another party can acquire ownership of the uninitialized account.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   0. `[writable]` The mint to initialize.
    ///   1.
    ///      * If supply is non-zero: `[writable]` The account to hold all the newly minted tokens.
    ///      * If supply is zero: `[]` The owner/multisignature of the mint.
    ///   2. `[]` (optional) The owner/multisignature of the mint if supply is non-zero, if
    ///                      present then further minting is supported.
    ///
    InitializeMint {
        /// Initial amount of tokens to mint.
        amount: u64,
        /// Number of base 10 digits to the right of the decimal place.
        decimals: u8,
    },
    /// Initializes a new account to hold tokens.  If this account is associated with the native mint
    /// then the token balance of the initialized account will be equal to the amount of SOL in the account.
    ///
    /// The `InitializeAccount` instruction requires no signers and MUST be included within
    /// the same Transaction as the system program's `CreateInstruction` that creates the account
    /// being initialized.  Otherwise another party can acquire ownership of the uninitialized account.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   0. `[writable]`  The account to initialize.
    ///   1. `[]` The mint this account will be associated with.
    ///   2. `[]` The new account's owner/multisignature.
    InitializeAccount,
    /// Initializes a multisignature account with N provided signers.
    ///
    /// Multisignature accounts can used in place of any single owner/delegate accounts in any
    /// token instruction that require an owner/delegate to be present.  The variant field represents the
    /// number of signers (M) required to validate this multisignature account.
    ///
    /// The `InitializeMultisig` instruction requires no signers and MUST be included within
    /// the same Transaction as the system program's `CreateInstruction` that creates the account
    /// being initialized.  Otherwise another party can acquire ownership of the uninitialized account.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   0. `[writable]` The multisignature account to initialize.
    ///   1. ..1+N. `[]` The signer accounts, must equal to N where 1 <= N <= 11.
    InitializeMultisig {
        /// The number of signers (M) required to validate this multisignature account.
        m: u8,
    },
    /// Transfers tokens from one account to another either directly or via a delegate.  If this
    /// account is associated with the native mint then equal amounts of SOL and Tokens will be
    /// transferred to the destination account.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   * Single owner/delegate
    ///   0. `[writable]` The source account.
    ///   1. `[writable]` The destination account.
    ///   2. '[signer]' The source account's owner/delegate.
    ///
    ///   * Multisignature owner/delegate
    ///   0. `[writable]` The source account.
    ///   1. `[writable]` The destination account.
    ///   2. '[]' The source account's multisignature owner/delegate.
    ///   3. ..3+M '[signer]' M signer accounts.
    Transfer {
        /// The amount of tokens to transfer.
        amount: u64,
    },
    /// Approves a delegate.  A delegate is given the authority over
    /// tokens on behalf of the source account's owner.

