finished register definitions

This commit is contained in:
pca 2020-05-01 15:38:07 +08:00
parent d9e8a667bd
commit 244ccdeac2
2 changed files with 185 additions and 16 deletions

View File

@ -2,6 +2,34 @@ use volatile_register::{RO, RW, WO};
use libregister::{register, register_at, register_bit, register_bits, register_bits_typed}; use libregister::{register, register_at, register_bit, register_bits, register_bits_typed};
#[repr(C)]
pub struct RegisterBlock {
pub sdma_system_address: RW<u32>,
pub block_size_block_count: BlockSizeBlockCount,
pub argument: RW<u32>,
pub transfer_mode_command: TransferModeCommand,
pub responses: [RO<u32>; 4],
pub buffer: RW<u32>,
pub present_state: PresentState,
/// Host. power, block gap, wakeup control
pub control: Control,
/// Clock and timeout control, and software reset register.
pub timing_control: TimingControl,
pub interrupt_status: InterruptStatus,
pub interrupt_status_en: InterruptStatusEn,
pub interrupt_signal_en: InterruptSignalEn,
pub auto_cmd12_error_status: AutoCmd12ErrorStatus,
pub capabilities: Capabilities,
pub max_current_capabilities: MaxCurrentCapabilities,
pub force_event: ForceEvent,
pub adma_error_status: AdmaErrorStatus,
pub adma_system_address: RW<u32>,
pub boot_data_timeout_counter: RW<u32>,
pub debug_selection: DebugSelection,
pub spi_interrupt_support: SpiInterruptSupport,
pub misc_reg: MiscReg,
}
#[allow(unused)] #[allow(unused)]
#[repr(u8)] #[repr(u8)]
pub enum CommandType { pub enum CommandType {
@ -42,7 +70,7 @@ pub enum DmaSelect {
#[allow(unused)] #[allow(unused)]
#[repr(u8)] #[repr(u8)]
/// SDCLK Frequency divisor, d(number) means baseclock divides by (number). /// SDCLK Frequency divisor, d(number) means baseclock divided by (number).
pub enum SdclkFreqDivisor { pub enum SdclkFreqDivisor {
D256 = 0x80, D256 = 0x80,
D128 = 0x40, D128 = 0x40,
@ -55,20 +83,19 @@ pub enum SdclkFreqDivisor {
D1 = 0x00, D1 = 0x00,
} }
#[repr(C)] #[allow(unused)]
pub struct RegisterBlock { #[repr(u8)]
pub sdma_system_address: RO<u32>, pub enum AdmaErrorState {
pub block_size_block_count: BlockSizeBlockCount, StStop = 0b00,
pub argument: RW<u32>, StFds = 0b01,
pub transfer_mode_command: TransferModeCommand, StTfr = 0b11,
pub responses: [RO<u32>; 4], }
pub buffer: RW<u32>,
pub present_state: PresentState, #[allow(unused)]
/// Host. power, block gap, wakeup control #[repr(u8)]
pub control: Control, pub enum SpecificationVersion {
/// Clock and timeout control, and software reset register. V1 = 0,
pub timing_control: TimingControl, V2 = 1,
pub interrupt_status: InterruptStatus,
} }
register_at!(RegisterBlock, 0xE0100000, sd0); register_at!(RegisterBlock, 0xE0100000, sd0);
@ -377,3 +404,144 @@ register_bit!(interrupt_status, dma_interrupt, 3, WTC);
register_bit!(interrupt_status, block_gap_event, 2, WTC); register_bit!(interrupt_status, block_gap_event, 2, WTC);
register_bit!(interrupt_status, transfer_complete, 1, WTC); register_bit!(interrupt_status, transfer_complete, 1, WTC);
register_bit!(interrupt_status, command_complete, 0, WTC); register_bit!(interrupt_status, command_complete, 0, WTC);
register!(interrupt_status_en, InterruptStatusEn, RW, u32);
register_bit!(interrupt_status_en, ceata_error_status_en, 29);
register_bit!(interrupt_status_en, target_response_error_status_en, 28);
