#![allow(non_snake_case, non_upper_case_globals)]
#![allow(non_camel_case_types)]
//! SDMMC1
//!
//! Used by: stm32h747cm4, stm32h747cm7
use crate::{RORegister, RWRegister};
#[cfg(not(feature = "nosync"))]
use core::marker::PhantomData;
/// SDMMC power control register
pub mod POWER {
/// SDMMC state control bits. These bits can only be written when the SDMMC is not in the power-on state (PWRCTRL?11). These bits are used to define the functional state of the SDMMC signals: Any further write will be ignored, PWRCTRL value will keep 11.
pub mod PWRCTRL {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (2 bits: 0b11 << 0)
pub const mask: u32 = 0b11 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Voltage switch sequence start. This bit is used to start the timing critical section of the voltage switch sequence:
pub mod VSWITCH {
/// Offset (2 bits)
pub const offset: u32 = 2;
/// Mask (1 bit: 1 << 2)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Voltage switch procedure enable. This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). This bit is used to stop the SDMMC_CK after the voltage switch command response:
pub mod VSWITCHEN {
/// Offset (3 bits)
pub const offset: u32 = 3;
/// Mask (1 bit: 1 << 3)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data and command direction signals polarity selection. This bit can only be written when the SDMMC is in the power-off state (PWRCTRL = 00).
pub mod DIRPOL {
/// Offset (4 bits)
pub const offset: u32 = 4;
/// Mask (1 bit: 1 << 4)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_CLKCR register controls the SDMMC_CK output clock, the SDMMC_RX_CLK receive clock, and the bus width.
pub mod CLKCR {
/// Clock divide factor This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0). This field defines the divide factor between the input clock (SDMMCCLK) and the output clock (SDMMC_CK): SDMMC_CK frequency = SDMMCCLK / \[2 * CLKDIV\]. 0xx: etc.. xxx: etc..
pub mod CLKDIV {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (10 bits: 0x3ff << 0)
pub const mask: u32 = 0x3ff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Power saving configuration bit This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0) For power saving, the SDMMC_CK clock output can be disabled when the bus is idle by setting PWRSAV:
pub mod PWRSAV {
/// Offset (12 bits)
pub const offset: u32 = 12;
/// Mask (1 bit: 1 << 12)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Wide bus mode enable bit This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0)
pub mod WIDBUS {
/// Offset (14 bits)
pub const offset: u32 = 14;
/// Mask (2 bits: 0b11 << 14)
pub const mask: u32 = 0b11 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// SDMMC_CK dephasing selection bit for data and Command. This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0). When clock division = 1 (CLKDIV = 0), this bit has no effect. Data and Command change on SDMMC_CK falling edge. When clock division >1 (CLKDIV > 0) & DDR = 0: - SDMMC_CK edge occurs on SDMMCCLK rising edge. When clock division >1 (CLKDIV > 0) & DDR = 1: - Data changed on the SDMMCCLK falling edge succeeding a SDMMC_CK edge. - SDMMC_CK edge occurs on SDMMCCLK rising edge. - Data changed on the SDMMC_CK falling edge succeeding a SDMMC_CK edge. - SDMMC_CK edge occurs on SDMMCCLK rising edge.
pub mod NEGEDGE {
/// Offset (16 bits)
pub const offset: u32 = 16;
/// Mask (1 bit: 1 << 16)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Hardware flow control enable This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0) When Hardware flow control is enabled, the meaning of the TXFIFOE and RXFIFOF flags change, please see SDMMC status register definition in Section56.8.11.
pub mod HWFC_EN {
/// Offset (17 bits)
pub const offset: u32 = 17;
/// Mask (1 bit: 1 << 17)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data rate signaling selection This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0) DDR rate shall only be selected with 4-bit or 8-bit wide bus mode. (WIDBUS > 00). DDR = 1 has no effect when WIDBUS = 00 (1-bit wide bus). DDR rate shall only be selected with clock division >1. (CLKDIV > 0)
pub mod DDR {
/// Offset (18 bits)
pub const offset: u32 = 18;
/// Mask (1 bit: 1 << 18)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Bus speed mode selection between DS, HS, SDR12, SDR25 and SDR50, DDR50, SDR104. This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0)
pub mod BUSSPEED {
/// Offset (19 bits)
pub const offset: u32 = 19;
/// Mask (1 bit: 1 << 19)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Receive clock selection. These bits can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0)
pub mod SELCLKRX {
/// Offset (20 bits)
pub const offset: u32 = 20;
/// Mask (2 bits: 0b11 << 20)
pub const mask: u32 = 0b11 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_ARGR register contains a 32-bit command argument, which is sent to a card as part of a command message.
pub mod ARGR {
/// Command argument. These bits can only be written by firmware when CPSM is disabled (CPSMEN = 0). Command argument sent to a card as part of a command message. If a command contains an argument, it must be loaded into this register before writing a command to the command register.
pub mod CMDARG {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_CMDR register contains the command index and command type bits. The command index is sent to a card as part of a command message. The command type bits control the command path state machine (CPSM).