    /// Accounts expected by this instruction:
    ///
    ///   * Single owner
    ///   0. `[writable]` The source account.
    ///   1. `[]` The delegate.
    ///   2. `[signer]` The source account owner.
    ///
    ///   * Multisignature owner
    ///   0. `[writable]` The source account.
    ///   1. `[]` The delegate.
    ///   2. '[]' The source account's multisignature owner.
    ///   3. ..3+M '[signer]' M signer accounts
    Approve {
        /// The amount of tokens the delegate is approved for.
        amount: u64,
    },
    /// Revokes the delegate's authority.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   * Single owner
    ///   0. `[writable]` The source account.
    ///   1. `[signer]` The source account owner.
    ///
    ///   * Multisignature owner
    ///   0. `[writable]` The source account.
    ///   1. '[]' The source account's multisignature owner.
    ///   2. ..2+M '[signer]' M signer accounts
    Revoke,
    /// Sets a new owner of a mint or account.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   * Single owner
    ///   0. `[writable]` The mint or account to change the owner of.
    ///   1. `[]` The new owner/delegate/multisignature.
    ///   2. `[signer]` The owner of the mint or account.
    ///
    ///   * Multisignature owner
    ///   0. `[writable]` The mint or account to change the owner of.
    ///   1. `[]` The new owner/delegate/multisignature.
    ///   2. `[]` The mint's or account's multisignature owner.
    ///   3. ..3+M '[signer]' M signer accounts
    SetOwner,
    /// Mints new tokens to an account.  The native mint does not support minting.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   * Single owner
    ///   0. `[writable]` The mint.
    ///   1. `[writable]` The account to mint tokens to.
    ///   2. `[signer]` The mint's owner.
    ///
    ///   * Multisignature owner
    ///   0. `[writable]` The mint.
    ///   1. `[writable]` The account to mint tokens to.
    ///   2. `[]` The mint's multisignature owner.
    ///   3. ..3+M '[signer]' M signer accounts.
    MintTo {
        /// The amount of new tokens to mint.
        amount: u64,
    },
    /// Burns tokens by removing them from an account.  `Burn` does not support accounts
    /// associated with the native mint, use `CloseAccount` instead.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   * Single owner/delegate
    ///   0. `[writable]` The account to burn from.
    ///   1. `[signer]` The account's owner/delegate.
    ///
    ///   * Multisignature owner/delegate
    ///   0. `[writable]` The account to burn from.
    ///   1. `[]` The account's multisignature owner/delegate.
    ///   2. ..2+M '[signer]' M signer accounts.
    Burn {
        /// The amount of tokens to burn.
        amount: u64,
    },
    /// Close an account by transferring all its SOL to the destination account.
    /// Non-native accounts may only be closed if its token amount is zero.
    ///
    /// Accounts expected by this instruction:
    ///
    ///   * Single owner
    ///   0. `[writable]` The account to close.
    ///   1. '[writable]' The destination account.
    ///   2. `[signer]` The account's owner.
    ///
    ///   * Multisignature owner
    ///   0. `[writable]` The account to close.
    ///   1. '[writable]' The destination account.
    ///   2. `[]` The account's multisignature owner.
    ///   3. ..3+M '[signer]' M signer accounts.
    CloseAccount,
}
impl TokenInstruction {
    /// Unpacks a byte buffer into a [TokenInstruction](enum.TokenInstruction.html).
    pub fn unpack(input: &[u8]) -> Result<Self, ProgramError> {
        if input.len() < size_of::<u8>() {
            return Err(TokenError::InvalidInstruction.into());
        }
        Ok(match input[0] {
            0 => {
                if input.len() < size_of::<u8>() + size_of::<u64>() + size_of::<u8>() {
                    return Err(TokenError::InvalidInstruction.into());
                }
                #[allow(clippy::cast_ptr_alignment)]
                let amount = unsafe { *(&input[size_of::<u8>()] as *const u8 as *const u64) };
                let decimals =
                    unsafe { *(&input[size_of::<u8>() + size_of::<u64>()] as *const u8) };
                Self::InitializeMint { amount, decimals }
            }
            1 => Self::InitializeAccount,
            2 => {
                if input.len() < size_of::<u8>() + size_of::<u8>() {
                    return Err(TokenError::InvalidInstruction.into());
                }
                #[allow(clippy::cast_ptr_alignment)]
                let m = unsafe { *(&input[1] as *const u8) };
                Self::InitializeMultisig { m }
            }
            3 => {
                if input.len() < size_of::<u8>() + size_of::<u64>() {
                    return Err(TokenError::InvalidInstruction.into());
                }
                #[allow(clippy::cast_ptr_alignment)]
                let amount = unsafe { *(&input[size_of::<u8>()] as *const u8 as *const u64) };
                Self::Transfer { amount }
            }
            4 => {
                if input.len() < size_of::<u8>() + size_of::<u64>() {
                    return Err(TokenError::InvalidInstruction.into());
                }
                #[allow(clippy::cast_ptr_alignment)]
                let amount = unsafe { *(&input[size_of::<u8>()] as *const u8 as *const u64) };
                Self::Approve { amount }
            }
            5 => Self::Revoke,
            6 => Self::SetOwner,
            7 => {
                if input.len() < size_of::<u8>() + size_of::<u64>() {
                    return Err(TokenError::InvalidInstruction.into());
                }
                #[allow(clippy::cast_ptr_alignment)]
                let amount = unsafe { *(&input[size_of::<u8>()] as *const u8 as *const u64) };
                Self::MintTo { amount }
            }
            8 => {
                if input.len() < size_of::<u8>() + size_of::<u64>() {
                    return Err(TokenError::InvalidInstruction.into());
                }
                #[allow(clippy::cast_ptr_alignment)]
                let amount = unsafe { *(&input[size_of::<u8>()] as *const u8 as *const u64) };
                Self::Burn { amount }
            }
            9 => Self::CloseAccount,
            _ => return Err(TokenError::InvalidInstruction.into()),
        })
    }