register_bit!(interrupt_status_en, adma_error_status_en, 25);
register_bit!(interrupt_status_en, auto_cmd12_error_status_en, 24);
register_bit!(interrupt_status_en, current_limit_error_status_en, 23);
register_bit!(interrupt_status_en, data_end_bit_error_status_en, 22);
register_bit!(interrupt_status_en, data_crc_error_status_en, 21);
register_bit!(interrupt_status_en, data_timeout_error_status_en, 20);
register_bit!(interrupt_status_en, cmd_index_error_status_en, 19);
register_bit!(interrupt_status_en, cmd_end_bit_error_status_en, 18);
register_bit!(interrupt_status_en, cmd_crc_error_status_en, 17);
register_bit!(interrupt_status_en, cmd_timeout_error_status_en, 16);
register_bit!(interrupt_status_en, fixed_to_0, 15, RO);
register_bit!(interrupt_status_en, boot_terminate_interrupt_en, 10);
register_bit!(interrupt_status_en, boot_ack_rcv_en, 9);
register_bit!(interrupt_status_en, card_interrupt_status_en, 8);
register_bit!(interrupt_status_en, card_removal_status_en, 7);
register_bit!(interrupt_status_en, card_insertion_status_en, 6);
register_bit!(interrupt_status_en, buffer_read_ready_status_en, 5);
register_bit!(interrupt_status_en, buffer_write_ready_status_en, 4);
register_bit!(interrupt_status_en, dma_interrupt_status_en, 3);
register_bit!(interrupt_status_en, block_gap_evt_status_en, 2);
register_bit!(interrupt_status_en, transfer_complete_status_en, 1);
register_bit!(interrupt_status_en, cmd_complete_status_en, 0);
register!(interrupt_signal_en, InterruptSignalEn, RW, u32);
register_bit!(interrupt_signal_en, ceata_error_signal_en, 29);
register_bit!(interrupt_signal_en, target_response_error_signal_en, 28);
register_bit!(interrupt_signal_en, adma_error_signal_en, 25);
register_bit!(interrupt_signal_en, auto_cmd12_error_signal_en, 24);
register_bit!(interrupt_signal_en, current_limit_error_signal_en, 23);
register_bit!(interrupt_signal_en, data_end_bit_error_signal_en, 22);
register_bit!(interrupt_signal_en, data_crc_error_signal_en, 21);
register_bit!(interrupt_signal_en, data_timeout_error_signal_en, 20);
register_bit!(interrupt_signal_en, cmd_index_error_signal_en, 19);
register_bit!(interrupt_signal_en, cmd_end_bit_error_signal_en, 18);
register_bit!(interrupt_signal_en, cmd_crc_error_signal_en, 17);
register_bit!(interrupt_signal_en, cmd_timeout_error_signal_en, 16);
register_bit!(interrupt_signal_en, fixed_to_0, 15, RO);
register_bit!(interrupt_signal_en, boot_terminate_interrupt_signal_en, 10);
register_bit!(interrupt_signal_en, boot_ack_rcv_signal_en, 9);
register_bit!(interrupt_signal_en, card_interrupt_signal_en, 8);
register_bit!(interrupt_signal_en, card_removal_signal_en, 7);
register_bit!(interrupt_signal_en, card_insertion_signal_en, 6);
register_bit!(interrupt_signal_en, buffer_read_ready_signal_en, 5);
register_bit!(interrupt_signal_en, buffer_write_ready_signal_en, 4);
register_bit!(interrupt_signal_en, dma_interrupt_signal_en, 3);
register_bit!(interrupt_signal_en, block_gap_evt_signal_en, 2);
register_bit!(interrupt_signal_en, transfer_complete_signal_en, 1);
register_bit!(interrupt_signal_en, cmd_complete_signal_en, 0);
register!(auto_cmd12_error_status, AutoCmd12ErrorStatus, RO, u32);
register_bit!(
auto_cmd12_error_status,
cmd_not_issued_by_auto_cmd12_error,
7
);
register_bit!(auto_cmd12_error_status, index_error, 4);