pub mod CMDR {
/// Command index. This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). The command index is sent to the card as part of a command message.
pub mod CMDINDEX {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (6 bits: 0x3f << 0)
pub const mask: u32 = 0x3f << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// The CPSM treats the command as a data transfer command, stops the interrupt period, and signals DataEnable to the DPSM This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). If this bit is set, the CPSM issues an end of interrupt period and issues DataEnable signal to the DPSM when the command is sent.
pub mod CMDTRANS {
/// Offset (6 bits)
pub const offset: u32 = 6;
/// Mask (1 bit: 1 << 6)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// The CPSM treats the command as a Stop Transmission command and signals Abort to the DPSM. This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). If this bit is set, the CPSM issues the Abort signal to the DPSM when the command is sent.
pub mod CMDSTOP {
/// Offset (7 bits)
pub const offset: u32 = 7;
/// Mask (1 bit: 1 << 7)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Wait for response bits. This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). They are used to configure whether the CPSM is to wait for a response, and if yes, which kind of response.
pub mod WAITRESP {
/// Offset (8 bits)
pub const offset: u32 = 8;
/// Mask (2 bits: 0b11 << 8)
pub const mask: u32 = 0b11 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// CPSM waits for interrupt request. If this bit is set, the CPSM disables command timeout and waits for an card interrupt request (Response). If this bit is cleared in the CPSM Wait state, will cause the abort of the interrupt mode.
pub mod WAITINT {
/// Offset (10 bits)
pub const offset: u32 = 10;
/// Mask (1 bit: 1 << 10)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// CPSM Waits for end of data transfer (CmdPend internal signal) from DPSM. This bit when set, the CPSM waits for the end of data transfer trigger before it starts sending a command. WAITPEND is only taken into account when DTMODE = MMC stream data transfer, WIDBUS = 1-bit wide bus mode, DPSMACT = 1 and DTDIR = from host to card.
pub mod WAITPEND {
/// Offset (11 bits)
pub const offset: u32 = 11;
/// Mask (1 bit: 1 << 11)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command path state machine (CPSM) Enable bit This bit is written 1 by firmware, and cleared by hardware when the CPSM enters the Idle state. If this bit is set, the CPSM is enabled. When DTEN = 1, no command will be transfered nor boot procedure will be started. CPSMEN is cleared to 0.
pub mod CPSMEN {
/// Offset (12 bits)
pub const offset: u32 = 12;
/// Mask (1 bit: 1 << 12)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Hold new data block transmission and reception in the DPSM. If this bit is set, the DPSM will not move from the Wait_S state to the Send state or from the Wait_R state to the Receive state.
pub mod DTHOLD {
/// Offset (13 bits)
pub const offset: u32 = 13;
/// Mask (1 bit: 1 << 13)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Select the boot mode procedure to be used. This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0)
pub mod BOOTMODE {
/// Offset (14 bits)
pub const offset: u32 = 14;
/// Mask (1 bit: 1 << 14)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Enable boot mode procedure.
pub mod BOOTEN {
/// Offset (15 bits)
pub const offset: u32 = 15;
/// Mask (1 bit: 1 << 15)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// The CPSM treats the command as a Suspend or Resume command and signals interrupt period start/end. This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). CMDSUSPEND = 1 and CMDTRANS = 0 Suspend command, start interrupt period when response bit BS=0. CMDSUSPEND = 1 and CMDTRANS = 1 Resume command with data, end interrupt period when response bit DF=1.
pub mod CMDSUSPEND {
/// Offset (16 bits)
pub const offset: u32 = 16;
/// Mask (1 bit: 1 << 16)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub mod RESP1R {
/// see Table 432
pub mod CARDSTATUS1 {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub mod RESP2R {
/// see Table404.
pub mod CARDSTATUS2 {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub mod RESP3R {
/// see Table404.
pub mod CARDSTATUS3 {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub mod RESP4R {
/// see Table404.
pub mod CARDSTATUS4 {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_DTIMER register contains the data timeout period, in card bus clock periods. A counter loads the value from the SDMMC_DTIMER register, and starts decrementing when the data path state machine (DPSM) enters the Wait_R or Busy state. If the timer reaches 0 while the DPSM is in either of these states, the timeout status flag is set.
pub mod DTIMER {
/// Data and R1b busy timeout period This bit can only be written when the CPSM and DPSM are not active (CPSMACT = 0 and DPSMACT = 0). Data and R1b busy timeout period expressed in card bus clock periods.
pub mod DATATIME {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_DLENR register contains the number of data bytes to be transferred. The value is loaded into the data counter when data transfer starts.
pub mod DLENR {
/// Data length value This register can only be written by firmware when DPSM is inactive (DPSMACT = 0). Number of data bytes to be transferred. When DDR = 1 DATALENGTH is truncated to a multiple of 2. (The last odd byte is not transfered) When DATALENGTH = 0 no data will be transfered, when requested by a CPSMEN and CMDTRANS = 1 also no command will be transfered. DTEN and CPSMEN are cleared to 0.
pub mod DATALENGTH {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (25 bits: 0x1ffffff << 0)
pub const mask: u32 = 0x1ffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_DCTRL register control the data path state machine (DPSM).