    /// Packs a [TokenInstruction](enum.TokenInstruction.html) into a byte buffer.
    pub fn pack(self: &Self) -> Result<Vec<u8>, ProgramError> {
        let mut output = vec![0u8; size_of::<TokenInstruction>()];
        match self {
            Self::InitializeMint { amount, decimals } => {
                output[0] = 0;
                #[allow(clippy::cast_ptr_alignment)]
                let value = unsafe { &mut *(&mut output[size_of::<u8>()] as *mut u8 as *mut u64) };
                *value = *amount;
                let value =
                    unsafe { &mut *(&mut output[size_of::<u8>() + size_of::<u64>()] as *mut u8) };
                *value = *decimals;
            }
            Self::InitializeAccount => output[0] = 1,
            Self::InitializeMultisig { m } => {
                output[0] = 2;
                #[allow(clippy::cast_ptr_alignment)]
                let value = unsafe { &mut *(&mut output[size_of::<u8>()] as *mut u8 as *mut u8) };
                *value = *m;
            }
            Self::Transfer { amount } => {
                output[0] = 3;
                #[allow(clippy::cast_ptr_alignment)]
                let value = unsafe { &mut *(&mut output[size_of::<u8>()] as *mut u8 as *mut u64) };
                *value = *amount;
            }
            Self::Approve { amount } => {
                output[0] = 4;
                #[allow(clippy::cast_ptr_alignment)]
                let value = unsafe { &mut *(&mut output[size_of::<u8>()] as *mut u8 as *mut u64) };
                *value = *amount;
            }
            Self::Revoke => output[0] = 5,
            Self::SetOwner => output[0] = 6,
            Self::MintTo { amount } => {
                output[0] = 7;
                #[allow(clippy::cast_ptr_alignment)]
                let value = unsafe { &mut *(&mut output[size_of::<u8>()] as *mut u8 as *mut u64) };
                *value = *amount;
            }
            Self::Burn { amount } => {
                output[0] = 8;
                #[allow(clippy::cast_ptr_alignment)]
                let value = unsafe { &mut *(&mut output[size_of::<u8>()] as *mut u8 as *mut u64) };
                *value = *amount;
            }
            Self::CloseAccount => output[0] = 9,
        }
        Ok(output)
    }
}

/// Creates a 'InitializeMint' instruction.
pub fn initialize_mint(
    token_program_id: &Pubkey,
    mint_pubkey: &Pubkey,
    account_pubkey: Option<&Pubkey>,
    owner_pubkey: Option<&Pubkey>,
    amount: u64,
    decimals: u8,
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::InitializeMint { amount, decimals }.pack()?;

    let mut accounts = vec![AccountMeta::new(*mint_pubkey, false)];
    if amount != 0 {
        match account_pubkey {
            Some(pubkey) => accounts.push(AccountMeta::new(*pubkey, false)),
            None => {
                return Err(ProgramError::NotEnoughAccountKeys);
            }
        }
    }
    match owner_pubkey {
        Some(pubkey) => accounts.push(AccountMeta::new_readonly(*pubkey, false)),
        None => {
            if amount == 0 {
                return Err(TokenError::OwnerRequiredIfNoInitialSupply.into());
            }
        }
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates a `InitializeAccount` instruction.
pub fn initialize_account(
    token_program_id: &Pubkey,
    account_pubkey: &Pubkey,
    mint_pubkey: &Pubkey,
    owner_pubkey: &Pubkey,
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::InitializeAccount.pack()?;

    let accounts = vec![
        AccountMeta::new(*account_pubkey, false),
        AccountMeta::new_readonly(*mint_pubkey, false),
        AccountMeta::new_readonly(*owner_pubkey, false),
    ];

