Merge pull request 'sdio-registers' (#29)

This commit is contained in:
Astro 2020-05-15 06:44:32 +08:00
commit 2c82fb793e
4 changed files with 611 additions and 0 deletions

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@ -17,4 +17,5 @@ pub mod flash;
pub mod dmac; pub mod dmac;
pub mod time; pub mod time;
pub mod timer; pub mod timer;
pub mod sdio;
pub mod logger; pub mod logger;

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@ -0,0 +1 @@
mod regs;

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@ -0,0 +1,547 @@
use volatile_register::{RO, RW, WO};
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)]
#[repr(u8)]
pub enum CommandType {
Normal = 0b00,
Suspend = 0b01,
Resume = 0b10,
Abort = 0b11,
}
#[allow(unused)]
#[repr(u8)]
pub enum ResponseTypeSelect {
NoResponse = 0b00,
Length136 = 0b01,
Length48 = 0b10,
Legnth48Check = 0b11,
}
#[allow(unused)]
#[repr(u8)]
pub enum BusVoltage {
/// 3.3V
V33 = 0b111,
/// 3.0V, typ.
V30 = 0b110,
/// 1.8V, typ.
V18 = 0b101,
}
#[allow(unused)]
#[repr(u8)]
pub enum DmaSelect {
SDMA = 0b00,
ADMA1 = 0b01,
ADMA2 = 0b10,
ADMA3 = 0b11,
}
#[allow(unused)]
#[repr(u8)]
/// SDCLK Frequency divisor, d(number) means baseclock divided by (number).
pub enum SdclkFreqDivisor {
D256 = 0x80,
D128 = 0x40,
D64 = 0x20,
D32 = 0x10,
D16 = 0x08,
D8 = 0x04,
D4 = 0x02,
D2 = 0x01,
D1 = 0x00,
}
#[allow(unused)]
#[repr(u8)]
pub enum AdmaErrorState {
StStop = 0b00,
StFds = 0b01,
StTfr = 0b11,
}
#[allow(unused)]
#[repr(u8)]
pub enum SpecificationVersion {
V1 = 0,
V2 = 1,
}
register_at!(RegisterBlock, 0xE0100000, sd0);
register_at!(RegisterBlock, 0xE0101000, sd1);
register!(block_size_block_count, BlockSizeBlockCount, RW, u32);
register_bits!(
block_size_block_count,
/// Current transfer block count.
blocks_count,
u16,
16,
31
);
register_bits!(
block_size_block_count,
/// Host SDMA Buffer Size, size = 2^(val + 2) KB.
dma_buffer_size,
u8,
12,
14
);
register_bits!(
block_size_block_count,
/// Block size for data transfer. Unit: byte.
transfer_block_size,
u16,
0,
11
);
register!(transfer_mode_command, TransferModeCommand, RW, u32);
register_bits!(
transfer_mode_command,
/// Command Number.
command_index,
u8,
24,
29
);
register_bits_typed!(
transfer_mode_command,
/// Command type register.
command_type,
u8,
CommandType,
22,
23
);
register_bit!(
transfer_mode_command,
/// 1 if data is present and shall be transferred using the DAT line.
data_present_select,
21
);
register_bit!(
transfer_mode_command,
/// If the index field shall be checked.
index_check_en,
20
);
register_bit!(
transfer_mode_command,
/// If CRC shall be checked.
crc_check_en,
19
);
register_bits_typed!(
transfer_mode_command,
/// Different type of response.
response_type_select,
u8,
ResponseTypeSelect,
16,
17
);
register_bit!(
transfer_mode_command,
/// Enables the multi block DAT line data transfer.
multi_block_en,
5
);
register_bit!(
transfer_mode_command,
/// 1 if read (card to host), 0 if write (host to card).
direction_select,
4
);
register_bit!(
transfer_mode_command,
/// If CMD12 shall be issued automatically when last block transfer is completed.
auto_cmd12_en,
2
);
register_bit!(
transfer_mode_command,
/// Enable the block count register.
block_count_en,
1
);
register_bit!(
transfer_mode_command,
/// Enable DMA,
dma_en,
0
);
register!(present_state, PresentState, RO, u32);
register_bit!(
present_state,
/// CMD Line Signal Level.
cmd_line_level,
24
);
register_bit!(
present_state,
/// Signal level in DAT[3]
dat3_level,
23
);
register_bit!(
present_state,
/// Signal level in DAT[2]
dat2_level,
22
);
register_bit!(
present_state,
/// Signal level in DAT[1]
dat1_level,
21
);
register_bit!(
present_state,
/// Signal level in DAT[0]
dat0_level,
20
);
register_bit!(
present_state,
/// Write enabled and inverse of SDx_WP pin level.
write_enabled,
19
);
register_bit!(
present_state,
/// Card detected and inverse of SDx_CDn pin level.
card_detected,
18
);
register_bit!(present_state, card_state_stable, 17);
register_bit!(present_state, card_inserted, 16);
register_bit!(present_state, buffer_read_en, 11);
register_bit!(present_state, buffer_write_en, 10);
register_bit!(present_state, read_transfer_active, 9);