pub mod DCTRL {
/// Data transfer enable bit This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0). This bit is cleared by Hardware when data transfer completes. This bit shall only be used to transfer data when no associated data transfer command is used, i.e. shall not be used with SD or eMMC cards.
pub mod DTEN {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (1 bit: 1 << 0)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data transfer direction selection This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod DTDIR {
/// Offset (1 bits)
pub const offset: u32 = 1;
/// Mask (1 bit: 1 << 1)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data transfer mode selection. This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod DTMODE {
/// Offset (2 bits)
pub const offset: u32 = 2;
/// Mask (2 bits: 0b11 << 2)
pub const mask: u32 = 0b11 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data block size This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0). Define the data block length when the block data transfer mode is selected: When DATALENGTH is not a multiple of DBLOCKSIZE, the transfered data is truncated at a multiple of DBLOCKSIZE. (Any remain data will not be transfered.) When DDR = 1, DBLOCKSIZE = 0000 shall not be used. (No data will be transfered)
pub mod DBLOCKSIZE {
/// Offset (4 bits)
pub const offset: u32 = 4;
/// Mask (4 bits: 0b1111 << 4)
pub const mask: u32 = 0b1111 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Read wait start. If this bit is set, read wait operation starts.
pub mod RWSTART {
/// Offset (8 bits)
pub const offset: u32 = 8;
/// Mask (1 bit: 1 << 8)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Read wait stop This bit is written by firmware and auto cleared by hardware when the DPSM moves from the READ_WAIT state to the WAIT_R or IDLE state.
pub mod RWSTOP {
/// Offset (9 bits)
pub const offset: u32 = 9;
/// Mask (1 bit: 1 << 9)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Read wait mode. This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod RWMOD {
/// Offset (10 bits)
pub const offset: u32 = 10;
/// Mask (1 bit: 1 << 10)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// SD I/O interrupt enable functions This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0). If this bit is set, the DPSM enables the SD I/O card specific interrupt operation.
pub mod SDIOEN {
/// Offset (11 bits)
pub const offset: u32 = 11;
/// Mask (1 bit: 1 << 11)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Enable the reception of the boot acknowledgment. This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod BOOTACKEN {
/// Offset (12 bits)
pub const offset: u32 = 12;
/// Mask (1 bit: 1 << 12)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// FIFO reset, will flush any remaining data. This bit can only be written by firmware when IDMAEN= 0 and DPSM is active (DPSMACT = 1). This bit will only take effect when a transfer error or transfer hold occurs.
pub mod FIFORST {
/// Offset (13 bits)
pub const offset: u32 = 13;
/// Mask (1 bit: 1 << 13)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_DCNTR register loads the value from the data length register (see SDMMC_DLENR) when the DPSM moves from the Idle state to the Wait_R or Wait_S state. As data is transferred, the counter decrements the value until it reaches 0. The DPSM then moves to the Idle state and when there has been no error, the data status end flag (DATAEND) is set.
pub mod DCNTR {
/// Data count value When read, the number of remaining data bytes to be transferred is returned. Write has no effect.
pub mod DATACOUNT {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (25 bits: 0x1ffffff << 0)
pub const mask: u32 = 0x1ffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_STAR register is a read-only register. It contains two types of flag:Static flags (bits \[29,21,11:0\]): these bits remain asserted until they are cleared by writing to the SDMMC interrupt Clear register (see SDMMC_ICR)Dynamic flags (bits \[20:12\]): these bits change state depending on the state of the underlying logic (for example, FIFO full and empty flags are asserted and de-asserted as data while written to the FIFO)
pub mod STAR {
/// Command response received (CRC check failed). Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod CCRCFAIL {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (1 bit: 1 << 0)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data block sent/received (CRC check failed). Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod DCRCFAIL {
/// Offset (1 bits)
pub const offset: u32 = 1;
/// Mask (1 bit: 1 << 1)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command response timeout. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR. The Command Timeout period has a fixed value of 64 SDMMC_CK clock periods.
pub mod CTIMEOUT {
/// Offset (2 bits)
pub const offset: u32 = 2;
/// Mask (1 bit: 1 << 2)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data timeout. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod DTIMEOUT {
/// Offset (3 bits)
pub const offset: u32 = 3;
/// Mask (1 bit: 1 << 3)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Transmit FIFO underrun error or IDMA read transfer error. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod TXUNDERR {
/// Offset (4 bits)
pub const offset: u32 = 4;
/// Mask (1 bit: 1 << 4)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Received FIFO overrun error or IDMA write transfer error. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod RXOVERR {
/// Offset (5 bits)
pub const offset: u32 = 5;
/// Mask (1 bit: 1 << 5)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command response received (CRC check passed, or no CRC). Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod CMDREND {
/// Offset (6 bits)
pub const offset: u32 = 6;
/// Mask (1 bit: 1 << 6)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command sent (no response required). Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod CMDSENT {
/// Offset (7 bits)
pub const offset: u32 = 7;
/// Mask (1 bit: 1 << 7)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data transfer ended correctly. (data counter, DATACOUNT is zero and no errors occur). Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod DATAEND {
/// Offset (8 bits)
pub const offset: u32 = 8;
/// Mask (1 bit: 1 << 8)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data transfer Hold. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod DHOLD {
/// Offset (9 bits)
pub const offset: u32 = 9;
/// Mask (1 bit: 1 << 9)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data block sent/received. (CRC check passed) and DPSM moves to the READWAIT state. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod DBCKEND {
/// Offset (10 bits)
pub const offset: u32 = 10;
/// Mask (1 bit: 1 << 10)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data transfer aborted by CMD12. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod DABORT {
/// Offset (11 bits)
pub const offset: u32 = 11;
/// Mask (1 bit: 1 << 11)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data path state machine active, i.e. not in Idle state. This is a hardware status flag only, does not generate an interrupt.