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates a `InitializeMultisig` instruction.
pub fn initialize_multisig(
    token_program_id: &Pubkey,
    multisig_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
    m: u8,
) -> Result<Instruction, ProgramError> {
    if !is_valid_signer_index(m as usize)
        || !is_valid_signer_index(signer_pubkeys.len())
        || m as usize > signer_pubkeys.len()
    {
        return Err(ProgramError::MissingRequiredSignature);
    }
    let data = TokenInstruction::InitializeMultisig { m }.pack()?;

    let mut accounts = Vec::with_capacity(1 + signer_pubkeys.len());
    accounts.push(AccountMeta::new(*multisig_pubkey, false));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new_readonly(**signer_pubkey, false));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates a `Transfer` instruction.
pub fn transfer(
    token_program_id: &Pubkey,
    source_pubkey: &Pubkey,
    destination_pubkey: &Pubkey,
    authority_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
    amount: u64,
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::Transfer { amount }.pack()?;

    let mut accounts = Vec::with_capacity(3 + signer_pubkeys.len());
    accounts.push(AccountMeta::new(*source_pubkey, false));
    accounts.push(AccountMeta::new(*destination_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *authority_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates an `Approve` instruction.
pub fn approve(
    token_program_id: &Pubkey,
    source_pubkey: &Pubkey,
    delegate_pubkey: &Pubkey,
    owner_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
    amount: u64,
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::Approve { amount }.pack()?;

    let mut accounts = Vec::with_capacity(3 + signer_pubkeys.len());
    accounts.push(AccountMeta::new_readonly(*source_pubkey, false));
    accounts.push(AccountMeta::new(*delegate_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *owner_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates an `Approve` instruction.
pub fn revoke(
    token_program_id: &Pubkey,
    source_pubkey: &Pubkey,
    owner_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::Revoke.pack()?;

    let mut accounts = Vec::with_capacity(2 + signer_pubkeys.len());
    accounts.push(AccountMeta::new_readonly(*source_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *owner_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates an `SetOwner` instruction.
pub fn set_owner(
    token_program_id: &Pubkey,
    owned_pubkey: &Pubkey,
    new_owner_pubkey: &Pubkey,
    owner_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::SetOwner.pack()?;

    let mut accounts = Vec::with_capacity(3 + signer_pubkeys.len());
    accounts.push(AccountMeta::new(*owned_pubkey, false));
    accounts.push(AccountMeta::new_readonly(*new_owner_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *owner_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates an `MintTo` instruction.
pub fn mint_to(
    token_program_id: &Pubkey,
    mint_pubkey: &Pubkey,
    account_pubkey: &Pubkey,
    owner_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
    amount: u64,
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::MintTo { amount }.pack()?;

    let mut accounts = Vec::with_capacity(3 + signer_pubkeys.len());
    accounts.push(AccountMeta::new(*mint_pubkey, false));
    accounts.push(AccountMeta::new(*account_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *owner_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates an `Burn` instruction.
pub fn burn(
    token_program_id: &Pubkey,
    account_pubkey: &Pubkey,
    authority_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
    amount: u64,
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::Burn { amount }.pack()?;

    let mut accounts = Vec::with_capacity(2 + signer_pubkeys.len());
    accounts.push(AccountMeta::new(*account_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *authority_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Creates an `CloseAccount` instruction.
pub fn close_account(
    token_program_id: &Pubkey,
    account_pubkey: &Pubkey,
    dest_pubkey: &Pubkey,
    authority_pubkey: &Pubkey,
    signer_pubkeys: &[&Pubkey],
) -> Result<Instruction, ProgramError> {
    let data = TokenInstruction::CloseAccount.pack()?;

    let mut accounts = Vec::with_capacity(3 + signer_pubkeys.len());
    accounts.push(AccountMeta::new(*account_pubkey, false));
    accounts.push(AccountMeta::new(*dest_pubkey, false));
    accounts.push(AccountMeta::new_readonly(
        *authority_pubkey,
        signer_pubkeys.is_empty(),
    ));
    for signer_pubkey in signer_pubkeys.iter() {
        accounts.push(AccountMeta::new(**signer_pubkey, true));
    }

    Ok(Instruction {
        program_id: *token_program_id,
        accounts,
        data,
    })
}

/// Utility function that checks index is between MIN_SIGNERS and MAX_SIGNERS
pub fn is_valid_signer_index(index: usize) -> bool {
    !(index < MIN_SIGNERS || index > MAX_SIGNERS)
}