register_bit!(present_state, write_transfer_active, 8);
register_bit!(present_state, dat_line_active, 2);
register_bit!(present_state, command_inhibit_dat, 1);
register_bit!(present_state, command_inhibit_cmd, 0);
register!(control, Control, RW, u32);
register_bit!(
control,
/// Enable wakeup event via SD card removal assertion.
wakeup_on_removal,
26
);
register_bit!(
control,
/// Enable wakeup event via SD card insertion assertion.
wakeup_on_insertion,
25
);
register_bit!(
control,
/// Enable wakeup event via card interrupt assertion.
wakeup_on_interrupt,
24
);
register_bit!(
control,
///Enable interrupt detection at the block gap for a multiple block transfer.
interrupt_at_block_gap,
19
);
register_bit!(
control,
/// Enable the use of the read wait protocol.
read_wait_control,
18
);
register_bit!(
control,
/// Restart a trasaction which was stopped using the stop at block gap request.
continue_req,
17
);
register_bit!(
control,
/// Stop executing a transaction at the next block gap.
stop_at_block_gap_req,
16
);
register_bits_typed!(control, bus_voltage, u8, BusVoltage, 9, 11);
register_bit!(control, bus_power, 8);
register_bit!(
control,
/// Selects source for card detection. 0 for SDCD#, 1 for card detect test level.
card_detect_signal,
7
);
register_bit!(
control,
/// Indicates card inserted or not. Enabled when card detect signal is 1.
card_detect_test_level,
6
);
register_bits_typed!(control, dma_select, u8, DmaSelect, 3, 4);
register_bit!(control, high_speed_en, 2);
register_bit!(
control,
/// Select the data width of the HC. 1 for 4-bit, 0 for 1-bit.
data_width_select,
1
);
register_bit!(
control,
/// 1 for LED on, 0 for LED off.
led_control,
0
);
register!(timing_control, TimingControl, RW, u32);
register_bit!(
timing_control,
/// Software reset for DAT line.
software_reset_dat,
26
);
register_bit!(
timing_control,
/// Software reset for CMD line.
software_reset_cmd,
25
);
register_bit!(
timing_control,
/// Software reset for ALL.
software_reset_all,
24
);
register_bits!(
timing_control,
/// Determines the interval by which DAT line time-outs are detected.
/// Interval = TMCLK * 2^(13 + val)
/// Note: 0b1111 is reserved.
timeout_counter_value,
u8,
16,
19
);
register_bits_typed!(
timing_control,
/// Selects the frequency divisor, thus the clock frequency for SDCLK.
/// Choose the smallest possible divisor which results in a clock frequency
/// that is less than or equal to the target frequency.
sdclk_freq_divisor,
u8,
SdclkFreqDivisor,
8,
15
);
register_bit!(timing_control, sd_clk_en, 2);
register_bit!(
timing_control,
/// 1 when SD clock is stable.
/// Note that this field is read-only.
internal_clk_stable,
1,
RO
);
register_bit!(timing_control, internal_clk_en, 0);
register!(interrupt_status, InterruptStatus, RW, u32, 1 << 15 | 1 << 8);
register_bit!(interrupt_status, ceata_error, 29, WTC);
register_bit!(interrupt_status, target_response_error, 28, WTC);
register_bit!(interrupt_status, adma_error, 25, WTC);
register_bit!(interrupt_status, auto_cmd12_error, 24, WTC);
register_bit!(interrupt_status, current_limit_error, 23, WTC);
register_bit!(interrupt_status, data_end_bit_error, 22, WTC);
register_bit!(interrupt_status, data_crc_error, 21, WTC);
register_bit!(interrupt_status, data_timeout_error, 20, WTC);
register_bit!(interrupt_status, command_index_error, 19, WTC);
register_bit!(interrupt_status, command_end_bit_error, 18, WTC);
register_bit!(interrupt_status, command_crc_error, 17, WTC);
register_bit!(interrupt_status, command_timeout_error, 16, WTC);
register_bit!(interrupt_status, error_interrupt, 15, RO);
register_bit!(interrupt_status, boot_terminate_interrupt, 10, WTC);
register_bit!(interrupt_status, boot_ack_rcv, 9, WTC);
register_bit!(interrupt_status, card_interrupt, 8, RO);
register_bit!(interrupt_status, card_removal, 7, WTC);
register_bit!(interrupt_status, card_insertion, 6, WTC);
register_bit!(interrupt_status, buffer_read_ready, 5, WTC);
register_bit!(interrupt_status, buffer_write_ready, 4, WTC);
register_bit!(interrupt_status, dma_interrupt, 3, WTC);
register_bit!(interrupt_status, block_gap_event, 2, WTC);
register_bit!(interrupt_status, transfer_complete, 1, 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
);