pub mod DPSMACT {
/// Offset (12 bits)
pub const offset: u32 = 12;
/// Mask (1 bit: 1 << 12)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command path state machine active, i.e. not in Idle state. This is a hardware status flag only, does not generate an interrupt.
pub mod CPSMACT {
/// Offset (13 bits)
pub const offset: u32 = 13;
/// Mask (1 bit: 1 << 13)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Transmit FIFO half empty At least half the number of words can be written into the FIFO. This bit is cleared when the FIFO becomes half+1 full.
pub mod TXFIFOHE {
/// Offset (14 bits)
pub const offset: u32 = 14;
/// Mask (1 bit: 1 << 14)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Receive FIFO half full There are at least half the number of words in the FIFO. This bit is cleared when the FIFO becomes half+1 empty.
pub mod RXFIFOHF {
/// Offset (15 bits)
pub const offset: u32 = 15;
/// Mask (1 bit: 1 << 15)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Transmit FIFO full This is a hardware status flag only, does not generate an interrupt. This bit is cleared when one FIFO location becomes empty.
pub mod TXFIFOF {
/// Offset (16 bits)
pub const offset: u32 = 16;
/// Mask (1 bit: 1 << 16)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Receive FIFO full This bit is cleared when one FIFO location becomes empty.
pub mod RXFIFOF {
/// Offset (17 bits)
pub const offset: u32 = 17;
/// Mask (1 bit: 1 << 17)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Transmit FIFO empty This bit is cleared when one FIFO location becomes full.
pub mod TXFIFOE {
/// Offset (18 bits)
pub const offset: u32 = 18;
/// Mask (1 bit: 1 << 18)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Receive FIFO empty This is a hardware status flag only, does not generate an interrupt. This bit is cleared when one FIFO location becomes full.
pub mod RXFIFOE {
/// Offset (19 bits)
pub const offset: u32 = 19;
/// Mask (1 bit: 1 << 19)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Inverted value of SDMMC_D0 line (Busy), sampled at the end of a CMD response and a second time 2 SDMMC_CK cycles after the CMD response. This bit is reset to not busy when the SDMMCD0 line changes from busy to not busy. This bit does not signal busy due to data transfer. This is a hardware status flag only, it does not generate an interrupt.
pub mod BUSYD0 {
/// Offset (20 bits)
pub const offset: u32 = 20;
/// Mask (1 bit: 1 << 20)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// end of SDMMC_D0 Busy following a CMD response detected. This indicates only end of busy following a CMD response. This bit does not signal busy due to data transfer. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod BUSYD0END {
/// Offset (21 bits)
pub const offset: u32 = 21;
/// Mask (1 bit: 1 << 21)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// SDIO interrupt received. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod SDIOIT {
/// Offset (22 bits)
pub const offset: u32 = 22;
/// Mask (1 bit: 1 << 22)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Boot acknowledgment received (boot acknowledgment check fail). Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod ACKFAIL {
/// Offset (23 bits)
pub const offset: u32 = 23;
/// Mask (1 bit: 1 << 23)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Boot acknowledgment timeout. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod ACKTIMEOUT {
/// Offset (24 bits)
pub const offset: u32 = 24;
/// Mask (1 bit: 1 << 24)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Voltage switch critical timing section completion. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod VSWEND {
/// Offset (25 bits)
pub const offset: u32 = 25;
/// Mask (1 bit: 1 << 25)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// SDMMC_CK stopped in Voltage switch procedure. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod CKSTOP {
/// Offset (26 bits)
pub const offset: u32 = 26;
/// Mask (1 bit: 1 << 26)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// IDMA transfer error. Interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod IDMATE {
/// Offset (27 bits)
pub const offset: u32 = 27;
/// Mask (1 bit: 1 << 27)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// IDMA buffer transfer complete. interrupt flag is cleared by writing corresponding interrupt clear bit in SDMMC_ICR.
pub mod IDMABTC {
/// Offset (28 bits)
pub const offset: u32 = 28;
/// Mask (1 bit: 1 << 28)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_ICR register is a write-only register. Writing a bit with 1 clears the corresponding bit in the SDMMC_STAR status register.
pub mod ICR {
/// CCRCFAIL flag clear bit Set by software to clear the CCRCFAIL flag.