register_bit!(auto_cmd12_error_status, end_bit_error, 3);
register_bit!(auto_cmd12_error_status, crc_error, 2);
register_bit!(auto_cmd12_error_status, timeout_error, 1);
register_bit!(auto_cmd12_error_status, not_executed, 0);
register!(capabilities, Capabilities, RO, u32);
register_bit!(capabilities, spi_block_mode, 30);
register_bit!(capabilities, spi_mode, 29);
register_bit!(capabilities, support_64bit, 28);
register_bit!(capabilities, interrupt_mode, 27);
register_bit!(capabilities, voltage_1_8, 26);
register_bit!(capabilities, voltage_3_0, 25);
register_bit!(capabilities, voltage_3_3, 24);
register_bit!(capabilities, suspend_resume, 23);
register_bit!(capabilities, sdma, 22);
register_bit!(capabilities, hgih_speed, 21);
register_bit!(capabilities, adma2, 19);
register_bit!(capabilities, extended_media_bus, 18);
register_bits!(
capabilities,
/// Length = 2^(9 + v) bytes.
max_block_len,
u8,
16,
17
);
register_bit!(capabilities, timeout_clock_unit, 7);
register!(max_current_capabilities, MaxCurrentCapabilities, RO, u32);
register_bits!(max_current_capabilities, max_current_1_8v, u8, 16, 23);
register_bits!(max_current_capabilities, max_current_3_0v, u8, 8, 15);
register_bits!(max_current_capabilities, max_current_3_3v, u8, 0, 7);
register!(force_event, ForceEvent, WO, u32);
register_bit!(force_event, ceata_error, 29);
register_bit!(force_event, target_response_error, 28);
register_bit!(force_event, adma_error, 25);
register_bit!(force_event, auto_cmd12_error, 24);
register_bit!(force_event, current_limit_error, 23);
register_bit!(force_event, data_end_bit_error, 22);
register_bit!(force_event, data_crc_error, 21);
register_bit!(force_event, data_timeout_error, 20);
register_bit!(force_event, cmd_index_error, 19);
register_bit!(force_event, cmd_end_bit_error, 18);
register_bit!(force_event, cmd_crc_error, 17);
register_bit!(force_event, cmd_timeout_error, 16);
register_bit!(force_event, cmd_not_issued_by_auto_cmd12_error, 7);
register_bit!(force_event, auto_cmd12_index_error, 4);
register_bit!(force_event, auto_cmd12_end_bit_error, 3);
register_bit!(force_event, auto_cmd12_crc_error, 2);
register_bit!(force_event, auto_cmd12_timeout_error, 1);
register_bit!(force_event, auto_cmd12_not_executed, 0);
register!(adma_error_status, AdmaErrorStatus, RW, u32, 0b11);
register_bit!(adma_error_status, length_mismatch_error, 2, WTC);
register_bits_typed!(adma_error_status, error_state, u8, AdmaErrorState, 0, 1);
register!(debug_selection, DebugSelection, WO, u32);
register_bit!(debug_selection, debug_select, 0);
register!(spi_interrupt_support, SpiInterruptSupport, RW, u32);
register_bits!(
spi_interrupt_support,
/// There should be a problem with the documentation of this field.
spi_int_support,
u8,
0,
7
);
register!(misc_reg, MiscReg, RO, u32);
register_bits!(misc_reg, vendor_version_num, u8, 24, 31);
register_bits_typed!(misc_reg, spec_ver, u8, SpecificationVersion, 16, 23);
register_bits!(
misc_reg,
/// Logical OR of interrupt signal and wakeup signal for each slot.
slot_interrupt_signal,
u8,
0,
7
);

View File

@ -248,6 +248,7 @@ macro_rules! register_bit {
$(#[$outer])* $(#[$outer])*
impl $mod_name::Write { impl $mod_name::Write {
/// Clear bit field. (WTC)
#[allow(unused)] #[allow(unused)]
#[inline] #[inline]
pub fn $name(mut self) -> Self { pub fn $name(mut self) -> Self {