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@ -100,6 +100,19 @@ macro_rules! register_rw {
} }
} }
); );
($mod_name: ident, $struct_name: ident, $mask: expr) => (
impl libregister::RegisterRW for $struct_name {
#[inline]
fn modify<F: FnOnce(Self::R, Self::W) -> Self::W>(&mut self, f: F) {
unsafe {
self.inner.modify(|inner| {
f($mod_name::Read { inner }, $mod_name::Write { inner: inner & ($mask) })
.inner
});
}
}
}
);
} }
#[doc(hidden)] #[doc(hidden)]
@ -168,6 +181,14 @@ macro_rules! register {
libregister::register_common!($mod_name, $struct_name, VolatileCell<$inner>, $inner); libregister::register_common!($mod_name, $struct_name, VolatileCell<$inner>, $inner);
libregister::register_vcell!($mod_name, $struct_name); libregister::register_vcell!($mod_name, $struct_name);
); );
// Define read-write register with mask on write (for WTC mixed access.)
($mod_name: ident, $struct_name: ident, RW, $inner: ty, $mask: expr) => (
libregister::register_common!($mod_name, $struct_name, volatile_register::RW<$inner>, $inner);
libregister::register_r!($mod_name, $struct_name);
libregister::register_w!($mod_name, $struct_name);
libregister::register_rw!($mod_name, $struct_name, $mask);
);
} }
/// Define a 1-bit field of a register /// Define a 1-bit field of a register
@ -197,6 +218,47 @@ macro_rules! register_bit {
} }
} }
); );
// Single bit read-only
($mod_name: ident, $(#[$outer:meta])* $name: ident, $bit: expr, RO) => (
$(#[$outer])*
impl $mod_name::Read {
#[allow(unused)]
#[inline]
pub fn $name(&self) -> bool {
use bit_field::BitField;
self.inner.get_bit($bit)
}
}
);
// Single bit write to clear. Note that this must be used with WTC register.
($mod_name: ident, $(#[$outer:meta])* $name: ident, $bit: expr, WTC) => (
$(#[$outer])*
impl $mod_name::Read {
#[allow(unused)]
#[inline]
pub fn $name(&self) -> bool {
use bit_field::BitField;
self.inner.get_bit($bit)
}
}
$(#[$outer])*
impl $mod_name::Write {
/// Clear bit field. (WTC)
#[allow(unused)]
#[inline]
pub fn $name(mut self) -> Self {
use bit_field::BitField;
self.inner.set_bit($bit, true);
self
}
}
);
} }
/// Define a multi-bit field of a register /// Define a multi-bit field of a register