pub mod CCRCFAILC {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (1 bit: 1 << 0)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// DCRCFAIL flag clear bit Set by software to clear the DCRCFAIL flag.
pub mod DCRCFAILC {
/// Offset (1 bits)
pub const offset: u32 = 1;
/// Mask (1 bit: 1 << 1)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// CTIMEOUT flag clear bit Set by software to clear the CTIMEOUT flag.
pub mod CTIMEOUTC {
/// Offset (2 bits)
pub const offset: u32 = 2;
/// Mask (1 bit: 1 << 2)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// DTIMEOUT flag clear bit Set by software to clear the DTIMEOUT flag.
pub mod DTIMEOUTC {
/// Offset (3 bits)
pub const offset: u32 = 3;
/// Mask (1 bit: 1 << 3)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// TXUNDERR flag clear bit Set by software to clear TXUNDERR flag.
pub mod TXUNDERRC {
/// Offset (4 bits)
pub const offset: u32 = 4;
/// Mask (1 bit: 1 << 4)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// RXOVERR flag clear bit Set by software to clear the RXOVERR flag.
pub mod RXOVERRC {
/// Offset (5 bits)
pub const offset: u32 = 5;
/// Mask (1 bit: 1 << 5)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// CMDREND flag clear bit Set by software to clear the CMDREND flag.
pub mod CMDRENDC {
/// Offset (6 bits)
pub const offset: u32 = 6;
/// Mask (1 bit: 1 << 6)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// CMDSENT flag clear bit Set by software to clear the CMDSENT flag.
pub mod CMDSENTC {
/// Offset (7 bits)
pub const offset: u32 = 7;
/// Mask (1 bit: 1 << 7)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// DATAEND flag clear bit Set by software to clear the DATAEND flag.
pub mod DATAENDC {
/// Offset (8 bits)
pub const offset: u32 = 8;
/// Mask (1 bit: 1 << 8)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// DHOLD flag clear bit Set by software to clear the DHOLD flag.
pub mod DHOLDC {
/// Offset (9 bits)
pub const offset: u32 = 9;
/// Mask (1 bit: 1 << 9)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// DBCKEND flag clear bit Set by software to clear the DBCKEND flag.
pub mod DBCKENDC {
/// Offset (10 bits)
pub const offset: u32 = 10;
/// Mask (1 bit: 1 << 10)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// DABORT flag clear bit Set by software to clear the DABORT flag.
pub mod DABORTC {
/// Offset (11 bits)
pub const offset: u32 = 11;
/// Mask (1 bit: 1 << 11)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// BUSYD0END flag clear bit Set by software to clear the BUSYD0END flag.
pub mod BUSYD0ENDC {
/// Offset (21 bits)
pub const offset: u32 = 21;
/// Mask (1 bit: 1 << 21)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// SDIOIT flag clear bit Set by software to clear the SDIOIT flag.
pub mod SDIOITC {
/// Offset (22 bits)
pub const offset: u32 = 22;
/// Mask (1 bit: 1 << 22)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// ACKFAIL flag clear bit Set by software to clear the ACKFAIL flag.
pub mod ACKFAILC {
/// Offset (23 bits)
pub const offset: u32 = 23;
/// Mask (1 bit: 1 << 23)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// ACKTIMEOUT flag clear bit Set by software to clear the ACKTIMEOUT flag.
pub mod ACKTIMEOUTC {
/// Offset (24 bits)
pub const offset: u32 = 24;
/// Mask (1 bit: 1 << 24)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// VSWEND flag clear bit Set by software to clear the VSWEND flag.
pub mod VSWENDC {
/// Offset (25 bits)
pub const offset: u32 = 25;
/// Mask (1 bit: 1 << 25)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// CKSTOP flag clear bit Set by software to clear the CKSTOP flag.
pub mod CKSTOPC {
/// Offset (26 bits)
pub const offset: u32 = 26;
/// Mask (1 bit: 1 << 26)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// IDMA transfer error clear bit Set by software to clear the IDMATE flag.
pub mod IDMATEC {
/// Offset (27 bits)
pub const offset: u32 = 27;
/// Mask (1 bit: 1 << 27)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// IDMA buffer transfer complete clear bit Set by software to clear the IDMABTC flag.
pub mod IDMABTCC {
/// Offset (28 bits)
pub const offset: u32 = 28;
/// Mask (1 bit: 1 << 28)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The interrupt mask register determines which status flags generate an interrupt request by setting the corresponding bit to 1.
pub mod MASKR {
/// Command CRC fail interrupt enable Set and cleared by software to enable/disable interrupt caused by command CRC failure.
pub mod CCRCFAILIE {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (1 bit: 1 << 0)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data CRC fail interrupt enable Set and cleared by software to enable/disable interrupt caused by data CRC failure.
pub mod DCRCFAILIE {
/// Offset (1 bits)
pub const offset: u32 = 1;
/// Mask (1 bit: 1 << 1)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command timeout interrupt enable Set and cleared by software to enable/disable interrupt caused by command timeout.
pub mod CTIMEOUTIE {
/// Offset (2 bits)
pub const offset: u32 = 2;
/// Mask (1 bit: 1 << 2)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data timeout interrupt enable Set and cleared by software to enable/disable interrupt caused by data timeout.
pub mod DTIMEOUTIE {
/// Offset (3 bits)
pub const offset: u32 = 3;
/// Mask (1 bit: 1 << 3)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Tx FIFO underrun error interrupt enable Set and cleared by software to enable/disable interrupt caused by Tx FIFO underrun error.
pub mod TXUNDERRIE {
/// Offset (4 bits)
pub const offset: u32 = 4;
/// Mask (1 bit: 1 << 4)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Rx FIFO overrun error interrupt enable Set and cleared by software to enable/disable interrupt caused by Rx FIFO overrun error.
pub mod RXOVERRIE {
/// Offset (5 bits)
pub const offset: u32 = 5;
/// Mask (1 bit: 1 << 5)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command response received interrupt enable Set and cleared by software to enable/disable interrupt caused by receiving command response.
pub mod CMDRENDIE {
/// Offset (6 bits)
pub const offset: u32 = 6;
/// Mask (1 bit: 1 << 6)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Command sent interrupt enable Set and cleared by software to enable/disable interrupt caused by sending command.
pub mod CMDSENTIE {
/// Offset (7 bits)
pub const offset: u32 = 7;
/// Mask (1 bit: 1 << 7)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data end interrupt enable Set and cleared by software to enable/disable interrupt caused by data end.
pub mod DATAENDIE {
/// Offset (8 bits)
pub const offset: u32 = 8;
/// Mask (1 bit: 1 << 8)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data hold interrupt enable Set and cleared by software to enable/disable the interrupt generated when sending new data is hold in the DPSM Wait_S state.
pub mod DHOLDIE {
/// Offset (9 bits)
pub const offset: u32 = 9;
/// Mask (1 bit: 1 << 9)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data block end interrupt enable Set and cleared by software to enable/disable interrupt caused by data block end.
pub mod DBCKENDIE {
/// Offset (10 bits)
pub const offset: u32 = 10;
/// Mask (1 bit: 1 << 10)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Data transfer aborted interrupt enable Set and cleared by software to enable/disable interrupt caused by a data transfer being aborted.
pub mod DABORTIE {
/// Offset (11 bits)
pub const offset: u32 = 11;
/// Mask (1 bit: 1 << 11)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Tx FIFO half empty interrupt enable Set and cleared by software to enable/disable interrupt caused by Tx FIFO half empty.
pub mod TXFIFOHEIE {
/// Offset (14 bits)
pub const offset: u32 = 14;
/// Mask (1 bit: 1 << 14)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Rx FIFO half full interrupt enable Set and cleared by software to enable/disable interrupt caused by Rx FIFO half full.
pub mod RXFIFOHFIE {
/// Offset (15 bits)
pub const offset: u32 = 15;
/// Mask (1 bit: 1 << 15)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Rx FIFO full interrupt enable Set and cleared by software to enable/disable interrupt caused by Rx FIFO full.
pub mod RXFIFOFIE {
/// Offset (17 bits)
pub const offset: u32 = 17;
/// Mask (1 bit: 1 << 17)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Tx FIFO empty interrupt enable Set and cleared by software to enable/disable interrupt caused by Tx FIFO empty.
pub mod TXFIFOEIE {
/// Offset (18 bits)
pub const offset: u32 = 18;
/// Mask (1 bit: 1 << 18)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// BUSYD0END interrupt enable Set and cleared by software to enable/disable the interrupt generated when SDMMC_D0 signal changes from busy to NOT busy following a CMD response.
pub mod BUSYD0ENDIE {
/// Offset (21 bits)
pub const offset: u32 = 21;
/// Mask (1 bit: 1 << 21)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// SDIO mode interrupt received interrupt enable Set and cleared by software to enable/disable the interrupt generated when receiving the SDIO mode interrupt.
pub mod SDIOITIE {
/// Offset (22 bits)
pub const offset: u32 = 22;
/// Mask (1 bit: 1 << 22)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Acknowledgment Fail interrupt enable Set and cleared by software to enable/disable interrupt caused by acknowledgment Fail.
pub mod ACKFAILIE {
/// Offset (23 bits)
pub const offset: u32 = 23;
/// Mask (1 bit: 1 << 23)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Acknowledgment timeout interrupt enable Set and cleared by software to enable/disable interrupt caused by acknowledgment timeout.
pub mod ACKTIMEOUTIE {
/// Offset (24 bits)
pub const offset: u32 = 24;
/// Mask (1 bit: 1 << 24)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Voltage switch critical timing section completion interrupt enable Set and cleared by software to enable/disable the interrupt generated when voltage switch critical timing section completion.
pub mod VSWENDIE {
/// Offset (25 bits)
pub const offset: u32 = 25;
/// Mask (1 bit: 1 << 25)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Voltage Switch clock stopped interrupt enable Set and cleared by software to enable/disable interrupt caused by Voltage Switch clock stopped.
pub mod CKSTOPIE {
/// Offset (26 bits)
pub const offset: u32 = 26;
/// Mask (1 bit: 1 << 26)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// IDMA buffer transfer complete interrupt enable Set and cleared by software to enable/disable the interrupt generated when the IDMA has transferred all data belonging to a memory buffer.
pub mod IDMABTCIE {
/// Offset (28 bits)
pub const offset: u32 = 28;
/// Mask (1 bit: 1 << 28)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_ACKTIMER register contains the acknowledgment timeout period, in SDMMC_CK bus clock periods. A counter loads the value from the SDMMC_ACKTIMER register, and starts decrementing when the data path state machine (DPSM) enters the Wait_Ack state. If the timer reaches 0 while the DPSM is in this states, the acknowledgment timeout status flag is set.
pub mod ACKTIMER {
/// Boot acknowledgment timeout period This bit can only be written by firmware when CPSM is disabled (CPSMEN = 0). Boot acknowledgment timeout period expressed in card bus clock periods.
pub mod ACKTIME {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (25 bits: 0x1ffffff << 0)
pub const mask: u32 = 0x1ffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The receive and transmit FIFOs can be read or written as 32-bit wide registers. The FIFOs contain 32 entries on 32 sequential addresses. This allows the CPU to use its load and store multiple operands to read from/write to the FIFO.
pub mod IDMACTRLR {
/// IDMA enable This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod IDMAEN {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (1 bit: 1 << 0)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Buffer mode selection. This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod IDMABMODE {
/// Offset (1 bits)
pub const offset: u32 = 1;
/// Mask (1 bit: 1 << 1)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
/// Double buffer mode active buffer indication This bit can only be written by firmware when DPSM is inactive (DPSMACT = 0). When IDMA is enabled this bit is toggled by hardware.
pub mod IDMABACT {
/// Offset (2 bits)
pub const offset: u32 = 2;
/// Mask (1 bit: 1 << 2)
pub const mask: u32 = 1 << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_IDMABSIZER register contains the buffers size when in double buffer configuration.
pub mod IDMABSIZER {
/// Number of transfers per buffer. This 8-bit value shall be multiplied by 8 to get the size of the buffer in 32-bit words and by 32 to get the size of the buffer in bytes. Example: IDMABNDT = 0x01: buffer size = 8 words = 32 bytes. These bits can only be written by firmware when DPSM is inactive (DPSMACT = 0).
pub mod IDMABNDT {
/// Offset (5 bits)
pub const offset: u32 = 5;
/// Mask (8 bits: 0xff << 5)
pub const mask: u32 = 0xff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_IDMABASE0R register contains the memory buffer base address in single buffer configuration and the buffer 0 base address in double buffer configuration.
pub mod IDMABASE0R {
/// Buffer 0 memory base address bits \[31:2\], shall be word aligned (bit \[1:0\] are always 0 and read only). This register can be written by firmware when DPSM is inactive (DPSMACT = 0), and can dynamically be written by firmware when DPSM active (DPSMACT = 1) and memory buffer 0 is inactive (IDMABACT = 1).
pub mod IDMABASE0 {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The SDMMC_IDMABASE1R register contains the double buffer configuration second buffer memory base address.
pub mod IDMABASE1R {
/// Buffer 1 memory base address, shall be word aligned (bit \[1:0\] are always 0 and read only). This register can be written by firmware when DPSM is inactive (DPSMACT = 0), and can dynamically be written by firmware when DPSM active (DPSMACT = 1) and memory buffer 1 is inactive (IDMABACT = 0).
pub mod IDMABASE1 {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// The receive and transmit FIFOs can be only read or written as word (32-bit) wide registers. The FIFOs contain 16 entries on sequential addresses. This allows the CPU to use its load and store multiple operands to read from/write to the FIFO.When accessing SDMMC_FIFOR with half word or byte access an AHB bus fault is generated.
pub mod FIFOR {
/// Receive and transmit FIFO data This register can only be read or written by firmware when the DPSM is active (DPSMACT=1). The FIFO data occupies 16 entries of 32-bit words.
pub mod FIFODATA {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (32 bits: 0xffffffff << 0)
pub const mask: u32 = 0xffffffff << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
/// SDMMC command response register
pub mod RESPCMDR {
/// Response command index
pub mod RESPCMD {
/// Offset (0 bits)
pub const offset: u32 = 0;
/// Mask (6 bits: 0x3f << 0)
pub const mask: u32 = 0x3f << offset;
/// Read-only values (empty)
pub mod R {}
/// Write-only values (empty)
pub mod W {}
/// Read-write values (empty)
pub mod RW {}
}
}
#[repr(C)]
pub struct RegisterBlock {
/// SDMMC power control register
pub POWER: RWRegister<u32>,
/// The SDMMC_CLKCR register controls the SDMMC_CK output clock, the SDMMC_RX_CLK receive clock, and the bus width.
pub CLKCR: RWRegister<u32>,
/// The SDMMC_ARGR register contains a 32-bit command argument, which is sent to a card as part of a command message.
pub ARGR: RWRegister<u32>,
/// The SDMMC_CMDR register contains the command index and command type bits. The command index is sent to a card as part of a command message. The command type bits control the command path state machine (CPSM).
pub CMDR: RWRegister<u32>,
/// SDMMC command response register
pub RESPCMDR: RORegister<u32>,
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub RESP1R: RORegister<u32>,
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub RESP2R: RORegister<u32>,
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub RESP3R: RORegister<u32>,
/// The SDMMC_RESP1/2/3/4R registers contain the status of a card, which is part of the received response.
pub RESP4R: RORegister<u32>,
/// The SDMMC_DTIMER register contains the data timeout period, in card bus clock periods. A counter loads the value from the SDMMC_DTIMER register, and starts decrementing when the data path state machine (DPSM) enters the Wait_R or Busy state. If the timer reaches 0 while the DPSM is in either of these states, the timeout status flag is set.
pub DTIMER: RWRegister<u32>,
/// The SDMMC_DLENR register contains the number of data bytes to be transferred. The value is loaded into the data counter when data transfer starts.
pub DLENR: RWRegister<u32>,
/// The SDMMC_DCTRL register control the data path state machine (DPSM).
pub DCTRL: RWRegister<u32>,
/// The SDMMC_DCNTR register loads the value from the data length register (see SDMMC_DLENR) when the DPSM moves from the Idle state to the Wait_R or Wait_S state. As data is transferred, the counter decrements the value until it reaches 0. The DPSM then moves to the Idle state and when there has been no error, the data status end flag (DATAEND) is set.
pub DCNTR: RORegister<u32>,
/// The SDMMC_STAR register is a read-only register. It contains two types of flag:Static flags (bits \[29,21,11:0\]): these bits remain asserted until they are cleared by writing to the SDMMC interrupt Clear register (see SDMMC_ICR)Dynamic flags (bits \[20:12\]): these bits change state depending on the state of the underlying logic (for example, FIFO full and empty flags are asserted and de-asserted as data while written to the FIFO)
pub STAR: RORegister<u32>,
/// The SDMMC_ICR register is a write-only register. Writing a bit with 1 clears the corresponding bit in the SDMMC_STAR status register.
pub ICR: RWRegister<u32>,
/// The interrupt mask register determines which status flags generate an interrupt request by setting the corresponding bit to 1.
pub MASKR: RWRegister<u32>,
/// The SDMMC_ACKTIMER register contains the acknowledgment timeout period, in SDMMC_CK bus clock periods. A counter loads the value from the SDMMC_ACKTIMER register, and starts decrementing when the data path state machine (DPSM) enters the Wait_Ack state. If the timer reaches 0 while the DPSM is in this states, the acknowledgment timeout status flag is set.
pub ACKTIMER: RWRegister<u32>,
_reserved1: [u32; 3],
/// The receive and transmit FIFOs can be read or written as 32-bit wide registers. The FIFOs contain 32 entries on 32 sequential addresses. This allows the CPU to use its load and store multiple operands to read from/write to the FIFO.
pub IDMACTRLR: RWRegister<u32>,
/// The SDMMC_IDMABSIZER register contains the buffers size when in double buffer configuration.
pub IDMABSIZER: RWRegister<u32>,
/// The SDMMC_IDMABASE0R register contains the memory buffer base address in single buffer configuration and the buffer 0 base address in double buffer configuration.
pub IDMABASE0R: RWRegister<u32>,
/// The SDMMC_IDMABASE1R register contains the double buffer configuration second buffer memory base address.
pub IDMABASE1R: RWRegister<u32>,
_reserved2: [u32; 8],
/// The receive and transmit FIFOs can be only read or written as word (32-bit) wide registers. The FIFOs contain 16 entries on sequential addresses. This allows the CPU to use its load and store multiple operands to read from/write to the FIFO.When accessing SDMMC_FIFOR with half word or byte access an AHB bus fault is generated.
pub FIFOR: RWRegister<u32>,
}
pub struct ResetValues {
pub POWER: u32,
pub CLKCR: u32,
pub ARGR: u32,
pub CMDR: u32,
pub RESPCMDR: u32,
pub RESP1R: u32,
pub RESP2R: u32,
pub RESP3R: u32,
pub RESP4R: u32,
pub DTIMER: u32,
pub DLENR: u32,
pub DCTRL: u32,
pub DCNTR: u32,
pub STAR: u32,
pub ICR: u32,
pub MASKR: u32,
pub ACKTIMER: u32,
pub IDMACTRLR: u32,
pub IDMABSIZER: u32,
pub IDMABASE0R: u32,
pub IDMABASE1R: u32,
pub FIFOR: u32,
}
#[cfg(not(feature = "nosync"))]
pub struct Instance {
pub(crate) addr: u32,
pub(crate) _marker: PhantomData<*const RegisterBlock>,
}
#[cfg(not(feature = "nosync"))]
impl ::core::ops::Deref for Instance {
type Target = RegisterBlock;
#[inline(always)]
fn deref(&self) -> &RegisterBlock {
unsafe { &*(self.addr as *const _) }
}
}
#[cfg(feature = "rtic")]
unsafe impl Send for Instance {}