/******************************************************************************* * * * Copyright 2013 Altera Corporation. All Rights Reserved. * * * * Redistribution and use in source and binary forms, with or without * * modification, are permitted provided that the following conditions are met: * * * * 1. Redistributions of source code must retain the above copyright notice, * * this list of conditions and the following disclaimer. * * * * 2. Redistributions in binary form must reproduce the above copyright notice, * * this list of conditions and the following disclaimer in the documentation * * and/or other materials provided with the distribution. * * * * 3. The name of the author may not be used to endorse or promote products * * derived from this software without specific prior written permission. * * * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER "AS IS" AND ANY EXPRESS OR * * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO * * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * * *******************************************************************************/ /* Altera - ALT_UART */ #ifndef __ALTERA_ALT_UART_H__ #define __ALTERA_ALT_UART_H__ #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /* * Component : UART Module - ALT_UART * UART Module * * Registers in the UART module * */ /* * Register : Rx Buffer, Tx Holding, and Divisor Latch Low - rbr_thr_dll * * This is a multi-function register. This register holds receives and transmit * data and controls the least-signficant 8 bits of the baud rate divisor. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------ * [7:0] | RW | 0x0 | Value * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Value - value * * Receive Buffer Register: * * This register contains the data byte received on the serial input port * (uart_rxd). The data in this register is valid only if the Data Ready ( bit [0] * in the Line Status Register(LSR)) is set to 1. If FIFOs are disabled(bit[0] of * Register FCR is set to 0) the data in the RBR must be read before the next data * arrives, otherwise it will be overwritten, resulting in an overrun error. If * FIFOs are enabled(bit [0] of Register FCR is set to 1) this register accesses * the head of the receive FIFO. If the receive FIFO is full, and this register is * not read before the next data character arrives, then the data already in the * FIFO will be preserved but any incoming data will be lost. An overrun error will * also occur. * * Transmit Holding Register: * * This register contains data to be transmitted on the serial output port. Data * should only be written to the THR when the THR Empty bit [5] of the LSR Register * is set to 1. If FIFOs are disabled (bit [0] of Register FCR) is set to 0 and * THRE is set to 1, writing a single character to the THR clears the THRE. Any * additional writes to the THR before the THRE is set again causes the THR data to * be overwritten. If FIFO's are enabled bit [0] of Register FCR is set to 1 and * THRE is set up to 128 characters of data may be written to the THR before the * FIFO is full. Any attempt to write data when the FIFO is full results in the * write data being lost. * * Divisor Latch Low: * * This register makes up the lower 8-bits of a 16-bit, Read/write, Divisor Latch * register that contains the baud rate divisor for the UART. This register may * only be accessed when the DLAB bit [7] of the LCR Register is set to 1. The * output baud rate is equal to the serial clock l4_sp_clk frequency divided by * sixteen times the value of the baud rate divisor, as follows: * * baud rate = (serial clock freq) / (16 * divisor) * * Note that with the Divisor Latch Registers (DLL and DLH) set to zero, the baud * clock is disabled and no serial communications will occur. Also, once the DLL is * set, at least 8 l4_sp_clk clock cycles should be allowed to pass before * transmitting or receiving data. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_RBR_THR_DLL_VALUE register field. */ #define ALT_UART_RBR_THR_DLL_VALUE_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_RBR_THR_DLL_VALUE register field. */ #define ALT_UART_RBR_THR_DLL_VALUE_MSB 7 /* The width in bits of the ALT_UART_RBR_THR_DLL_VALUE register field. */ #define ALT_UART_RBR_THR_DLL_VALUE_WIDTH 8 /* The mask used to set the ALT_UART_RBR_THR_DLL_VALUE register field value. */ #define ALT_UART_RBR_THR_DLL_VALUE_SET_MSK 0x000000ff /* The mask used to clear the ALT_UART_RBR_THR_DLL_VALUE register field value. */ #define ALT_UART_RBR_THR_DLL_VALUE_CLR_MSK 0xffffff00 /* The reset value of the ALT_UART_RBR_THR_DLL_VALUE register field. */ #define ALT_UART_RBR_THR_DLL_VALUE_RESET 0x0 /* Extracts the ALT_UART_RBR_THR_DLL_VALUE field value from a register. */ #define ALT_UART_RBR_THR_DLL_VALUE_GET(value) (((value) & 0x000000ff) >> 0) /* Produces a ALT_UART_RBR_THR_DLL_VALUE register field value suitable for setting the register. */ #define ALT_UART_RBR_THR_DLL_VALUE_SET(value) (((value) << 0) & 0x000000ff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_RBR_THR_DLL. */ struct ALT_UART_RBR_THR_DLL_s { uint32_t value : 8; /* Value */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_RBR_THR_DLL. */ typedef volatile struct ALT_UART_RBR_THR_DLL_s ALT_UART_RBR_THR_DLL_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_RBR_THR_DLL register from the beginning of the component. */ #define ALT_UART_RBR_THR_DLL_OFST 0x0 /* The address of the ALT_UART_RBR_THR_DLL register. */ #define ALT_UART_RBR_THR_DLL_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_RBR_THR_DLL_OFST)) /* * Register : Interrupt Enable and Divisor Latch High - ier_dlh * * This is a multi-function register. This register enables/disables receive and * transmit interrupts and also controls the most-significant 8-bits of the baud * rate divisor. * * Divisor Latch High Register: * * This register is accessed when the DLAB bit [7] of the LCR Register is set to * 1.Bits[7:0] contain the high order 8-bits of the baud rate divisor.The output * baud rate is equal to the serial clock l4_sp_clk frequency divided by sixteen * times the value of the baud rate divisor, as follows: * * baud rate = (serial clock freq) / (16 * divisor): * * Note that with the Divisor Latch Registers (DLLand DLH) set to zero, the baud * clock is disabled and no serial communications will occur. Also, once the DLL is * set, at least 8 l4_sp_clk clock cycles should be allowed to pass before * transmitting or receiving data. * * Interrupt Enable Register: * * This register may only be accessed when the DLAB bit [7] of the LCR Register is * set to 0.Allows control of the Interrupt Enables for transmit and receive * functions. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:-------------------------------------------- * [0] | RW | 0x0 | DLH[0] and Receive Data Interrupt Enable * [1] | RW | 0x0 | DLH[1] and Transmit Data Interrupt Control * [2] | RW | 0x0 | DLH[2] and Enable Receiver Line Status * [3] | RW | 0x0 | DLH[3] and Enable Modem Status Interrupt * [4] | RW | 0x0 | DLH[4] * [5] | RW | 0x0 | DLH[5] * [6] | RW | 0x0 | DLH[6] * [7] | RW | 0x0 | DLH[7] and PTIME THRE Interrupt Mode Enable * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : DLH[0] and Receive Data Interrupt Enable - erbfi_dlh0 * * Divisor Latch High Register: * * Bit 0 of DLH value. * * Interrupt Enable Register: * * Used to enable/disable the generation of the Receive Data Available Interrupt * and the Character Timeout Interrupt(if FIFO's enabled). These are the second * highest priority interrupts. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------------|:------|:------------------ * ALT_UART_IER_DLH_ERBFI_DLH0_E_DISD | 0x0 | Interrupt Disable * ALT_UART_IER_DLH_ERBFI_DLH0_E_END | 0x1 | Interrupt Enable * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IER_DLH_ERBFI_DLH0 * * Interrupt Disable */ #define ALT_UART_IER_DLH_ERBFI_DLH0_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_IER_DLH_ERBFI_DLH0 * * Interrupt Enable */ #define ALT_UART_IER_DLH_ERBFI_DLH0_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_ERBFI_DLH0 register field. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_ERBFI_DLH0 register field. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_MSB 0 /* The width in bits of the ALT_UART_IER_DLH_ERBFI_DLH0 register field. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_ERBFI_DLH0 register field value. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_IER_DLH_ERBFI_DLH0 register field value. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_IER_DLH_ERBFI_DLH0 register field. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_ERBFI_DLH0 field value from a register. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_IER_DLH_ERBFI_DLH0 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_ERBFI_DLH0_SET(value) (((value) << 0) & 0x00000001) /* * Field : DLH[1] and Transmit Data Interrupt Control - etbei_dlhl * * Divisor Latch High Register: * * Bit 1 of DLH value. * * Interrupt Enable Register: * * Enable Transmit Holding Register Empty Interrupt. This is used to enable/disable * the generation of Transmitter Holding Register Empty Interrupt. This is the * third highest priority interrupt. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------------|:------|:------------ * ALT_UART_IER_DLH_ETBEI_DLHL_E_DISD | 0x0 | Tx disable * ALT_UART_IER_DLH_ETBEI_DLHL_E_END | 0x1 | Tx enable * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IER_DLH_ETBEI_DLHL * * Tx disable */ #define ALT_UART_IER_DLH_ETBEI_DLHL_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_IER_DLH_ETBEI_DLHL * * Tx enable */ #define ALT_UART_IER_DLH_ETBEI_DLHL_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_ETBEI_DLHL register field. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_ETBEI_DLHL register field. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_MSB 1 /* The width in bits of the ALT_UART_IER_DLH_ETBEI_DLHL register field. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_ETBEI_DLHL register field value. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_IER_DLH_ETBEI_DLHL register field value. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_IER_DLH_ETBEI_DLHL register field. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_ETBEI_DLHL field value from a register. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_IER_DLH_ETBEI_DLHL register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_ETBEI_DLHL_SET(value) (((value) << 1) & 0x00000002) /* * Field : DLH[2] and Enable Receiver Line Status - elsi_dhl2 * * Divisor Latch High Register: * * Bit 2 of DLH value. * * Interrupt Enable Register: * * This is used to enable/disable the generation of Receiver Line Status Interrupt. * This is the highest priority interrupt. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------------|:------|:---------------------------- * ALT_UART_IER_DLH_ELSI_DHL2_E_DISD | 0x0 | Disable interrupt line stat * ALT_UART_IER_DLH_ELSI_DHL2_E_END | 0x1 | Enable interrupt line stat * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IER_DLH_ELSI_DHL2 * * Disable interrupt line stat */ #define ALT_UART_IER_DLH_ELSI_DHL2_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_IER_DLH_ELSI_DHL2 * * Enable interrupt line stat */ #define ALT_UART_IER_DLH_ELSI_DHL2_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_ELSI_DHL2 register field. */ #define ALT_UART_IER_DLH_ELSI_DHL2_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_ELSI_DHL2 register field. */ #define ALT_UART_IER_DLH_ELSI_DHL2_MSB 2 /* The width in bits of the ALT_UART_IER_DLH_ELSI_DHL2 register field. */ #define ALT_UART_IER_DLH_ELSI_DHL2_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_ELSI_DHL2 register field value. */ #define ALT_UART_IER_DLH_ELSI_DHL2_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_IER_DLH_ELSI_DHL2 register field value. */ #define ALT_UART_IER_DLH_ELSI_DHL2_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_IER_DLH_ELSI_DHL2 register field. */ #define ALT_UART_IER_DLH_ELSI_DHL2_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_ELSI_DHL2 field value from a register. */ #define ALT_UART_IER_DLH_ELSI_DHL2_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_IER_DLH_ELSI_DHL2 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_ELSI_DHL2_SET(value) (((value) << 2) & 0x00000004) /* * Field : DLH[3] and Enable Modem Status Interrupt - edssi_dhl3 * * Divisor Latch High Register: * * Bit 3 of DLH value. * * Interrupt Enable Register: * * This is used to enable/disable the generation of Modem Status Interrupts. This * is the fourth highest priority interrupt. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------------|:------|:------------------------------- * ALT_UART_IER_DLH_EDSSI_DHL3_E_DISD | 0x0 | disable modem status interrupt * ALT_UART_IER_DLH_EDSSI_DHL3_E_END | 0x1 | enable modem status interrupt * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IER_DLH_EDSSI_DHL3 * * disable modem status interrupt */ #define ALT_UART_IER_DLH_EDSSI_DHL3_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_IER_DLH_EDSSI_DHL3 * * enable modem status interrupt */ #define ALT_UART_IER_DLH_EDSSI_DHL3_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_EDSSI_DHL3 register field. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_EDSSI_DHL3 register field. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_MSB 3 /* The width in bits of the ALT_UART_IER_DLH_EDSSI_DHL3 register field. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_EDSSI_DHL3 register field value. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_IER_DLH_EDSSI_DHL3 register field value. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_IER_DLH_EDSSI_DHL3 register field. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_EDSSI_DHL3 field value from a register. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_IER_DLH_EDSSI_DHL3 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_EDSSI_DHL3_SET(value) (((value) << 3) & 0x00000008) /* * Field : DLH[4] - dlh4 * * Bit 4 of DLH value. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_DLH4 register field. */ #define ALT_UART_IER_DLH_DLH4_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_DLH4 register field. */ #define ALT_UART_IER_DLH_DLH4_MSB 4 /* The width in bits of the ALT_UART_IER_DLH_DLH4 register field. */ #define ALT_UART_IER_DLH_DLH4_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_DLH4 register field value. */ #define ALT_UART_IER_DLH_DLH4_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_IER_DLH_DLH4 register field value. */ #define ALT_UART_IER_DLH_DLH4_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_IER_DLH_DLH4 register field. */ #define ALT_UART_IER_DLH_DLH4_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_DLH4 field value from a register. */ #define ALT_UART_IER_DLH_DLH4_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_IER_DLH_DLH4 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_DLH4_SET(value) (((value) << 4) & 0x00000010) /* * Field : DLH[5] - dlh5 * * Bit 5 of DLH value. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_DLH5 register field. */ #define ALT_UART_IER_DLH_DLH5_LSB 5 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_DLH5 register field. */ #define ALT_UART_IER_DLH_DLH5_MSB 5 /* The width in bits of the ALT_UART_IER_DLH_DLH5 register field. */ #define ALT_UART_IER_DLH_DLH5_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_DLH5 register field value. */ #define ALT_UART_IER_DLH_DLH5_SET_MSK 0x00000020 /* The mask used to clear the ALT_UART_IER_DLH_DLH5 register field value. */ #define ALT_UART_IER_DLH_DLH5_CLR_MSK 0xffffffdf /* The reset value of the ALT_UART_IER_DLH_DLH5 register field. */ #define ALT_UART_IER_DLH_DLH5_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_DLH5 field value from a register. */ #define ALT_UART_IER_DLH_DLH5_GET(value) (((value) & 0x00000020) >> 5) /* Produces a ALT_UART_IER_DLH_DLH5 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_DLH5_SET(value) (((value) << 5) & 0x00000020) /* * Field : DLH[6] - dlh6 * * Bit 6 of DLH value. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_DLH6 register field. */ #define ALT_UART_IER_DLH_DLH6_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_DLH6 register field. */ #define ALT_UART_IER_DLH_DLH6_MSB 6 /* The width in bits of the ALT_UART_IER_DLH_DLH6 register field. */ #define ALT_UART_IER_DLH_DLH6_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_DLH6 register field value. */ #define ALT_UART_IER_DLH_DLH6_SET_MSK 0x00000040 /* The mask used to clear the ALT_UART_IER_DLH_DLH6 register field value. */ #define ALT_UART_IER_DLH_DLH6_CLR_MSK 0xffffffbf /* The reset value of the ALT_UART_IER_DLH_DLH6 register field. */ #define ALT_UART_IER_DLH_DLH6_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_DLH6 field value from a register. */ #define ALT_UART_IER_DLH_DLH6_GET(value) (((value) & 0x00000040) >> 6) /* Produces a ALT_UART_IER_DLH_DLH6 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_DLH6_SET(value) (((value) << 6) & 0x00000040) /* * Field : DLH[7] and PTIME THRE Interrupt Mode Enable - ptime_dlh7 * * Divisor Latch High Register: * * Bit 7 of DLH value. * * Interrupt Enable Register: * * This is used to enable/disable the generation of THRE Interrupt. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------------|:------|:------------------------------------ * ALT_UART_IER_DLH_PTIME_DLH7_E_DISD | 0x0 | disable tx-hold-reg-empty interrupt * ALT_UART_IER_DLH_PTIME_DLH7_E_END | 0x1 | enable tx-hold-reg-empty interrupt * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IER_DLH_PTIME_DLH7 * * disable tx-hold-reg-empty interrupt */ #define ALT_UART_IER_DLH_PTIME_DLH7_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_IER_DLH_PTIME_DLH7 * * enable tx-hold-reg-empty interrupt */ #define ALT_UART_IER_DLH_PTIME_DLH7_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_IER_DLH_PTIME_DLH7 register field. */ #define ALT_UART_IER_DLH_PTIME_DLH7_LSB 7 /* The Most Significant Bit (MSB) position of the ALT_UART_IER_DLH_PTIME_DLH7 register field. */ #define ALT_UART_IER_DLH_PTIME_DLH7_MSB 7 /* The width in bits of the ALT_UART_IER_DLH_PTIME_DLH7 register field. */ #define ALT_UART_IER_DLH_PTIME_DLH7_WIDTH 1 /* The mask used to set the ALT_UART_IER_DLH_PTIME_DLH7 register field value. */ #define ALT_UART_IER_DLH_PTIME_DLH7_SET_MSK 0x00000080 /* The mask used to clear the ALT_UART_IER_DLH_PTIME_DLH7 register field value. */ #define ALT_UART_IER_DLH_PTIME_DLH7_CLR_MSK 0xffffff7f /* The reset value of the ALT_UART_IER_DLH_PTIME_DLH7 register field. */ #define ALT_UART_IER_DLH_PTIME_DLH7_RESET 0x0 /* Extracts the ALT_UART_IER_DLH_PTIME_DLH7 field value from a register. */ #define ALT_UART_IER_DLH_PTIME_DLH7_GET(value) (((value) & 0x00000080) >> 7) /* Produces a ALT_UART_IER_DLH_PTIME_DLH7 register field value suitable for setting the register. */ #define ALT_UART_IER_DLH_PTIME_DLH7_SET(value) (((value) << 7) & 0x00000080) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_IER_DLH. */ struct ALT_UART_IER_DLH_s { uint32_t erbfi_dlh0 : 1; /* DLH[0] and Receive Data Interrupt Enable */ uint32_t etbei_dlhl : 1; /* DLH[1] and Transmit Data Interrupt Control */ uint32_t elsi_dhl2 : 1; /* DLH[2] and Enable Receiver Line Status */ uint32_t edssi_dhl3 : 1; /* DLH[3] and Enable Modem Status Interrupt */ uint32_t dlh4 : 1; /* DLH[4] */ uint32_t dlh5 : 1; /* DLH[5] */ uint32_t dlh6 : 1; /* DLH[6] */ uint32_t ptime_dlh7 : 1; /* DLH[7] and PTIME THRE Interrupt Mode Enable */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_IER_DLH. */ typedef volatile struct ALT_UART_IER_DLH_s ALT_UART_IER_DLH_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_IER_DLH register from the beginning of the component. */ #define ALT_UART_IER_DLH_OFST 0x4 /* The address of the ALT_UART_IER_DLH register. */ #define ALT_UART_IER_DLH_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_IER_DLH_OFST)) /* * Register : Interrupt Identity Register (when read) - iir * * Returns interrupt identification and FIFO enable/disable when read. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------- * [3:0] | R | 0x1 | Interrupt ID * [5:4] | ??? | 0x0 | *UNDEFINED* * [7:6] | R | 0x0 | FIFO Enabled * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Interrupt ID - id * * This indicates the highest priority pending interrupt. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------------|:------|:----------------------- * ALT_UART_IIR_ID_E_MODMSTAT | 0x0 | Modem status * ALT_UART_IIR_ID_E_NOINTRPENDING | 0x1 | No Interrupt pending * ALT_UART_IIR_ID_E_THREMPTY | 0x2 | THR empty * ALT_UART_IIR_ID_E_RXDATAVAILABLE | 0x4 | Receive data available * ALT_UART_IIR_ID_E_RXLINESTAT | 0x6 | Receive line status * ALT_UART_IIR_ID_E_CHARTMO | 0xc | Character timeout * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IIR_ID * * Modem status */ #define ALT_UART_IIR_ID_E_MODMSTAT 0x0 /* * Enumerated value for register field ALT_UART_IIR_ID * * No Interrupt pending */ #define ALT_UART_IIR_ID_E_NOINTRPENDING 0x1 /* * Enumerated value for register field ALT_UART_IIR_ID * * THR empty */ #define ALT_UART_IIR_ID_E_THREMPTY 0x2 /* * Enumerated value for register field ALT_UART_IIR_ID * * Receive data available */ #define ALT_UART_IIR_ID_E_RXDATAVAILABLE 0x4 /* * Enumerated value for register field ALT_UART_IIR_ID * * Receive line status */ #define ALT_UART_IIR_ID_E_RXLINESTAT 0x6 /* * Enumerated value for register field ALT_UART_IIR_ID * * Character timeout */ #define ALT_UART_IIR_ID_E_CHARTMO 0xc /* The Least Significant Bit (LSB) position of the ALT_UART_IIR_ID register field. */ #define ALT_UART_IIR_ID_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_IIR_ID register field. */ #define ALT_UART_IIR_ID_MSB 3 /* The width in bits of the ALT_UART_IIR_ID register field. */ #define ALT_UART_IIR_ID_WIDTH 4 /* The mask used to set the ALT_UART_IIR_ID register field value. */ #define ALT_UART_IIR_ID_SET_MSK 0x0000000f /* The mask used to clear the ALT_UART_IIR_ID register field value. */ #define ALT_UART_IIR_ID_CLR_MSK 0xfffffff0 /* The reset value of the ALT_UART_IIR_ID register field. */ #define ALT_UART_IIR_ID_RESET 0x1 /* Extracts the ALT_UART_IIR_ID field value from a register. */ #define ALT_UART_IIR_ID_GET(value) (((value) & 0x0000000f) >> 0) /* Produces a ALT_UART_IIR_ID register field value suitable for setting the register. */ #define ALT_UART_IIR_ID_SET(value) (((value) << 0) & 0x0000000f) /* * Field : FIFO Enabled - fifoen * * This is used to indicate whether the FIFO's are enabled or disabled. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:-------------- * ALT_UART_IIR_FIFOEN_E_DISD | 0x0 | FIFO disabled * ALT_UART_IIR_FIFOEN_E_END | 0x3 | FIFO enabled * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_IIR_FIFOEN * * FIFO disabled */ #define ALT_UART_IIR_FIFOEN_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_IIR_FIFOEN * * FIFO enabled */ #define ALT_UART_IIR_FIFOEN_E_END 0x3 /* The Least Significant Bit (LSB) position of the ALT_UART_IIR_FIFOEN register field. */ #define ALT_UART_IIR_FIFOEN_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_IIR_FIFOEN register field. */ #define ALT_UART_IIR_FIFOEN_MSB 7 /* The width in bits of the ALT_UART_IIR_FIFOEN register field. */ #define ALT_UART_IIR_FIFOEN_WIDTH 2 /* The mask used to set the ALT_UART_IIR_FIFOEN register field value. */ #define ALT_UART_IIR_FIFOEN_SET_MSK 0x000000c0 /* The mask used to clear the ALT_UART_IIR_FIFOEN register field value. */ #define ALT_UART_IIR_FIFOEN_CLR_MSK 0xffffff3f /* The reset value of the ALT_UART_IIR_FIFOEN register field. */ #define ALT_UART_IIR_FIFOEN_RESET 0x0 /* Extracts the ALT_UART_IIR_FIFOEN field value from a register. */ #define ALT_UART_IIR_FIFOEN_GET(value) (((value) & 0x000000c0) >> 6) /* Produces a ALT_UART_IIR_FIFOEN register field value suitable for setting the register. */ #define ALT_UART_IIR_FIFOEN_SET(value) (((value) << 6) & 0x000000c0) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_IIR. */ struct ALT_UART_IIR_s { const uint32_t id : 4; /* Interrupt ID */ uint32_t : 2; /* *UNDEFINED* */ const uint32_t fifoen : 2; /* FIFO Enabled */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_IIR. */ typedef volatile struct ALT_UART_IIR_s ALT_UART_IIR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_IIR register from the beginning of the component. */ #define ALT_UART_IIR_OFST 0x8 /* The address of the ALT_UART_IIR register. */ #define ALT_UART_IIR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_IIR_OFST)) /* * Register : FIFO Control (when written) - fcr * * Controls FIFO Operations when written. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:--------|:----------------------- * [0] | W | Unknown | FIFO Enable * [1] | W | Unknown | Rx FIFO Reset * [2] | W | Unknown | Tx FIFO Reset * [3] | W | Unknown | DMA Mode * [5:4] | W | Unknown | Tx Empty Trigger Level * [7:6] | W | Unknown | Rx Trigger Level * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : FIFO Enable - fifoe * * Enables/disables the transmit (Tx) and receive (Rx ) FIFO's. Whenever the value * of this bit is changed both the Tx and Rx controller portion of FIFO's will be * reset. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:--------------- * ALT_UART_FCR_FIFOE_E_DISD | 0x0 | FIFOs disabled * ALT_UART_FCR_FIFOE_E_END | 0x1 | FIFOs enabled * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FCR_FIFOE * * FIFOs disabled */ #define ALT_UART_FCR_FIFOE_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_FCR_FIFOE * * FIFOs enabled */ #define ALT_UART_FCR_FIFOE_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_FCR_FIFOE register field. */ #define ALT_UART_FCR_FIFOE_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_FCR_FIFOE register field. */ #define ALT_UART_FCR_FIFOE_MSB 0 /* The width in bits of the ALT_UART_FCR_FIFOE register field. */ #define ALT_UART_FCR_FIFOE_WIDTH 1 /* The mask used to set the ALT_UART_FCR_FIFOE register field value. */ #define ALT_UART_FCR_FIFOE_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_FCR_FIFOE register field value. */ #define ALT_UART_FCR_FIFOE_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_FCR_FIFOE register field is UNKNOWN. */ #define ALT_UART_FCR_FIFOE_RESET 0x0 /* Extracts the ALT_UART_FCR_FIFOE field value from a register. */ #define ALT_UART_FCR_FIFOE_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_FCR_FIFOE register field value suitable for setting the register. */ #define ALT_UART_FCR_FIFOE_SET(value) (((value) << 0) & 0x00000001) /* * Field : Rx FIFO Reset - rfifor * * Resets the control portion of the receive FIFO and treats the FIFO as empty. * This will also de-assert the DMA Rxrequest and single signals. Note that this * bit is self-clearing' and it is not necessary to clear this bit. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:---------------------------- * ALT_UART_FCR_RFIFOR_E_NORST | 0x0 | No Reset of Rx FIFO Control * ALT_UART_FCR_RFIFOR_E_RST | 0x1 | Resets of Rx FIFO Control * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FCR_RFIFOR * * No Reset of Rx FIFO Control */ #define ALT_UART_FCR_RFIFOR_E_NORST 0x0 /* * Enumerated value for register field ALT_UART_FCR_RFIFOR * * Resets of Rx FIFO Control */ #define ALT_UART_FCR_RFIFOR_E_RST 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_FCR_RFIFOR register field. */ #define ALT_UART_FCR_RFIFOR_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_FCR_RFIFOR register field. */ #define ALT_UART_FCR_RFIFOR_MSB 1 /* The width in bits of the ALT_UART_FCR_RFIFOR register field. */ #define ALT_UART_FCR_RFIFOR_WIDTH 1 /* The mask used to set the ALT_UART_FCR_RFIFOR register field value. */ #define ALT_UART_FCR_RFIFOR_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_FCR_RFIFOR register field value. */ #define ALT_UART_FCR_RFIFOR_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_FCR_RFIFOR register field is UNKNOWN. */ #define ALT_UART_FCR_RFIFOR_RESET 0x0 /* Extracts the ALT_UART_FCR_RFIFOR field value from a register. */ #define ALT_UART_FCR_RFIFOR_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_FCR_RFIFOR register field value suitable for setting the register. */ #define ALT_UART_FCR_RFIFOR_SET(value) (((value) << 1) & 0x00000002) /* * Field : Tx FIFO Reset - xfifor * * Resets the control portion of the transmit FIFO and treats the FIFO as empty. * This will also de-assert the DMA Tx request and single signals when additional * DMA handshaking is used. * * Note that this bit is 'self-clearing' and it is not necessary to clear this bit. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:---------------------------- * ALT_UART_FCR_XFIFOR_E_NORST | 0x0 | No Reset of Tx FIFO Control * ALT_UART_FCR_XFIFOR_E_RST | 0x1 | Resets Tx FIFO Control * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FCR_XFIFOR * * No Reset of Tx FIFO Control */ #define ALT_UART_FCR_XFIFOR_E_NORST 0x0 /* * Enumerated value for register field ALT_UART_FCR_XFIFOR * * Resets Tx FIFO Control */ #define ALT_UART_FCR_XFIFOR_E_RST 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_FCR_XFIFOR register field. */ #define ALT_UART_FCR_XFIFOR_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_FCR_XFIFOR register field. */ #define ALT_UART_FCR_XFIFOR_MSB 2 /* The width in bits of the ALT_UART_FCR_XFIFOR register field. */ #define ALT_UART_FCR_XFIFOR_WIDTH 1 /* The mask used to set the ALT_UART_FCR_XFIFOR register field value. */ #define ALT_UART_FCR_XFIFOR_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_FCR_XFIFOR register field value. */ #define ALT_UART_FCR_XFIFOR_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_FCR_XFIFOR register field is UNKNOWN. */ #define ALT_UART_FCR_XFIFOR_RESET 0x0 /* Extracts the ALT_UART_FCR_XFIFOR field value from a register. */ #define ALT_UART_FCR_XFIFOR_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_FCR_XFIFOR register field value suitable for setting the register. */ #define ALT_UART_FCR_XFIFOR_SET(value) (((value) << 2) & 0x00000004) /* * Field : DMA Mode - dmam * * This determines the DMA signalling mode used for the uart_dma_tx_req_n and * uart_dma_rx_req_n output signals when additional DMA handshaking signals are not * selected. DMA mode 0 supports single DMA data transfers at a time. In mode 0, * the uart_dma_tx_req_n signal goes active low under the following conditions: * * * When the Transmitter Holding Register is empty in non-FIFO mode. * * * When the transmitter FIFO is empty in FIFO mode with Programmable THRE * interrupt mode disabled. * * * When the transmitter FIFO is at or below the programmed threshold with * Programmable THRE interrupt mode enabled. * * It goes inactive under the following conditions * * * When a single character has been written into the Transmitter Holding * Register or transmitter FIFO with Programmable THRE interrupt mode disabled. * * * When the transmitter FIFO is above the threshold with Programmable THRE * interrupt mode enabled. * * DMA mode 1 supports multi-DMA data transfers, where multiple transfers are made * continuously until the receiver FIFO has been emptied or the transmit FIFO has * been filled. In mode 1 the uart_dma_tx_req_n signal is asserted under the * following conditions: * * * When the transmitter FIFO is empty with Programmable THRE interrupt mode * disabled. * * * When the transmitter FIFO is at or below the programmed threshold with * Programmable THRE interrupt mode enabled. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:--------------------------- * ALT_UART_FCR_DMAM_E_SINGLE | 0x0 | Single DMA Transfer Mode * ALT_UART_FCR_DMAM_E_MULT | 0x1 | Multiple DMA Transfer Mode * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FCR_DMAM * * Single DMA Transfer Mode */ #define ALT_UART_FCR_DMAM_E_SINGLE 0x0 /* * Enumerated value for register field ALT_UART_FCR_DMAM * * Multiple DMA Transfer Mode */ #define ALT_UART_FCR_DMAM_E_MULT 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_FCR_DMAM register field. */ #define ALT_UART_FCR_DMAM_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_FCR_DMAM register field. */ #define ALT_UART_FCR_DMAM_MSB 3 /* The width in bits of the ALT_UART_FCR_DMAM register field. */ #define ALT_UART_FCR_DMAM_WIDTH 1 /* The mask used to set the ALT_UART_FCR_DMAM register field value. */ #define ALT_UART_FCR_DMAM_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_FCR_DMAM register field value. */ #define ALT_UART_FCR_DMAM_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_FCR_DMAM register field is UNKNOWN. */ #define ALT_UART_FCR_DMAM_RESET 0x0 /* Extracts the ALT_UART_FCR_DMAM field value from a register. */ #define ALT_UART_FCR_DMAM_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_FCR_DMAM register field value suitable for setting the register. */ #define ALT_UART_FCR_DMAM_SET(value) (((value) << 3) & 0x00000008) /* * Field : Tx Empty Trigger Level - tet * * This is used to select the empty threshold level at which the THRE Interrupts * will be generated when the mode is active. It also determines when the uart DMA * transmit request signal uart_dma_tx_req_n will be asserted when in certain modes * of operation. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------------|:------|:----------------------- * ALT_UART_FCR_TET_E_FIFOEMPTY | 0x0 | FIFO empty * ALT_UART_FCR_TET_E_TWOCHARS | 0x1 | Two characters in FIFO * ALT_UART_FCR_TET_E_QUARTERFULL | 0x2 | FIFO 1/4 full * ALT_UART_FCR_TET_E_HALFFULL | 0x3 | FIFO 1/2 full * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FCR_TET * * FIFO empty */ #define ALT_UART_FCR_TET_E_FIFOEMPTY 0x0 /* * Enumerated value for register field ALT_UART_FCR_TET * * Two characters in FIFO */ #define ALT_UART_FCR_TET_E_TWOCHARS 0x1 /* * Enumerated value for register field ALT_UART_FCR_TET * * FIFO 1/4 full */ #define ALT_UART_FCR_TET_E_QUARTERFULL 0x2 /* * Enumerated value for register field ALT_UART_FCR_TET * * FIFO 1/2 full */ #define ALT_UART_FCR_TET_E_HALFFULL 0x3 /* The Least Significant Bit (LSB) position of the ALT_UART_FCR_TET register field. */ #define ALT_UART_FCR_TET_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_FCR_TET register field. */ #define ALT_UART_FCR_TET_MSB 5 /* The width in bits of the ALT_UART_FCR_TET register field. */ #define ALT_UART_FCR_TET_WIDTH 2 /* The mask used to set the ALT_UART_FCR_TET register field value. */ #define ALT_UART_FCR_TET_SET_MSK 0x00000030 /* The mask used to clear the ALT_UART_FCR_TET register field value. */ #define ALT_UART_FCR_TET_CLR_MSK 0xffffffcf /* The reset value of the ALT_UART_FCR_TET register field is UNKNOWN. */ #define ALT_UART_FCR_TET_RESET 0x0 /* Extracts the ALT_UART_FCR_TET field value from a register. */ #define ALT_UART_FCR_TET_GET(value) (((value) & 0x00000030) >> 4) /* Produces a ALT_UART_FCR_TET register field value suitable for setting the register. */ #define ALT_UART_FCR_TET_SET(value) (((value) << 4) & 0x00000030) /* * Field : Rx Trigger Level - rt * * This register is configured to implement FIFOs. Bits[7:6], Rx Trigger (or RT): * This is used to select the trigger level in the receiver FIFO at which the * Received Data Available Interrupt will be generated. In auto flow control mode * it is used to determine when the uart_rts_n signal will be de-asserted. It also * determines when the uart_dma_rx_req_n signal will be asserted when in certain * modes of operation. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------------|:------|:---------------------- * ALT_UART_FCR_RT_E_ONECHAR | 0x0 | one character in fifo * ALT_UART_FCR_RT_E_QUARTERFULL | 0x1 | FIFO 1/4 full * ALT_UART_FCR_RT_E_HALFFULL | 0x2 | FIFO 1/2 full * ALT_UART_FCR_RT_E_FULLLESS2 | 0x3 | FIFO 2 less than full * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FCR_RT * * one character in fifo */ #define ALT_UART_FCR_RT_E_ONECHAR 0x0 /* * Enumerated value for register field ALT_UART_FCR_RT * * FIFO 1/4 full */ #define ALT_UART_FCR_RT_E_QUARTERFULL 0x1 /* * Enumerated value for register field ALT_UART_FCR_RT * * FIFO 1/2 full */ #define ALT_UART_FCR_RT_E_HALFFULL 0x2 /* * Enumerated value for register field ALT_UART_FCR_RT * * FIFO 2 less than full */ #define ALT_UART_FCR_RT_E_FULLLESS2 0x3 /* The Least Significant Bit (LSB) position of the ALT_UART_FCR_RT register field. */ #define ALT_UART_FCR_RT_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_FCR_RT register field. */ #define ALT_UART_FCR_RT_MSB 7 /* The width in bits of the ALT_UART_FCR_RT register field. */ #define ALT_UART_FCR_RT_WIDTH 2 /* The mask used to set the ALT_UART_FCR_RT register field value. */ #define ALT_UART_FCR_RT_SET_MSK 0x000000c0 /* The mask used to clear the ALT_UART_FCR_RT register field value. */ #define ALT_UART_FCR_RT_CLR_MSK 0xffffff3f /* The reset value of the ALT_UART_FCR_RT register field is UNKNOWN. */ #define ALT_UART_FCR_RT_RESET 0x0 /* Extracts the ALT_UART_FCR_RT field value from a register. */ #define ALT_UART_FCR_RT_GET(value) (((value) & 0x000000c0) >> 6) /* Produces a ALT_UART_FCR_RT register field value suitable for setting the register. */ #define ALT_UART_FCR_RT_SET(value) (((value) << 6) & 0x000000c0) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_FCR. */ struct ALT_UART_FCR_s { uint32_t fifoe : 1; /* FIFO Enable */ uint32_t rfifor : 1; /* Rx FIFO Reset */ uint32_t xfifor : 1; /* Tx FIFO Reset */ uint32_t dmam : 1; /* DMA Mode */ uint32_t tet : 2; /* Tx Empty Trigger Level */ uint32_t rt : 2; /* Rx Trigger Level */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_FCR. */ typedef volatile struct ALT_UART_FCR_s ALT_UART_FCR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_FCR register from the beginning of the component. */ #define ALT_UART_FCR_OFST 0x8 /* The address of the ALT_UART_FCR register. */ #define ALT_UART_FCR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_FCR_OFST)) /* * Register : Line Control Register (When Written) - lcr * * Formats serial data. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------------- * [1:0] | RW | 0x0 | Data Length Select * [2] | RW | 0x0 | Stop Bits * [3] | RW | 0x0 | Parity Enable * [4] | RW | 0x0 | Even Parity Select * [5] | ??? | 0x0 | *UNDEFINED* * [6] | RW | 0x0 | Break Control Bit * [7] | RW | 0x0 | Divisor Latch Access Bit * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Data Length Select - dls * * Data Length Select.Selects the number of data bits per character that the * peripheral will transmit and receive. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------|:------|:------------ * ALT_UART_LCR_DLS_E_LEN5 | 0x0 | 5 bits * ALT_UART_LCR_DLS_E_LEN6 | 0x1 | 6 bits * ALT_UART_LCR_DLS_E_LEN7 | 0x2 | 7 bits * ALT_UART_LCR_DLS_E_LEN8 | 0x3 | 8 bits * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LCR_DLS * * 5 bits */ #define ALT_UART_LCR_DLS_E_LEN5 0x0 /* * Enumerated value for register field ALT_UART_LCR_DLS * * 6 bits */ #define ALT_UART_LCR_DLS_E_LEN6 0x1 /* * Enumerated value for register field ALT_UART_LCR_DLS * * 7 bits */ #define ALT_UART_LCR_DLS_E_LEN7 0x2 /* * Enumerated value for register field ALT_UART_LCR_DLS * * 8 bits */ #define ALT_UART_LCR_DLS_E_LEN8 0x3 /* The Least Significant Bit (LSB) position of the ALT_UART_LCR_DLS register field. */ #define ALT_UART_LCR_DLS_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_LCR_DLS register field. */ #define ALT_UART_LCR_DLS_MSB 1 /* The width in bits of the ALT_UART_LCR_DLS register field. */ #define ALT_UART_LCR_DLS_WIDTH 2 /* The mask used to set the ALT_UART_LCR_DLS register field value. */ #define ALT_UART_LCR_DLS_SET_MSK 0x00000003 /* The mask used to clear the ALT_UART_LCR_DLS register field value. */ #define ALT_UART_LCR_DLS_CLR_MSK 0xfffffffc /* The reset value of the ALT_UART_LCR_DLS register field. */ #define ALT_UART_LCR_DLS_RESET 0x0 /* Extracts the ALT_UART_LCR_DLS field value from a register. */ #define ALT_UART_LCR_DLS_GET(value) (((value) & 0x00000003) >> 0) /* Produces a ALT_UART_LCR_DLS register field value suitable for setting the register. */ #define ALT_UART_LCR_DLS_SET(value) (((value) << 0) & 0x00000003) /* * Field : Stop Bits - stop * * Number of stop bits. Used to select the number of stop bits per character that * the peripheral will transmit and receive.Note that regardless of the number of * stop bits selected the receiver will only check the first stop bit. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------------|:------|:------------------------------------------ * ALT_UART_LCR_STOP_E_ONESTOP | 0x0 | one stop bit * ALT_UART_LCR_STOP_E_ONEPOINT5STOP | 0x1 | 1.5 stop bits when DLS (LCR[1:0]) is zero * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LCR_STOP * * one stop bit */ #define ALT_UART_LCR_STOP_E_ONESTOP 0x0 /* * Enumerated value for register field ALT_UART_LCR_STOP * * 1.5 stop bits when DLS (LCR[1:0]) is zero */ #define ALT_UART_LCR_STOP_E_ONEPOINT5STOP 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LCR_STOP register field. */ #define ALT_UART_LCR_STOP_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_LCR_STOP register field. */ #define ALT_UART_LCR_STOP_MSB 2 /* The width in bits of the ALT_UART_LCR_STOP register field. */ #define ALT_UART_LCR_STOP_WIDTH 1 /* The mask used to set the ALT_UART_LCR_STOP register field value. */ #define ALT_UART_LCR_STOP_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_LCR_STOP register field value. */ #define ALT_UART_LCR_STOP_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_LCR_STOP register field. */ #define ALT_UART_LCR_STOP_RESET 0x0 /* Extracts the ALT_UART_LCR_STOP field value from a register. */ #define ALT_UART_LCR_STOP_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_LCR_STOP register field value suitable for setting the register. */ #define ALT_UART_LCR_STOP_SET(value) (((value) << 2) & 0x00000004) /* * Field : Parity Enable - pen * * This bit is used to enable and disable parity generation and detection in a * transmitted and received data character. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------|:------|:---------------- * ALT_UART_LCR_PEN_E_DISD | 0x0 | parity disabled * ALT_UART_LCR_PEN_E_END | 0x1 | parity enabled * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LCR_PEN * * parity disabled */ #define ALT_UART_LCR_PEN_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_LCR_PEN * * parity enabled */ #define ALT_UART_LCR_PEN_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LCR_PEN register field. */ #define ALT_UART_LCR_PEN_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_LCR_PEN register field. */ #define ALT_UART_LCR_PEN_MSB 3 /* The width in bits of the ALT_UART_LCR_PEN register field. */ #define ALT_UART_LCR_PEN_WIDTH 1 /* The mask used to set the ALT_UART_LCR_PEN register field value. */ #define ALT_UART_LCR_PEN_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_LCR_PEN register field value. */ #define ALT_UART_LCR_PEN_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_LCR_PEN register field. */ #define ALT_UART_LCR_PEN_RESET 0x0 /* Extracts the ALT_UART_LCR_PEN field value from a register. */ #define ALT_UART_LCR_PEN_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_LCR_PEN register field value suitable for setting the register. */ #define ALT_UART_LCR_PEN_SET(value) (((value) << 3) & 0x00000008) /* * Field : Even Parity Select - eps * * This is used to select between even and odd parity, when parity is enabled (PEN * set to one). If set to one, an even number of logic '1's is transmitted or * checked. If set to zero, an odd number of logic '1's is transmitted or checked. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:------------ * ALT_UART_LCR_EPS_E_ODDPAR | 0x0 | odd parity * ALT_UART_LCR_EPS_E_EVENPAR | 0x1 | even parity * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LCR_EPS * * odd parity */ #define ALT_UART_LCR_EPS_E_ODDPAR 0x0 /* * Enumerated value for register field ALT_UART_LCR_EPS * * even parity */ #define ALT_UART_LCR_EPS_E_EVENPAR 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LCR_EPS register field. */ #define ALT_UART_LCR_EPS_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_LCR_EPS register field. */ #define ALT_UART_LCR_EPS_MSB 4 /* The width in bits of the ALT_UART_LCR_EPS register field. */ #define ALT_UART_LCR_EPS_WIDTH 1 /* The mask used to set the ALT_UART_LCR_EPS register field value. */ #define ALT_UART_LCR_EPS_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_LCR_EPS register field value. */ #define ALT_UART_LCR_EPS_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_LCR_EPS register field. */ #define ALT_UART_LCR_EPS_RESET 0x0 /* Extracts the ALT_UART_LCR_EPS field value from a register. */ #define ALT_UART_LCR_EPS_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_LCR_EPS register field value suitable for setting the register. */ #define ALT_UART_LCR_EPS_SET(value) (((value) << 4) & 0x00000010) /* * Field : Break Control Bit - break * * This is used to cause a break condition to be transmitted to the receiving * device. If set to one the serial output is forced to the spacing (logic 0) * state. When not in Loopback Mode, as determined by MCR[4], the sout line is * forced low until the Break bit is cleared. When in Loopback Mode, the break * condition is internally looped back to the receiver and the sir_out_n line is * forced low. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_LCR_BREAK register field. */ #define ALT_UART_LCR_BREAK_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_LCR_BREAK register field. */ #define ALT_UART_LCR_BREAK_MSB 6 /* The width in bits of the ALT_UART_LCR_BREAK register field. */ #define ALT_UART_LCR_BREAK_WIDTH 1 /* The mask used to set the ALT_UART_LCR_BREAK register field value. */ #define ALT_UART_LCR_BREAK_SET_MSK 0x00000040 /* The mask used to clear the ALT_UART_LCR_BREAK register field value. */ #define ALT_UART_LCR_BREAK_CLR_MSK 0xffffffbf /* The reset value of the ALT_UART_LCR_BREAK register field. */ #define ALT_UART_LCR_BREAK_RESET 0x0 /* Extracts the ALT_UART_LCR_BREAK field value from a register. */ #define ALT_UART_LCR_BREAK_GET(value) (((value) & 0x00000040) >> 6) /* Produces a ALT_UART_LCR_BREAK register field value suitable for setting the register. */ #define ALT_UART_LCR_BREAK_SET(value) (((value) << 6) & 0x00000040) /* * Field : Divisor Latch Access Bit - dlab * * Used to enable reading and writing of the Divisor Latch register (DLL and DLH) * to set the baud rate of the UART. This bit must be cleared after initial baud * rate setup in order to access other registers. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_LCR_DLAB register field. */ #define ALT_UART_LCR_DLAB_LSB 7 /* The Most Significant Bit (MSB) position of the ALT_UART_LCR_DLAB register field. */ #define ALT_UART_LCR_DLAB_MSB 7 /* The width in bits of the ALT_UART_LCR_DLAB register field. */ #define ALT_UART_LCR_DLAB_WIDTH 1 /* The mask used to set the ALT_UART_LCR_DLAB register field value. */ #define ALT_UART_LCR_DLAB_SET_MSK 0x00000080 /* The mask used to clear the ALT_UART_LCR_DLAB register field value. */ #define ALT_UART_LCR_DLAB_CLR_MSK 0xffffff7f /* The reset value of the ALT_UART_LCR_DLAB register field. */ #define ALT_UART_LCR_DLAB_RESET 0x0 /* Extracts the ALT_UART_LCR_DLAB field value from a register. */ #define ALT_UART_LCR_DLAB_GET(value) (((value) & 0x00000080) >> 7) /* Produces a ALT_UART_LCR_DLAB register field value suitable for setting the register. */ #define ALT_UART_LCR_DLAB_SET(value) (((value) << 7) & 0x00000080) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_LCR. */ struct ALT_UART_LCR_s { uint32_t dls : 2; /* Data Length Select */ uint32_t stop : 1; /* Stop Bits */ uint32_t pen : 1; /* Parity Enable */ uint32_t eps : 1; /* Even Parity Select */ uint32_t : 1; /* *UNDEFINED* */ uint32_t break_ : 1; /* Break Control Bit */ uint32_t dlab : 1; /* Divisor Latch Access Bit */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_LCR. */ typedef volatile struct ALT_UART_LCR_s ALT_UART_LCR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_LCR register from the beginning of the component. */ #define ALT_UART_LCR_OFST 0xc /* The address of the ALT_UART_LCR register. */ #define ALT_UART_LCR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_LCR_OFST)) /* * Register : Modem Control Register - mcr * * Reports various operations of the modem signals * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------------- * [0] | RW | 0x0 | Data Terminal Ready * [1] | RW | 0x0 | Request to Send * [2] | RW | 0x0 | Out1 * [3] | RW | 0x0 | out2 * [4] | RW | 0x0 | LoopBack Bit * [5] | RW | 0x0 | Auto Flow Control Enable * [31:6] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Data Terminal Ready - dtr * * This is used to directly control the Data Terminal Ready output. The value * written to this location is inverted and driven out on uart_dtr_n, that is: The * Data Terminal Ready output is used to inform the modem or data set that the UART * is ready to establish communications. * * Note that Loopback mode bit [4] of MCR is set to one, the uart_dtr_n output is * held inactive high while the value of this location is internally looped back * to an input. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:--------------------------------- * ALT_UART_MCR_DTR_E_LOGIC1 | 0x0 | uart_dtr_n de-asserted (logic 1) * ALT_UART_MCR_DTR_E_LOGIC0 | 0x1 | uart_dtr_n asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MCR_DTR * * uart_dtr_n de-asserted (logic 1) */ #define ALT_UART_MCR_DTR_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MCR_DTR * * uart_dtr_n asserted (logic 0) */ #define ALT_UART_MCR_DTR_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MCR_DTR register field. */ #define ALT_UART_MCR_DTR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_MCR_DTR register field. */ #define ALT_UART_MCR_DTR_MSB 0 /* The width in bits of the ALT_UART_MCR_DTR register field. */ #define ALT_UART_MCR_DTR_WIDTH 1 /* The mask used to set the ALT_UART_MCR_DTR register field value. */ #define ALT_UART_MCR_DTR_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_MCR_DTR register field value. */ #define ALT_UART_MCR_DTR_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_MCR_DTR register field. */ #define ALT_UART_MCR_DTR_RESET 0x0 /* Extracts the ALT_UART_MCR_DTR field value from a register. */ #define ALT_UART_MCR_DTR_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_MCR_DTR register field value suitable for setting the register. */ #define ALT_UART_MCR_DTR_SET(value) (((value) << 0) & 0x00000001) /* * Field : Request to Send - rts * * This is used to directly control the Request to Send (uart_rts_n) output. The * Request to Send (uart_rts_n) output is used to inform the modem or data set that * the UART is ready to exchange data. When Auto RTS Flow Control is not enabled * (MCR[5] set to zero), the uart_rts_n signal is set low by programming MCR[1] * (RTS) to a high. If Auto Flow Control is active (MCR[5] set to one) and FIFO's * enable (FCR[0] set to one), the uart_rts_n output is controlled in the same way, * but is also gated with the receiver FIFO threshold trigger (uart_rts_n is * inactive high when above the threshold). The uart_rts_n signal will be de- * asserted when MCR[1] is set low. * * Note that in Loopback mode (MCR[4] set to one), the uart_rts_n output is held * inactive high while the value of this location is internally looped back to an * input. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:--------------------------------- * ALT_UART_MCR_RTS_E_LOGIC1 | 0x0 | uart_rts_n de-asserted (logic 1) * ALT_UART_MCR_RTS_E_LOGIC0 | 0x1 | uart_rts_n asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MCR_RTS * * uart_rts_n de-asserted (logic 1) */ #define ALT_UART_MCR_RTS_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MCR_RTS * * uart_rts_n asserted (logic 0) */ #define ALT_UART_MCR_RTS_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MCR_RTS register field. */ #define ALT_UART_MCR_RTS_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_MCR_RTS register field. */ #define ALT_UART_MCR_RTS_MSB 1 /* The width in bits of the ALT_UART_MCR_RTS register field. */ #define ALT_UART_MCR_RTS_WIDTH 1 /* The mask used to set the ALT_UART_MCR_RTS register field value. */ #define ALT_UART_MCR_RTS_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_MCR_RTS register field value. */ #define ALT_UART_MCR_RTS_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_MCR_RTS register field. */ #define ALT_UART_MCR_RTS_RESET 0x0 /* Extracts the ALT_UART_MCR_RTS field value from a register. */ #define ALT_UART_MCR_RTS_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_MCR_RTS register field value suitable for setting the register. */ #define ALT_UART_MCR_RTS_SET(value) (((value) << 1) & 0x00000002) /* * Field : Out1 - out1 * * The value written to this location is inverted and driven out on uart_out1_n * pin. * * Note that in Loopback mode (MCR[4] set to one), the uart_out1_n output is held * inactive high while the value of this location is internally looped back to an * input. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:---------------------------------- * ALT_UART_MCR_OUT1_E_LOGIC1 | 0x0 | uart_out1_n de-asserted (logic 1) * ALT_UART_MCR_OUT1_E_LOGIC0 | 0x1 | uart_out1_n asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MCR_OUT1 * * uart_out1_n de-asserted (logic 1) */ #define ALT_UART_MCR_OUT1_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MCR_OUT1 * * uart_out1_n asserted (logic 0) */ #define ALT_UART_MCR_OUT1_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MCR_OUT1 register field. */ #define ALT_UART_MCR_OUT1_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_MCR_OUT1 register field. */ #define ALT_UART_MCR_OUT1_MSB 2 /* The width in bits of the ALT_UART_MCR_OUT1 register field. */ #define ALT_UART_MCR_OUT1_WIDTH 1 /* The mask used to set the ALT_UART_MCR_OUT1 register field value. */ #define ALT_UART_MCR_OUT1_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_MCR_OUT1 register field value. */ #define ALT_UART_MCR_OUT1_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_MCR_OUT1 register field. */ #define ALT_UART_MCR_OUT1_RESET 0x0 /* Extracts the ALT_UART_MCR_OUT1 field value from a register. */ #define ALT_UART_MCR_OUT1_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_MCR_OUT1 register field value suitable for setting the register. */ #define ALT_UART_MCR_OUT1_SET(value) (((value) << 2) & 0x00000004) /* * Field : out2 - out2 * * This is used to directly control the user-designated uart_out2_n output. The * value written to this location is inverted and driven out on uart_out2_n * * Note: In Loopback mode bit 4 of the modem control register (MCR) is set to one, * the uart_out2_n output is held inactive high while the value of this location is * internally looped back to an input. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:---------------------------------- * ALT_UART_MCR_OUT2_E_LOGIC1 | 0x0 | uart_out2_n de-asserted (logic 1) * ALT_UART_MCR_OUT2_E_LOGIC0 | 0x1 | uart_out2_n asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MCR_OUT2 * * uart_out2_n de-asserted (logic 1) */ #define ALT_UART_MCR_OUT2_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MCR_OUT2 * * uart_out2_n asserted (logic 0) */ #define ALT_UART_MCR_OUT2_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MCR_OUT2 register field. */ #define ALT_UART_MCR_OUT2_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_MCR_OUT2 register field. */ #define ALT_UART_MCR_OUT2_MSB 3 /* The width in bits of the ALT_UART_MCR_OUT2 register field. */ #define ALT_UART_MCR_OUT2_WIDTH 1 /* The mask used to set the ALT_UART_MCR_OUT2 register field value. */ #define ALT_UART_MCR_OUT2_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_MCR_OUT2 register field value. */ #define ALT_UART_MCR_OUT2_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_MCR_OUT2 register field. */ #define ALT_UART_MCR_OUT2_RESET 0x0 /* Extracts the ALT_UART_MCR_OUT2 field value from a register. */ #define ALT_UART_MCR_OUT2_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_MCR_OUT2 register field value suitable for setting the register. */ #define ALT_UART_MCR_OUT2_SET(value) (((value) << 3) & 0x00000008) /* * Field : LoopBack Bit - loopback * * This is used to put the UART into a diagnostic mode for test purposes. If UART * mode is NOT active, bit [6] of the modem control register MCR is set to zero, * data on the sout line is held high, while serial data output is looped back to * the sin line, internally. In this mode all the interrupts are fully functional. * Also, in loopback mode, the modem control inputs (uart_dsr_n, uart_cts_n, * uart_ri_n, uart_dcd_n) are disconnected and the modem control outputs * (uart_dtr_n, uart_rts_n, uart_out1_n, uart_out2_n) are loopedback to the inputs, * internally. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_MCR_LOOPBACK register field. */ #define ALT_UART_MCR_LOOPBACK_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_MCR_LOOPBACK register field. */ #define ALT_UART_MCR_LOOPBACK_MSB 4 /* The width in bits of the ALT_UART_MCR_LOOPBACK register field. */ #define ALT_UART_MCR_LOOPBACK_WIDTH 1 /* The mask used to set the ALT_UART_MCR_LOOPBACK register field value. */ #define ALT_UART_MCR_LOOPBACK_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_MCR_LOOPBACK register field value. */ #define ALT_UART_MCR_LOOPBACK_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_MCR_LOOPBACK register field. */ #define ALT_UART_MCR_LOOPBACK_RESET 0x0 /* Extracts the ALT_UART_MCR_LOOPBACK field value from a register. */ #define ALT_UART_MCR_LOOPBACK_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_MCR_LOOPBACK register field value suitable for setting the register. */ #define ALT_UART_MCR_LOOPBACK_SET(value) (((value) << 4) & 0x00000010) /* * Field : Auto Flow Control Enable - afce * * When FIFOs are enabled, the Auto Flow Control enable bits are active. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------|:------|:-------------------------------- * ALT_UART_MCR_AFCE_E_DISD | 0x0 | Auto Flow Control Mode disabled * ALT_UART_MCR_AFCE_E_END | 0x1 | Auto Flow Control Mode enabled * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MCR_AFCE * * Auto Flow Control Mode disabled */ #define ALT_UART_MCR_AFCE_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_MCR_AFCE * * Auto Flow Control Mode enabled */ #define ALT_UART_MCR_AFCE_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MCR_AFCE register field. */ #define ALT_UART_MCR_AFCE_LSB 5 /* The Most Significant Bit (MSB) position of the ALT_UART_MCR_AFCE register field. */ #define ALT_UART_MCR_AFCE_MSB 5 /* The width in bits of the ALT_UART_MCR_AFCE register field. */ #define ALT_UART_MCR_AFCE_WIDTH 1 /* The mask used to set the ALT_UART_MCR_AFCE register field value. */ #define ALT_UART_MCR_AFCE_SET_MSK 0x00000020 /* The mask used to clear the ALT_UART_MCR_AFCE register field value. */ #define ALT_UART_MCR_AFCE_CLR_MSK 0xffffffdf /* The reset value of the ALT_UART_MCR_AFCE register field. */ #define ALT_UART_MCR_AFCE_RESET 0x0 /* Extracts the ALT_UART_MCR_AFCE field value from a register. */ #define ALT_UART_MCR_AFCE_GET(value) (((value) & 0x00000020) >> 5) /* Produces a ALT_UART_MCR_AFCE register field value suitable for setting the register. */ #define ALT_UART_MCR_AFCE_SET(value) (((value) << 5) & 0x00000020) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_MCR. */ struct ALT_UART_MCR_s { uint32_t dtr : 1; /* Data Terminal Ready */ uint32_t rts : 1; /* Request to Send */ uint32_t out1 : 1; /* Out1 */ uint32_t out2 : 1; /* out2 */ uint32_t loopback : 1; /* LoopBack Bit */ uint32_t afce : 1; /* Auto Flow Control Enable */ uint32_t : 26; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_MCR. */ typedef volatile struct ALT_UART_MCR_s ALT_UART_MCR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_MCR register from the beginning of the component. */ #define ALT_UART_MCR_OFST 0x10 /* The address of the ALT_UART_MCR register. */ #define ALT_UART_MCR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_MCR_OFST)) /* * Register : Line Status Register - lsr * * Reports status of transmit and receive. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------------------------ * [0] | R | 0x0 | Data Ready bit * [1] | R | 0x0 | Overrun error * [2] | R | 0x0 | Parity Error * [3] | R | 0x0 | Framing Error * [4] | R | 0x0 | Break Interrupt * [5] | R | 0x1 | Transmit Holding Register Empty bit * [6] | R | 0x1 | Transmitter Empty bit * [7] | R | 0x0 | Receiver FIFO Error bit * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Data Ready bit - dr * * This is used to indicate that the receiver contains at least one character in * the RBR or the receiver FIFO. This bit is cleared when the RBR is read in the * non-FIFO mode, or when the receiver FIFO is empty, in the FIFO mode. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:-------------- * ALT_UART_LSR_DR_E_NODATARDY | 0x0 | no data ready * ALT_UART_LSR_DR_E_DATARDY | 0x1 | data ready * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LSR_DR * * no data ready */ #define ALT_UART_LSR_DR_E_NODATARDY 0x0 /* * Enumerated value for register field ALT_UART_LSR_DR * * data ready */ #define ALT_UART_LSR_DR_E_DATARDY 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_DR register field. */ #define ALT_UART_LSR_DR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_DR register field. */ #define ALT_UART_LSR_DR_MSB 0 /* The width in bits of the ALT_UART_LSR_DR register field. */ #define ALT_UART_LSR_DR_WIDTH 1 /* The mask used to set the ALT_UART_LSR_DR register field value. */ #define ALT_UART_LSR_DR_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_LSR_DR register field value. */ #define ALT_UART_LSR_DR_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_LSR_DR register field. */ #define ALT_UART_LSR_DR_RESET 0x0 /* Extracts the ALT_UART_LSR_DR field value from a register. */ #define ALT_UART_LSR_DR_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_LSR_DR register field value suitable for setting the register. */ #define ALT_UART_LSR_DR_SET(value) (((value) << 0) & 0x00000001) /* * Field : Overrun error - oe * * This is used to indicate the occurrence of an overrun error. This occurs if a * new data character was received before the previous data was read. In the non- * FIFO mode, the OE bit is set when a new character arrives in the receiver before * the previous character was read from the RBR. When this happens, the data in the * RBR is overwritten. In the FIFO mode, an overrun error occurs when the FIFO is * full and new character arrives at the receiver. The data in the FIFO is retained * and the data in the receive shift register is lost.Reading the LSR clears the OE * bit. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:----------------- * ALT_UART_LSR_OE_E_NOOVERRUN | 0x0 | no overrun error * ALT_UART_LSR_OE_E_OVERRUN | 0x1 | overrun error * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LSR_OE * * no overrun error */ #define ALT_UART_LSR_OE_E_NOOVERRUN 0x0 /* * Enumerated value for register field ALT_UART_LSR_OE * * overrun error */ #define ALT_UART_LSR_OE_E_OVERRUN 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_OE register field. */ #define ALT_UART_LSR_OE_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_OE register field. */ #define ALT_UART_LSR_OE_MSB 1 /* The width in bits of the ALT_UART_LSR_OE register field. */ #define ALT_UART_LSR_OE_WIDTH 1 /* The mask used to set the ALT_UART_LSR_OE register field value. */ #define ALT_UART_LSR_OE_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_LSR_OE register field value. */ #define ALT_UART_LSR_OE_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_LSR_OE register field. */ #define ALT_UART_LSR_OE_RESET 0x0 /* Extracts the ALT_UART_LSR_OE field value from a register. */ #define ALT_UART_LSR_OE_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_LSR_OE register field value suitable for setting the register. */ #define ALT_UART_LSR_OE_SET(value) (((value) << 1) & 0x00000002) /* * Field : Parity Error - pe * * This is used to indicate the occurrence of a parity error in the receiver if the * Parity Enable (PEN) bit (LCR[3]) is set. Since the parity error is associated * with a character received, it is revealed when the character with the parity * error arrives at the top of the FIFO. It should be noted that the Parity Error * (PE) bit (LSR[2]) will be set if a break interrupt has occurred, as indicated by * Break Interrupt (BI) bit (LSR[4]). Reading the LSR clears the PE bit. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------------|:------|:---------------- * ALT_UART_LSR_PE_E_NOPARITYERR | 0x0 | no parity error * ALT_UART_LSR_PE_E_PARITYERR | 0x1 | no parity error * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LSR_PE * * no parity error */ #define ALT_UART_LSR_PE_E_NOPARITYERR 0x0 /* * Enumerated value for register field ALT_UART_LSR_PE * * no parity error */ #define ALT_UART_LSR_PE_E_PARITYERR 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_PE register field. */ #define ALT_UART_LSR_PE_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_PE register field. */ #define ALT_UART_LSR_PE_MSB 2 /* The width in bits of the ALT_UART_LSR_PE register field. */ #define ALT_UART_LSR_PE_WIDTH 1 /* The mask used to set the ALT_UART_LSR_PE register field value. */ #define ALT_UART_LSR_PE_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_LSR_PE register field value. */ #define ALT_UART_LSR_PE_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_LSR_PE register field. */ #define ALT_UART_LSR_PE_RESET 0x0 /* Extracts the ALT_UART_LSR_PE field value from a register. */ #define ALT_UART_LSR_PE_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_LSR_PE register field value suitable for setting the register. */ #define ALT_UART_LSR_PE_SET(value) (((value) << 2) & 0x00000004) /* * Field : Framing Error - fe * * This is used to indicate the occurrence of a framing error in the receiver. A * framing error occurs when the receiver does not detect a valid STOP bit in the * received data. In the FIFO mode, since the framing error is associated with a * character received, it is revealed when the character with the framing error is * at the top of the FIFO. When a framing error occurs the UART will try to * resynchronize. It does this by assuming that the error was due to the start bit * of the next character and then continues receiving the other bit i.e. data, * and/or parity and stop. It should be noted that the Framing Error (FE) * bit(LSR[3]) will be set if a break interrupt has occurred, as indicated by a * Break Interrupt BIT bit (LSR[4]). Reading the LSR clears the FE bit. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:----------------- * ALT_UART_LSR_FE_E_NOFRMERR | 0x0 | no framing error * ALT_UART_LSR_FE_E_FRMERR | 0x1 | framing error * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LSR_FE * * no framing error */ #define ALT_UART_LSR_FE_E_NOFRMERR 0x0 /* * Enumerated value for register field ALT_UART_LSR_FE * * framing error */ #define ALT_UART_LSR_FE_E_FRMERR 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_FE register field. */ #define ALT_UART_LSR_FE_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_FE register field. */ #define ALT_UART_LSR_FE_MSB 3 /* The width in bits of the ALT_UART_LSR_FE register field. */ #define ALT_UART_LSR_FE_WIDTH 1 /* The mask used to set the ALT_UART_LSR_FE register field value. */ #define ALT_UART_LSR_FE_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_LSR_FE register field value. */ #define ALT_UART_LSR_FE_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_LSR_FE register field. */ #define ALT_UART_LSR_FE_RESET 0x0 /* Extracts the ALT_UART_LSR_FE field value from a register. */ #define ALT_UART_LSR_FE_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_LSR_FE register field value suitable for setting the register. */ #define ALT_UART_LSR_FE_SET(value) (((value) << 3) & 0x00000008) /* * Field : Break Interrupt - bi * * This is used to indicate the detection of a break sequence on the serial input * data. Set whenever the serial input, sin, is held in a logic 0 state for longer * than the sum of start time + data bits + parity + stop bits. A break condition * on serial input causes one and only one character, consisting of all zeros, to * be received by the UART. The character associated with the break condition is * carried through the FIFO and is revealed when the character is at the top of the * FIFO. Reading the LSR clears the BI bit. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_BI register field. */ #define ALT_UART_LSR_BI_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_BI register field. */ #define ALT_UART_LSR_BI_MSB 4 /* The width in bits of the ALT_UART_LSR_BI register field. */ #define ALT_UART_LSR_BI_WIDTH 1 /* The mask used to set the ALT_UART_LSR_BI register field value. */ #define ALT_UART_LSR_BI_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_LSR_BI register field value. */ #define ALT_UART_LSR_BI_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_LSR_BI register field. */ #define ALT_UART_LSR_BI_RESET 0x0 /* Extracts the ALT_UART_LSR_BI field value from a register. */ #define ALT_UART_LSR_BI_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_LSR_BI register field value suitable for setting the register. */ #define ALT_UART_LSR_BI_SET(value) (((value) << 4) & 0x00000010) /* * Field : Transmit Holding Register Empty bit - thre * * If THRE mode is disabled (IER[7] set to zero) this bit indicates that the THR or * Tx FIFO is empty. This bit is set whenever data is transferred from the THR or * Tx FIFO to the transmitter shift register and no new data has been written to * the THR or Tx FIFO. This also causes a THRE Interrupt to occur, if the THRE * Interrupt is enabled. If both THRE and FIFOs are enabled, both (IER[7] set to * one and FCR[0] set to one respectively), the functionality will indicate the * transmitter FIFO is full, and no longer controls THRE interrupts, which are then * controlled by the FCR[5:4] thresholdsetting. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_THRE register field. */ #define ALT_UART_LSR_THRE_LSB 5 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_THRE register field. */ #define ALT_UART_LSR_THRE_MSB 5 /* The width in bits of the ALT_UART_LSR_THRE register field. */ #define ALT_UART_LSR_THRE_WIDTH 1 /* The mask used to set the ALT_UART_LSR_THRE register field value. */ #define ALT_UART_LSR_THRE_SET_MSK 0x00000020 /* The mask used to clear the ALT_UART_LSR_THRE register field value. */ #define ALT_UART_LSR_THRE_CLR_MSK 0xffffffdf /* The reset value of the ALT_UART_LSR_THRE register field. */ #define ALT_UART_LSR_THRE_RESET 0x1 /* Extracts the ALT_UART_LSR_THRE field value from a register. */ #define ALT_UART_LSR_THRE_GET(value) (((value) & 0x00000020) >> 5) /* Produces a ALT_UART_LSR_THRE register field value suitable for setting the register. */ #define ALT_UART_LSR_THRE_SET(value) (((value) << 5) & 0x00000020) /* * Field : Transmitter Empty bit - temt * * If in FIFO mode and FIFO's enabled (FCR[0] set to one), this bit is set whenever * the Transmitter Shift Register and the FIFO are both empty. If FIFO's are * disabled, this bit is set whenever the Transmitter Holding Register and the * Transmitter Shift Register are both empty. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------|:------|:----------------------- * ALT_UART_LSR_TEMT_E_NOTEMPTY | 0x0 | Transmit Empty not set * ALT_UART_LSR_TEMT_E_EMPTY | 0x1 | Transmit Empty set * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LSR_TEMT * * Transmit Empty not set */ #define ALT_UART_LSR_TEMT_E_NOTEMPTY 0x0 /* * Enumerated value for register field ALT_UART_LSR_TEMT * * Transmit Empty set */ #define ALT_UART_LSR_TEMT_E_EMPTY 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_TEMT register field. */ #define ALT_UART_LSR_TEMT_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_TEMT register field. */ #define ALT_UART_LSR_TEMT_MSB 6 /* The width in bits of the ALT_UART_LSR_TEMT register field. */ #define ALT_UART_LSR_TEMT_WIDTH 1 /* The mask used to set the ALT_UART_LSR_TEMT register field value. */ #define ALT_UART_LSR_TEMT_SET_MSK 0x00000040 /* The mask used to clear the ALT_UART_LSR_TEMT register field value. */ #define ALT_UART_LSR_TEMT_CLR_MSK 0xffffffbf /* The reset value of the ALT_UART_LSR_TEMT register field. */ #define ALT_UART_LSR_TEMT_RESET 0x1 /* Extracts the ALT_UART_LSR_TEMT field value from a register. */ #define ALT_UART_LSR_TEMT_GET(value) (((value) & 0x00000040) >> 6) /* Produces a ALT_UART_LSR_TEMT register field value suitable for setting the register. */ #define ALT_UART_LSR_TEMT_SET(value) (((value) << 6) & 0x00000040) /* * Field : Receiver FIFO Error bit - rfe * * This bit is only relevant when FIFO's are enabled (FCR[0] set to one). This is * used to indicate if there is at least one parity error, framing error, or break * indication in the FIFO. This bit is cleared when the LSR is read and the * character with the error is at the top of the receiver FIFO and there are no * subsequent errors in the FIFO. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------|:------|:-------------------- * ALT_UART_LSR_RFE_E_NOERR | 0x0 | no error in Rx FIFO * ALT_UART_LSR_RFE_E_ERR | 0x1 | error in Rx FIFO * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_LSR_RFE * * no error in Rx FIFO */ #define ALT_UART_LSR_RFE_E_NOERR 0x0 /* * Enumerated value for register field ALT_UART_LSR_RFE * * error in Rx FIFO */ #define ALT_UART_LSR_RFE_E_ERR 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_LSR_RFE register field. */ #define ALT_UART_LSR_RFE_LSB 7 /* The Most Significant Bit (MSB) position of the ALT_UART_LSR_RFE register field. */ #define ALT_UART_LSR_RFE_MSB 7 /* The width in bits of the ALT_UART_LSR_RFE register field. */ #define ALT_UART_LSR_RFE_WIDTH 1 /* The mask used to set the ALT_UART_LSR_RFE register field value. */ #define ALT_UART_LSR_RFE_SET_MSK 0x00000080 /* The mask used to clear the ALT_UART_LSR_RFE register field value. */ #define ALT_UART_LSR_RFE_CLR_MSK 0xffffff7f /* The reset value of the ALT_UART_LSR_RFE register field. */ #define ALT_UART_LSR_RFE_RESET 0x0 /* Extracts the ALT_UART_LSR_RFE field value from a register. */ #define ALT_UART_LSR_RFE_GET(value) (((value) & 0x00000080) >> 7) /* Produces a ALT_UART_LSR_RFE register field value suitable for setting the register. */ #define ALT_UART_LSR_RFE_SET(value) (((value) << 7) & 0x00000080) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_LSR. */ struct ALT_UART_LSR_s { const uint32_t dr : 1; /* Data Ready bit */ const uint32_t oe : 1; /* Overrun error */ const uint32_t pe : 1; /* Parity Error */ const uint32_t fe : 1; /* Framing Error */ const uint32_t bi : 1; /* Break Interrupt */ const uint32_t thre : 1; /* Transmit Holding Register Empty bit */ const uint32_t temt : 1; /* Transmitter Empty bit */ const uint32_t rfe : 1; /* Receiver FIFO Error bit */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_LSR. */ typedef volatile struct ALT_UART_LSR_s ALT_UART_LSR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_LSR register from the beginning of the component. */ #define ALT_UART_LSR_OFST 0x14 /* The address of the ALT_UART_LSR register. */ #define ALT_UART_LSR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_LSR_OFST)) /* * Register : Modem Status Register - msr * * It should be noted that whenever bits 0, 1, 2 or 3 are set to logic one, to * indicate a change on the modem control inputs, a modem status interrupt will be * generated if enabled via the IER regardless of when the change occurred. Since * the delta bits (bits 0, 1, 3) can get set after a reset if their respective * modem signals are active (see individual bits for details), a read of the MSR * after reset can be performed to prevent unwanted interrupts. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:-------------------------------- * [0] | R | 0x0 | Delta Clear to Send * [1] | R | 0x0 | Delta Data Set Ready * [2] | R | 0x0 | Trailing Edge of Ring Indicator * [3] | R | 0x0 | Delta Data Carrier Detect * [4] | R | 0x0 | Clear to Send * [5] | R | 0x0 | Data Set Ready * [6] | R | 0x0 | Ring Indicator * [7] | R | 0x0 | Data Carrier Detect * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Delta Clear to Send - dcts * * This is used to indicate that the modem control line uart_cts_n has changed * since the last time the MSR was read. That is: Reading the MSR clears the DCTS * bit. In Loopback Mode bit [4] of MCR set to one, DCTS reflects changes on bit * [1] RTS of register MCR. * * Note: If the DCTS bit is not set and the uart_cts_n signal is asserted (low) and * a reset occurs (software or otherwise), then the DCTS bit will get set when the * reset is removed if the uart_cts_n signal remains asserted. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:----------------------------------------------- * ALT_UART_MSR_DCTS_E_NOCHG | 0x0 | no change on uart_cts_n since last read of MSR * ALT_UART_MSR_DCTS_E_CHG | 0x1 | change on uart_cts_n since last read of MSR * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_DCTS * * no change on uart_cts_n since last read of MSR */ #define ALT_UART_MSR_DCTS_E_NOCHG 0x0 /* * Enumerated value for register field ALT_UART_MSR_DCTS * * change on uart_cts_n since last read of MSR */ #define ALT_UART_MSR_DCTS_E_CHG 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_DCTS register field. */ #define ALT_UART_MSR_DCTS_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_DCTS register field. */ #define ALT_UART_MSR_DCTS_MSB 0 /* The width in bits of the ALT_UART_MSR_DCTS register field. */ #define ALT_UART_MSR_DCTS_WIDTH 1 /* The mask used to set the ALT_UART_MSR_DCTS register field value. */ #define ALT_UART_MSR_DCTS_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_MSR_DCTS register field value. */ #define ALT_UART_MSR_DCTS_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_MSR_DCTS register field. */ #define ALT_UART_MSR_DCTS_RESET 0x0 /* Extracts the ALT_UART_MSR_DCTS field value from a register. */ #define ALT_UART_MSR_DCTS_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_MSR_DCTS register field value suitable for setting the register. */ #define ALT_UART_MSR_DCTS_SET(value) (((value) << 0) & 0x00000001) /* * Field : Delta Data Set Ready - ddsr * * This is used to indicate that the modem control line uart_dsr_n has changed * since the last time the MSR was read. Reading the MSR clears the DDSR bit.In * Loopback Mode (MCR[4] set to one), DDSR reflects changes on bit [0] DTR of * register MCR . * * Note, if the DDSR bit is not set and the uart_dsr_n signal is asserted (low) and * a reset occurs (software or otherwise), then the DDSR bit will get set when the * reset is removed if the uart_dsr_n signal remains asserted. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:----------------------------------------------- * ALT_UART_MSR_DDSR_E_NOCHG | 0x0 | no change on uart_dsr_n since last read of MSR * ALT_UART_MSR_DDSR_E_CHG | 0x1 | change on uart_dsr_n since last read of MSR * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_DDSR * * no change on uart_dsr_n since last read of MSR */ #define ALT_UART_MSR_DDSR_E_NOCHG 0x0 /* * Enumerated value for register field ALT_UART_MSR_DDSR * * change on uart_dsr_n since last read of MSR */ #define ALT_UART_MSR_DDSR_E_CHG 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_DDSR register field. */ #define ALT_UART_MSR_DDSR_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_DDSR register field. */ #define ALT_UART_MSR_DDSR_MSB 1 /* The width in bits of the ALT_UART_MSR_DDSR register field. */ #define ALT_UART_MSR_DDSR_WIDTH 1 /* The mask used to set the ALT_UART_MSR_DDSR register field value. */ #define ALT_UART_MSR_DDSR_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_MSR_DDSR register field value. */ #define ALT_UART_MSR_DDSR_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_MSR_DDSR register field. */ #define ALT_UART_MSR_DDSR_RESET 0x0 /* Extracts the ALT_UART_MSR_DDSR field value from a register. */ #define ALT_UART_MSR_DDSR_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_MSR_DDSR register field value suitable for setting the register. */ #define ALT_UART_MSR_DDSR_SET(value) (((value) << 1) & 0x00000002) /* * Field : Trailing Edge of Ring Indicator - teri * * This is used to indicate that a change on the input uart_ri_n (from an active * low, to an inactive high state) has occurred since the last time the MSR was * read. Reading the MSR clears the TERI bit. In Loopback Mode bit [4] of register * MCR is set to one, TERI reflects when bit [2] of register MCR has changed state * from a high to a low. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:---------------------------------------------- * ALT_UART_MSR_TERI_E_NOCHG | 0x0 | no change on uart_ri_n since last read of MSR * ALT_UART_MSR_TERI_E_CHG | 0x1 | change on uart_ri_n since last read of MSR * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_TERI * * no change on uart_ri_n since last read of MSR */ #define ALT_UART_MSR_TERI_E_NOCHG 0x0 /* * Enumerated value for register field ALT_UART_MSR_TERI * * change on uart_ri_n since last read of MSR */ #define ALT_UART_MSR_TERI_E_CHG 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_TERI register field. */ #define ALT_UART_MSR_TERI_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_TERI register field. */ #define ALT_UART_MSR_TERI_MSB 2 /* The width in bits of the ALT_UART_MSR_TERI register field. */ #define ALT_UART_MSR_TERI_WIDTH 1 /* The mask used to set the ALT_UART_MSR_TERI register field value. */ #define ALT_UART_MSR_TERI_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_MSR_TERI register field value. */ #define ALT_UART_MSR_TERI_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_MSR_TERI register field. */ #define ALT_UART_MSR_TERI_RESET 0x0 /* Extracts the ALT_UART_MSR_TERI field value from a register. */ #define ALT_UART_MSR_TERI_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_MSR_TERI register field value suitable for setting the register. */ #define ALT_UART_MSR_TERI_SET(value) (((value) << 2) & 0x00000004) /* * Field : Delta Data Carrier Detect - ddcd * * This is used to indicate that the modem control line dcd_n has changed since the * last time the MSR was read. Reading the MSR clears the DDCD bit. In Loopback * Mode bit [4] of register MCR is set to one, DDCD reflects changes bit [3] * uart_out2 of register MCR. * * Note: If the DDCD bit is not set and the uart_dcd_n signal is asserted (low) and * a reset occurs (software or otherwise), then the DDCD bit will get set when the * reset is removed if the uart_dcd_n signal remains asserted. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:----------------------------------------------- * ALT_UART_MSR_DDCD_E_NOCHG | 0x0 | no change on uart_dcd_n since last read of MSR * ALT_UART_MSR_DDCD_E_CHG | 0x1 | change on uart_dcd_n since last read of MSR * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_DDCD * * no change on uart_dcd_n since last read of MSR */ #define ALT_UART_MSR_DDCD_E_NOCHG 0x0 /* * Enumerated value for register field ALT_UART_MSR_DDCD * * change on uart_dcd_n since last read of MSR */ #define ALT_UART_MSR_DDCD_E_CHG 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_DDCD register field. */ #define ALT_UART_MSR_DDCD_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_DDCD register field. */ #define ALT_UART_MSR_DDCD_MSB 3 /* The width in bits of the ALT_UART_MSR_DDCD register field. */ #define ALT_UART_MSR_DDCD_WIDTH 1 /* The mask used to set the ALT_UART_MSR_DDCD register field value. */ #define ALT_UART_MSR_DDCD_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_MSR_DDCD register field value. */ #define ALT_UART_MSR_DDCD_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_MSR_DDCD register field. */ #define ALT_UART_MSR_DDCD_RESET 0x0 /* Extracts the ALT_UART_MSR_DDCD field value from a register. */ #define ALT_UART_MSR_DDCD_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_MSR_DDCD register field value suitable for setting the register. */ #define ALT_UART_MSR_DDCD_SET(value) (((value) << 3) & 0x00000008) /* * Field : Clear to Send - cts * * This is used to indicate the current state of the modem control line uart_cts_n. * That is, this bit is the complement uart_cts_n. When the Clear to Send input * (uart_cts_n) is asserted it is an indication that the modem or data set is ready * to exchange data with the uart. In Loopback Mode bit [4] of register MCR is set * to one, CTS is the same as bit [1] RTS of register MCR. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:------------------------------------------ * ALT_UART_MSR_CTS_E_LOGIC1 | 0x0 | uart_cts_n input is de-asserted (logic 1) * ALT_UART_MSR_CTS_E_LOGIC0 | 0x1 | uart_cts_n input is asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_CTS * * uart_cts_n input is de-asserted (logic 1) */ #define ALT_UART_MSR_CTS_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MSR_CTS * * uart_cts_n input is asserted (logic 0) */ #define ALT_UART_MSR_CTS_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_CTS register field. */ #define ALT_UART_MSR_CTS_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_CTS register field. */ #define ALT_UART_MSR_CTS_MSB 4 /* The width in bits of the ALT_UART_MSR_CTS register field. */ #define ALT_UART_MSR_CTS_WIDTH 1 /* The mask used to set the ALT_UART_MSR_CTS register field value. */ #define ALT_UART_MSR_CTS_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_MSR_CTS register field value. */ #define ALT_UART_MSR_CTS_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_MSR_CTS register field. */ #define ALT_UART_MSR_CTS_RESET 0x0 /* Extracts the ALT_UART_MSR_CTS field value from a register. */ #define ALT_UART_MSR_CTS_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_MSR_CTS register field value suitable for setting the register. */ #define ALT_UART_MSR_CTS_SET(value) (((value) << 4) & 0x00000010) /* * Field : Data Set Ready - dsr * * This is used to indicate the current state of the modem control line uart_dsr_n. * That is this bit is the complement f uart_dsr_n. When the Data Set Ready input * (uart_dsr_n) is asserted it is an indication that the modem or data set is ready * to establish communications with the uart. In Loopback Mode bit [4] of register * MCR is set to one, DSR is the same as bit [0] (DTR) of register MCR. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:------------------------------------------ * ALT_UART_MSR_DSR_E_LOGIC1 | 0x0 | uart_dsr_n input is de-asserted (logic 1) * ALT_UART_MSR_DSR_E_LOGIC0 | 0x1 | uart_dsr_n input is asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_DSR * * uart_dsr_n input is de-asserted (logic 1) */ #define ALT_UART_MSR_DSR_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MSR_DSR * * uart_dsr_n input is asserted (logic 0) */ #define ALT_UART_MSR_DSR_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_DSR register field. */ #define ALT_UART_MSR_DSR_LSB 5 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_DSR register field. */ #define ALT_UART_MSR_DSR_MSB 5 /* The width in bits of the ALT_UART_MSR_DSR register field. */ #define ALT_UART_MSR_DSR_WIDTH 1 /* The mask used to set the ALT_UART_MSR_DSR register field value. */ #define ALT_UART_MSR_DSR_SET_MSK 0x00000020 /* The mask used to clear the ALT_UART_MSR_DSR register field value. */ #define ALT_UART_MSR_DSR_CLR_MSK 0xffffffdf /* The reset value of the ALT_UART_MSR_DSR register field. */ #define ALT_UART_MSR_DSR_RESET 0x0 /* Extracts the ALT_UART_MSR_DSR field value from a register. */ #define ALT_UART_MSR_DSR_GET(value) (((value) & 0x00000020) >> 5) /* Produces a ALT_UART_MSR_DSR register field value suitable for setting the register. */ #define ALT_UART_MSR_DSR_SET(value) (((value) << 5) & 0x00000020) /* * Field : Ring Indicator - ri * * This bit is used to indicate the current state of the modem control line * uart_ri_n. That is this bit is the complement uart_ri_n. When the Ring Indicator * input (uart_ri_n) is asserted it is an indication that a telephone ringing * signal has been received by the modem or data set. In Loopback Mode bit [4] of * register MCR set to one, RI is the same as bit [2] uart_out1_n of register MCR. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------|:------|:----------------------------------------- * ALT_UART_MSR_RI_E_LOGIC1 | 0x0 | uart_ri_n input is de-asserted (logic 1) * ALT_UART_MSR_RI_E_LOGIC0 | 0x1 | uart_ri_n input is asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_RI * * uart_ri_n input is de-asserted (logic 1) */ #define ALT_UART_MSR_RI_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MSR_RI * * uart_ri_n input is asserted (logic 0) */ #define ALT_UART_MSR_RI_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_RI register field. */ #define ALT_UART_MSR_RI_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_RI register field. */ #define ALT_UART_MSR_RI_MSB 6 /* The width in bits of the ALT_UART_MSR_RI register field. */ #define ALT_UART_MSR_RI_WIDTH 1 /* The mask used to set the ALT_UART_MSR_RI register field value. */ #define ALT_UART_MSR_RI_SET_MSK 0x00000040 /* The mask used to clear the ALT_UART_MSR_RI register field value. */ #define ALT_UART_MSR_RI_CLR_MSK 0xffffffbf /* The reset value of the ALT_UART_MSR_RI register field. */ #define ALT_UART_MSR_RI_RESET 0x0 /* Extracts the ALT_UART_MSR_RI field value from a register. */ #define ALT_UART_MSR_RI_GET(value) (((value) & 0x00000040) >> 6) /* Produces a ALT_UART_MSR_RI register field value suitable for setting the register. */ #define ALT_UART_MSR_RI_SET(value) (((value) << 6) & 0x00000040) /* * Field : Data Carrier Detect - dcd * * This is used to indicate the current state of the modem control line uart_dcd_n. * That is this bit is the complement uart_dcd_n. When the Data Carrier Detect * input (uart_dcd_n) is asserted it is an indication that the carrier has been * detected by the modem or data set. In Loopback Mode (MCR[4] set to one), DCD is * the same as MCR[3] (uart_out2). * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:------------------------------------------ * ALT_UART_MSR_DCD_E_LOGIC1 | 0x0 | uart_dcd_n input is de-asserted (logic 1) * ALT_UART_MSR_DCD_E_LOGIC0 | 0x1 | uart_dcd_n input is asserted (logic 0) * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_MSR_DCD * * uart_dcd_n input is de-asserted (logic 1) */ #define ALT_UART_MSR_DCD_E_LOGIC1 0x0 /* * Enumerated value for register field ALT_UART_MSR_DCD * * uart_dcd_n input is asserted (logic 0) */ #define ALT_UART_MSR_DCD_E_LOGIC0 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_MSR_DCD register field. */ #define ALT_UART_MSR_DCD_LSB 7 /* The Most Significant Bit (MSB) position of the ALT_UART_MSR_DCD register field. */ #define ALT_UART_MSR_DCD_MSB 7 /* The width in bits of the ALT_UART_MSR_DCD register field. */ #define ALT_UART_MSR_DCD_WIDTH 1 /* The mask used to set the ALT_UART_MSR_DCD register field value. */ #define ALT_UART_MSR_DCD_SET_MSK 0x00000080 /* The mask used to clear the ALT_UART_MSR_DCD register field value. */ #define ALT_UART_MSR_DCD_CLR_MSK 0xffffff7f /* The reset value of the ALT_UART_MSR_DCD register field. */ #define ALT_UART_MSR_DCD_RESET 0x0 /* Extracts the ALT_UART_MSR_DCD field value from a register. */ #define ALT_UART_MSR_DCD_GET(value) (((value) & 0x00000080) >> 7) /* Produces a ALT_UART_MSR_DCD register field value suitable for setting the register. */ #define ALT_UART_MSR_DCD_SET(value) (((value) << 7) & 0x00000080) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_MSR. */ struct ALT_UART_MSR_s { const uint32_t dcts : 1; /* Delta Clear to Send */ const uint32_t ddsr : 1; /* Delta Data Set Ready */ const uint32_t teri : 1; /* Trailing Edge of Ring Indicator */ const uint32_t ddcd : 1; /* Delta Data Carrier Detect */ const uint32_t cts : 1; /* Clear to Send */ const uint32_t dsr : 1; /* Data Set Ready */ const uint32_t ri : 1; /* Ring Indicator */ const uint32_t dcd : 1; /* Data Carrier Detect */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_MSR. */ typedef volatile struct ALT_UART_MSR_s ALT_UART_MSR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_MSR register from the beginning of the component. */ #define ALT_UART_MSR_OFST 0x18 /* The address of the ALT_UART_MSR register. */ #define ALT_UART_MSR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_MSR_OFST)) /* * Register : Scratchpad Register - scr * * Scratchpad Register * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:-------------------- * [7:0] | RW | 0x0 | Scratchpad Register * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Scratchpad Register - scr * * This register is for programmers to use as a temporary storage space. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_SCR_SCR register field. */ #define ALT_UART_SCR_SCR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SCR_SCR register field. */ #define ALT_UART_SCR_SCR_MSB 7 /* The width in bits of the ALT_UART_SCR_SCR register field. */ #define ALT_UART_SCR_SCR_WIDTH 8 /* The mask used to set the ALT_UART_SCR_SCR register field value. */ #define ALT_UART_SCR_SCR_SET_MSK 0x000000ff /* The mask used to clear the ALT_UART_SCR_SCR register field value. */ #define ALT_UART_SCR_SCR_CLR_MSK 0xffffff00 /* The reset value of the ALT_UART_SCR_SCR register field. */ #define ALT_UART_SCR_SCR_RESET 0x0 /* Extracts the ALT_UART_SCR_SCR field value from a register. */ #define ALT_UART_SCR_SCR_GET(value) (((value) & 0x000000ff) >> 0) /* Produces a ALT_UART_SCR_SCR register field value suitable for setting the register. */ #define ALT_UART_SCR_SCR_SET(value) (((value) << 0) & 0x000000ff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SCR. */ struct ALT_UART_SCR_s { uint32_t scr : 8; /* Scratchpad Register */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SCR. */ typedef volatile struct ALT_UART_SCR_s ALT_UART_SCR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SCR register from the beginning of the component. */ #define ALT_UART_SCR_OFST 0x1c /* The address of the ALT_UART_SCR register. */ #define ALT_UART_SCR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SCR_OFST)) /* * Register : Shadow Receive Buffer Register - srbr * * Used to accomadate burst accesses from the master. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:---------------------- * [7:0] | RW | 0x0 | Shadow Receive Buffer * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow Receive Buffer - srbr * * This is a shadow register for the RBR and has been allocated one 32-bit location * so as to accommodate burst accesses from the master.This register contains the * data byte received on the serial input port (sin). The data in this register is * valid only if the Data Ready (DR) bit in the Line status Register (LSR) is set. * If FIFOs are disabled, bit [0] of register FCR set to zero, the data in the RBR * must be read before the next data arrives, otherwise it will be overwritten, * resulting in an overrun error. If FIFOs are enabled (FCR[0] set to one), this * register accesses the head of the receive FIFO. If the receive FIFO is full and * this register is not read before the next data character arrives, then the data * already in the FIFO will be preserved but any incoming data will be lost. An * overrun error will also occur. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_SRBR_SRBR register field. */ #define ALT_UART_SRBR_SRBR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SRBR_SRBR register field. */ #define ALT_UART_SRBR_SRBR_MSB 7 /* The width in bits of the ALT_UART_SRBR_SRBR register field. */ #define ALT_UART_SRBR_SRBR_WIDTH 8 /* The mask used to set the ALT_UART_SRBR_SRBR register field value. */ #define ALT_UART_SRBR_SRBR_SET_MSK 0x000000ff /* The mask used to clear the ALT_UART_SRBR_SRBR register field value. */ #define ALT_UART_SRBR_SRBR_CLR_MSK 0xffffff00 /* The reset value of the ALT_UART_SRBR_SRBR register field. */ #define ALT_UART_SRBR_SRBR_RESET 0x0 /* Extracts the ALT_UART_SRBR_SRBR field value from a register. */ #define ALT_UART_SRBR_SRBR_GET(value) (((value) & 0x000000ff) >> 0) /* Produces a ALT_UART_SRBR_SRBR register field value suitable for setting the register. */ #define ALT_UART_SRBR_SRBR_SET(value) (((value) << 0) & 0x000000ff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SRBR. */ struct ALT_UART_SRBR_s { uint32_t srbr : 8; /* Shadow Receive Buffer */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SRBR. */ typedef volatile struct ALT_UART_SRBR_s ALT_UART_SRBR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SRBR register from the beginning of the component. */ #define ALT_UART_SRBR_OFST 0x30 /* The address of the ALT_UART_SRBR register. */ #define ALT_UART_SRBR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SRBR_OFST)) /* * Register : Shadow Transmit Buffer Register - sthr * * Used to accomadate burst accesses from the master. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:----------------------- * [7:0] | RW | 0x0 | Shadow Transmit Buffer * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow Transmit Buffer - sthr * * This is a shadow register for the THR and has been allocated sixteen 32-bit * locations so as to accommodate burst accesses from the master. This register * contains data to be transmitted on the serial output port (sout). Data should * only be written to the THR when the THR Empty (THRE) bit (LSR[5]) is set. If * FIFO's are disabled bit [0] of register FCR set to zero and THRE is set, writing * a single character to the THR clears the THRE. Any additional writes to the THR * before the THRE is set again causes the THR data to be overwritten. If FIFO's * are enabled bit [0] of register FCR set to one and THRE is set, 128 characters * of data may be written to the THR before the FIFO is full. The UART FIFO depth * is configured for 128 characters. Any attempt to write data when the FIFO is * full results in the write data being lost. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_STHR_STHR register field. */ #define ALT_UART_STHR_STHR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_STHR_STHR register field. */ #define ALT_UART_STHR_STHR_MSB 7 /* The width in bits of the ALT_UART_STHR_STHR register field. */ #define ALT_UART_STHR_STHR_WIDTH 8 /* The mask used to set the ALT_UART_STHR_STHR register field value. */ #define ALT_UART_STHR_STHR_SET_MSK 0x000000ff /* The mask used to clear the ALT_UART_STHR_STHR register field value. */ #define ALT_UART_STHR_STHR_CLR_MSK 0xffffff00 /* The reset value of the ALT_UART_STHR_STHR register field. */ #define ALT_UART_STHR_STHR_RESET 0x0 /* Extracts the ALT_UART_STHR_STHR field value from a register. */ #define ALT_UART_STHR_STHR_GET(value) (((value) & 0x000000ff) >> 0) /* Produces a ALT_UART_STHR_STHR register field value suitable for setting the register. */ #define ALT_UART_STHR_STHR_SET(value) (((value) << 0) & 0x000000ff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_STHR. */ struct ALT_UART_STHR_s { uint32_t sthr : 8; /* Shadow Transmit Buffer */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_STHR. */ typedef volatile struct ALT_UART_STHR_s ALT_UART_STHR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_STHR register from the beginning of the component. */ #define ALT_UART_STHR_OFST 0x34 /* The address of the ALT_UART_STHR register. */ #define ALT_UART_STHR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_STHR_OFST)) /* * Register : FIFO Access Register - far * * This register is used in FIFO access testing. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:---------------- * [0] | RW | 0x0 | FIFO ACCESS Bit * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : FIFO ACCESS Bit - srbr_sthr * * This register is used to enable a FIFO access mode for testing, so that the * receive FIFO can be written by the master and the transmit FIFO can be read by * the master when FIFO's are enabled. When FIFO's are not enabled it allows the * RBR to be written by the master and the THR to be read by the master * * Note: That when the FIFO access mode is enabled/disabled, the control portion of * the receive FIFO and transmit FIFO is reset and the FIFO's are treated as empty. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------------|:------|:-------------------------- * ALT_UART_FAR_SRBR_STHR_E_DISD | 0x0 | FIFO access mode disabled * ALT_UART_FAR_SRBR_STHR_E_END | 0x1 | FIFO access mode enabled * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_FAR_SRBR_STHR * * FIFO access mode disabled */ #define ALT_UART_FAR_SRBR_STHR_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_FAR_SRBR_STHR * * FIFO access mode enabled */ #define ALT_UART_FAR_SRBR_STHR_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_FAR_SRBR_STHR register field. */ #define ALT_UART_FAR_SRBR_STHR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_FAR_SRBR_STHR register field. */ #define ALT_UART_FAR_SRBR_STHR_MSB 0 /* The width in bits of the ALT_UART_FAR_SRBR_STHR register field. */ #define ALT_UART_FAR_SRBR_STHR_WIDTH 1 /* The mask used to set the ALT_UART_FAR_SRBR_STHR register field value. */ #define ALT_UART_FAR_SRBR_STHR_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_FAR_SRBR_STHR register field value. */ #define ALT_UART_FAR_SRBR_STHR_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_FAR_SRBR_STHR register field. */ #define ALT_UART_FAR_SRBR_STHR_RESET 0x0 /* Extracts the ALT_UART_FAR_SRBR_STHR field value from a register. */ #define ALT_UART_FAR_SRBR_STHR_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_FAR_SRBR_STHR register field value suitable for setting the register. */ #define ALT_UART_FAR_SRBR_STHR_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_FAR. */ struct ALT_UART_FAR_s { uint32_t srbr_sthr : 1; /* FIFO ACCESS Bit */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_FAR. */ typedef volatile struct ALT_UART_FAR_s ALT_UART_FAR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_FAR register from the beginning of the component. */ #define ALT_UART_FAR_OFST 0x70 /* The address of the ALT_UART_FAR register. */ #define ALT_UART_FAR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_FAR_OFST)) /* * Register : Transmit FIFO Read Register - tfr * * Used in FIFO Access test mode. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------- * [7:0] | R | 0x0 | Transmit FIFO Read * [31:8] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Transmit FIFO Read - tfr * * These bits are only valid when FIFO access mode is enabled (FAR[0] is set to * one). When FIFO's are enabled, reading this register gives the data at the top * of the transmit FIFO. Each consecutive read pops the transmit FIFO and gives the * next data value that is currently at the top of the FIFO. When FIFO's are not * enabled, reading this register gives the data in the THR. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_TFR_TFR register field. */ #define ALT_UART_TFR_TFR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_TFR_TFR register field. */ #define ALT_UART_TFR_TFR_MSB 7 /* The width in bits of the ALT_UART_TFR_TFR register field. */ #define ALT_UART_TFR_TFR_WIDTH 8 /* The mask used to set the ALT_UART_TFR_TFR register field value. */ #define ALT_UART_TFR_TFR_SET_MSK 0x000000ff /* The mask used to clear the ALT_UART_TFR_TFR register field value. */ #define ALT_UART_TFR_TFR_CLR_MSK 0xffffff00 /* The reset value of the ALT_UART_TFR_TFR register field. */ #define ALT_UART_TFR_TFR_RESET 0x0 /* Extracts the ALT_UART_TFR_TFR field value from a register. */ #define ALT_UART_TFR_TFR_GET(value) (((value) & 0x000000ff) >> 0) /* Produces a ALT_UART_TFR_TFR register field value suitable for setting the register. */ #define ALT_UART_TFR_TFR_SET(value) (((value) << 0) & 0x000000ff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_TFR. */ struct ALT_UART_TFR_s { const uint32_t tfr : 8; /* Transmit FIFO Read */ uint32_t : 24; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_TFR. */ typedef volatile struct ALT_UART_TFR_s ALT_UART_TFR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_TFR register from the beginning of the component. */ #define ALT_UART_TFR_OFST 0x74 /* The address of the ALT_UART_TFR register. */ #define ALT_UART_TFR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_TFR_OFST)) /* * Register : Receive FIFO Write - RFW * * Used only with FIFO access test mode. * * Register Layout * * Bits | Access | Reset | Description * :--------|:-------|:------|:--------------------------- * [7:0] | W | 0x0 | Receive FIFO Write Field * [8] | W | 0x0 | Receive FIFO Parity Error * [9] | W | 0x0 | Receive FIFO Framing Error * [31:10] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Receive FIFO Write Field - rfwd * * These bits are only valid when FIFO access mode is enabled (FAR[0] is set to * one). When FIFO's are enabled, the data that is written to the RFWD is pushed * into the receive FIFO. Each consecutive write pushes the new data to the next * write location in the receive FIFO. When FIFO's are not enabled, the data that * is written to the RFWD is pushed into the RBR. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_RFW_RFWD register field. */ #define ALT_UART_RFW_RFWD_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_RFW_RFWD register field. */ #define ALT_UART_RFW_RFWD_MSB 7 /* The width in bits of the ALT_UART_RFW_RFWD register field. */ #define ALT_UART_RFW_RFWD_WIDTH 8 /* The mask used to set the ALT_UART_RFW_RFWD register field value. */ #define ALT_UART_RFW_RFWD_SET_MSK 0x000000ff /* The mask used to clear the ALT_UART_RFW_RFWD register field value. */ #define ALT_UART_RFW_RFWD_CLR_MSK 0xffffff00 /* The reset value of the ALT_UART_RFW_RFWD register field. */ #define ALT_UART_RFW_RFWD_RESET 0x0 /* Extracts the ALT_UART_RFW_RFWD field value from a register. */ #define ALT_UART_RFW_RFWD_GET(value) (((value) & 0x000000ff) >> 0) /* Produces a ALT_UART_RFW_RFWD register field value suitable for setting the register. */ #define ALT_UART_RFW_RFWD_SET(value) (((value) << 0) & 0x000000ff) /* * Field : Receive FIFO Parity Error - rfpe * * These bits are only valid when FIFO access mode is enabled (FAR[0] is set to * one). When FIFO's are enabled, this bit is used to write parity error detection * information to the receive FIFO. When FIFO's are not enabled, this bit is used * to write parity error detection information to the RBR. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_RFW_RFPE register field. */ #define ALT_UART_RFW_RFPE_LSB 8 /* The Most Significant Bit (MSB) position of the ALT_UART_RFW_RFPE register field. */ #define ALT_UART_RFW_RFPE_MSB 8 /* The width in bits of the ALT_UART_RFW_RFPE register field. */ #define ALT_UART_RFW_RFPE_WIDTH 1 /* The mask used to set the ALT_UART_RFW_RFPE register field value. */ #define ALT_UART_RFW_RFPE_SET_MSK 0x00000100 /* The mask used to clear the ALT_UART_RFW_RFPE register field value. */ #define ALT_UART_RFW_RFPE_CLR_MSK 0xfffffeff /* The reset value of the ALT_UART_RFW_RFPE register field. */ #define ALT_UART_RFW_RFPE_RESET 0x0 /* Extracts the ALT_UART_RFW_RFPE field value from a register. */ #define ALT_UART_RFW_RFPE_GET(value) (((value) & 0x00000100) >> 8) /* Produces a ALT_UART_RFW_RFPE register field value suitable for setting the register. */ #define ALT_UART_RFW_RFPE_SET(value) (((value) << 8) & 0x00000100) /* * Field : Receive FIFO Framing Error - RFFE * * These bits are only valid when FIFO access mode is enabled (FAR[0] is set to * one). When FIFO's are enabled, this bit is used to write framing error detection * information to the receive FIFO. When FIFO's are not enabled, this bit is used * to write framing error detection information to the RBR. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_RFW_RFFE register field. */ #define ALT_UART_RFW_RFFE_LSB 9 /* The Most Significant Bit (MSB) position of the ALT_UART_RFW_RFFE register field. */ #define ALT_UART_RFW_RFFE_MSB 9 /* The width in bits of the ALT_UART_RFW_RFFE register field. */ #define ALT_UART_RFW_RFFE_WIDTH 1 /* The mask used to set the ALT_UART_RFW_RFFE register field value. */ #define ALT_UART_RFW_RFFE_SET_MSK 0x00000200 /* The mask used to clear the ALT_UART_RFW_RFFE register field value. */ #define ALT_UART_RFW_RFFE_CLR_MSK 0xfffffdff /* The reset value of the ALT_UART_RFW_RFFE register field. */ #define ALT_UART_RFW_RFFE_RESET 0x0 /* Extracts the ALT_UART_RFW_RFFE field value from a register. */ #define ALT_UART_RFW_RFFE_GET(value) (((value) & 0x00000200) >> 9) /* Produces a ALT_UART_RFW_RFFE register field value suitable for setting the register. */ #define ALT_UART_RFW_RFFE_SET(value) (((value) << 9) & 0x00000200) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_RFW. */ struct ALT_UART_RFW_s { uint32_t rfwd : 8; /* Receive FIFO Write Field */ uint32_t rfpe : 1; /* Receive FIFO Parity Error */ uint32_t RFFE : 1; /* Receive FIFO Framing Error */ uint32_t : 22; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_RFW. */ typedef volatile struct ALT_UART_RFW_s ALT_UART_RFW_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_RFW register from the beginning of the component. */ #define ALT_UART_RFW_OFST 0x78 /* The address of the ALT_UART_RFW register. */ #define ALT_UART_RFW_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_RFW_OFST)) /* * Register : UART Status Register - usr * * Status of FIFO Operations. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:----------------------- * [0] | ??? | 0x0 | *UNDEFINED* * [1] | R | 0x1 | Transmit FIFO Not Full * [2] | R | 0x1 | Transmit FIFO Empty * [3] | R | 0x0 | Receive FIFO Not Empty * [4] | R | 0x0 | Receive FIFO Full * [31:5] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Transmit FIFO Not Full - tfnf * * This Bit is used to indicate that the transmit FIFO in not full. This bit is * cleared when the Tx FIFO is full. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:-------------------------- * ALT_UART_USR_TFNF_E_FULL | 0x0 | Transmit FIFO is full * ALT_UART_USR_TFNF_E_NOTFULL | 0x1 | Transmit FIFO is not full * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_USR_TFNF * * Transmit FIFO is full */ #define ALT_UART_USR_TFNF_E_FULL 0x0 /* * Enumerated value for register field ALT_UART_USR_TFNF * * Transmit FIFO is not full */ #define ALT_UART_USR_TFNF_E_NOTFULL 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_USR_TFNF register field. */ #define ALT_UART_USR_TFNF_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_USR_TFNF register field. */ #define ALT_UART_USR_TFNF_MSB 1 /* The width in bits of the ALT_UART_USR_TFNF register field. */ #define ALT_UART_USR_TFNF_WIDTH 1 /* The mask used to set the ALT_UART_USR_TFNF register field value. */ #define ALT_UART_USR_TFNF_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_USR_TFNF register field value. */ #define ALT_UART_USR_TFNF_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_USR_TFNF register field. */ #define ALT_UART_USR_TFNF_RESET 0x1 /* Extracts the ALT_UART_USR_TFNF field value from a register. */ #define ALT_UART_USR_TFNF_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_USR_TFNF register field value suitable for setting the register. */ #define ALT_UART_USR_TFNF_SET(value) (((value) << 1) & 0x00000002) /* * Field : Transmit FIFO Empty - tfe * * This is used to indicate that the transmit FIFO is completely empty. This bit is * cleared when the Tx FIFO is no longer empty. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:--------------------------- * ALT_UART_USR_TFE_E_NOTEMPTY | 0x0 | Transmit FIFO is not empty * ALT_UART_USR_TFE_E_EMPTY | 0x1 | Transmit FIFO is empty * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_USR_TFE * * Transmit FIFO is not empty */ #define ALT_UART_USR_TFE_E_NOTEMPTY 0x0 /* * Enumerated value for register field ALT_UART_USR_TFE * * Transmit FIFO is empty */ #define ALT_UART_USR_TFE_E_EMPTY 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_USR_TFE register field. */ #define ALT_UART_USR_TFE_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_USR_TFE register field. */ #define ALT_UART_USR_TFE_MSB 2 /* The width in bits of the ALT_UART_USR_TFE register field. */ #define ALT_UART_USR_TFE_WIDTH 1 /* The mask used to set the ALT_UART_USR_TFE register field value. */ #define ALT_UART_USR_TFE_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_USR_TFE register field value. */ #define ALT_UART_USR_TFE_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_USR_TFE register field. */ #define ALT_UART_USR_TFE_RESET 0x1 /* Extracts the ALT_UART_USR_TFE field value from a register. */ #define ALT_UART_USR_TFE_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_USR_TFE register field value suitable for setting the register. */ #define ALT_UART_USR_TFE_SET(value) (((value) << 2) & 0x00000004) /* * Field : Receive FIFO Not Empty - rfne * * This Bit is used to indicate that the receive FIFO contains one or more entries. * This bit is cleared when the Rx FIFO is empty. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------|:------|:-------------------------- * ALT_UART_USR_RFNE_E_EMPTY | 0x0 | Receiive FIFO is empty * ALT_UART_USR_RFNE_E_NOTEMPTY | 0x1 | Receive FIFO is not empty * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_USR_RFNE * * Receiive FIFO is empty */ #define ALT_UART_USR_RFNE_E_EMPTY 0x0 /* * Enumerated value for register field ALT_UART_USR_RFNE * * Receive FIFO is not empty */ #define ALT_UART_USR_RFNE_E_NOTEMPTY 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_USR_RFNE register field. */ #define ALT_UART_USR_RFNE_LSB 3 /* The Most Significant Bit (MSB) position of the ALT_UART_USR_RFNE register field. */ #define ALT_UART_USR_RFNE_MSB 3 /* The width in bits of the ALT_UART_USR_RFNE register field. */ #define ALT_UART_USR_RFNE_WIDTH 1 /* The mask used to set the ALT_UART_USR_RFNE register field value. */ #define ALT_UART_USR_RFNE_SET_MSK 0x00000008 /* The mask used to clear the ALT_UART_USR_RFNE register field value. */ #define ALT_UART_USR_RFNE_CLR_MSK 0xfffffff7 /* The reset value of the ALT_UART_USR_RFNE register field. */ #define ALT_UART_USR_RFNE_RESET 0x0 /* Extracts the ALT_UART_USR_RFNE field value from a register. */ #define ALT_UART_USR_RFNE_GET(value) (((value) & 0x00000008) >> 3) /* Produces a ALT_UART_USR_RFNE register field value suitable for setting the register. */ #define ALT_UART_USR_RFNE_SET(value) (((value) << 3) & 0x00000008) /* * Field : Receive FIFO Full - rff * * This Bit is used to indicate that the receive FIFO is completely full. This bit * is cleared when the Rx FIFO is no longer full. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------|:------|:----------------------- * ALT_UART_USR_RFF_E_NOTFULL | 0x0 | Receiive FIFO not full * ALT_UART_USR_RFF_E_FULL | 0x1 | Transmit FIFO is full * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_USR_RFF * * Receiive FIFO not full */ #define ALT_UART_USR_RFF_E_NOTFULL 0x0 /* * Enumerated value for register field ALT_UART_USR_RFF * * Transmit FIFO is full */ #define ALT_UART_USR_RFF_E_FULL 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_USR_RFF register field. */ #define ALT_UART_USR_RFF_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_USR_RFF register field. */ #define ALT_UART_USR_RFF_MSB 4 /* The width in bits of the ALT_UART_USR_RFF register field. */ #define ALT_UART_USR_RFF_WIDTH 1 /* The mask used to set the ALT_UART_USR_RFF register field value. */ #define ALT_UART_USR_RFF_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_USR_RFF register field value. */ #define ALT_UART_USR_RFF_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_USR_RFF register field. */ #define ALT_UART_USR_RFF_RESET 0x0 /* Extracts the ALT_UART_USR_RFF field value from a register. */ #define ALT_UART_USR_RFF_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_USR_RFF register field value suitable for setting the register. */ #define ALT_UART_USR_RFF_SET(value) (((value) << 4) & 0x00000010) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_USR. */ struct ALT_UART_USR_s { uint32_t : 1; /* *UNDEFINED* */ const uint32_t tfnf : 1; /* Transmit FIFO Not Full */ const uint32_t tfe : 1; /* Transmit FIFO Empty */ const uint32_t rfne : 1; /* Receive FIFO Not Empty */ const uint32_t rff : 1; /* Receive FIFO Full */ uint32_t : 27; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_USR. */ typedef volatile struct ALT_UART_USR_s ALT_UART_USR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_USR register from the beginning of the component. */ #define ALT_UART_USR_OFST 0x7c /* The address of the ALT_UART_USR register. */ #define ALT_UART_USR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_USR_OFST)) /* * Register : Transmit FIFO Level - tfl * * This register is used to specify the number of data entries in the Tx FIFO. * Status Bits in USR register monitor the FIFO state. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:-------------------- * [4:0] | R | 0x0 | Transmit FIFO Level * [31:5] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Transmit FIFO Level - tfl * * This indicates the number of data entries in the transmit FIFO. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_TFL_TFL register field. */ #define ALT_UART_TFL_TFL_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_TFL_TFL register field. */ #define ALT_UART_TFL_TFL_MSB 4 /* The width in bits of the ALT_UART_TFL_TFL register field. */ #define ALT_UART_TFL_TFL_WIDTH 5 /* The mask used to set the ALT_UART_TFL_TFL register field value. */ #define ALT_UART_TFL_TFL_SET_MSK 0x0000001f /* The mask used to clear the ALT_UART_TFL_TFL register field value. */ #define ALT_UART_TFL_TFL_CLR_MSK 0xffffffe0 /* The reset value of the ALT_UART_TFL_TFL register field. */ #define ALT_UART_TFL_TFL_RESET 0x0 /* Extracts the ALT_UART_TFL_TFL field value from a register. */ #define ALT_UART_TFL_TFL_GET(value) (((value) & 0x0000001f) >> 0) /* Produces a ALT_UART_TFL_TFL register field value suitable for setting the register. */ #define ALT_UART_TFL_TFL_SET(value) (((value) << 0) & 0x0000001f) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_TFL. */ struct ALT_UART_TFL_s { const uint32_t tfl : 5; /* Transmit FIFO Level */ uint32_t : 27; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_TFL. */ typedef volatile struct ALT_UART_TFL_s ALT_UART_TFL_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_TFL register from the beginning of the component. */ #define ALT_UART_TFL_OFST 0x80 /* The address of the ALT_UART_TFL register. */ #define ALT_UART_TFL_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_TFL_OFST)) /* * Register : Receive FIFO Level Write - rfl * * This register is used to specify the number of data entries in the Tx FIFO. * Status Bits in USR register monitor the FIFO state. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:-------------------------- * [4:0] | R | 0x0 | Receive FIFO Level Status * [31:5] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Receive FIFO Level Status - rfl * * This indicates the number of data entries in the receive FIFO. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_RFL_RFL register field. */ #define ALT_UART_RFL_RFL_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_RFL_RFL register field. */ #define ALT_UART_RFL_RFL_MSB 4 /* The width in bits of the ALT_UART_RFL_RFL register field. */ #define ALT_UART_RFL_RFL_WIDTH 5 /* The mask used to set the ALT_UART_RFL_RFL register field value. */ #define ALT_UART_RFL_RFL_SET_MSK 0x0000001f /* The mask used to clear the ALT_UART_RFL_RFL register field value. */ #define ALT_UART_RFL_RFL_CLR_MSK 0xffffffe0 /* The reset value of the ALT_UART_RFL_RFL register field. */ #define ALT_UART_RFL_RFL_RESET 0x0 /* Extracts the ALT_UART_RFL_RFL field value from a register. */ #define ALT_UART_RFL_RFL_GET(value) (((value) & 0x0000001f) >> 0) /* Produces a ALT_UART_RFL_RFL register field value suitable for setting the register. */ #define ALT_UART_RFL_RFL_SET(value) (((value) << 0) & 0x0000001f) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_RFL. */ struct ALT_UART_RFL_s { const uint32_t rfl : 5; /* Receive FIFO Level Status */ uint32_t : 27; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_RFL. */ typedef volatile struct ALT_UART_RFL_s ALT_UART_RFL_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_RFL register from the beginning of the component. */ #define ALT_UART_RFL_OFST 0x84 /* The address of the ALT_UART_RFL register. */ #define ALT_UART_RFL_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_RFL_OFST)) /* * Register : Software Reset Register - srr * * Provides Software Resets for Tx/Rx FIFO's and the uart. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:-------------- * [0] | W | 0x0 | UART Reset * [1] | W | 0x0 | Rx FIFO Reset * [2] | W | 0x0 | Tx FIFO Reset * [31:3] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : UART Reset - ur * * This asynchronously resets the UART and synchronously removes the reset * assertion. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------|:------|:-------------- * ALT_UART_SRR_UR_E_NORST | 0x0 | No reset Uart * ALT_UART_SRR_UR_E_RST | 0x1 | Reset Uart * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SRR_UR * * No reset Uart */ #define ALT_UART_SRR_UR_E_NORST 0x0 /* * Enumerated value for register field ALT_UART_SRR_UR * * Reset Uart */ #define ALT_UART_SRR_UR_E_RST 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_SRR_UR register field. */ #define ALT_UART_SRR_UR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SRR_UR register field. */ #define ALT_UART_SRR_UR_MSB 0 /* The width in bits of the ALT_UART_SRR_UR register field. */ #define ALT_UART_SRR_UR_WIDTH 1 /* The mask used to set the ALT_UART_SRR_UR register field value. */ #define ALT_UART_SRR_UR_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_SRR_UR register field value. */ #define ALT_UART_SRR_UR_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_SRR_UR register field. */ #define ALT_UART_SRR_UR_RESET 0x0 /* Extracts the ALT_UART_SRR_UR field value from a register. */ #define ALT_UART_SRR_UR_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_SRR_UR register field value suitable for setting the register. */ #define ALT_UART_SRR_UR_SET(value) (((value) << 0) & 0x00000001) /* * Field : Rx FIFO Reset - rfr * * This is a shadow register for the Rx FIFO Reset bit (FCR[1]). This can be used * to remove the burden on software having to store previously written FCR values * (which are pretty static) just to reset the receive FIFO. This resets the * control portion of the receive FIFO and treats the FIFO as empty. This will also * de-assert the DMA Rx request and single signals. Note that this bit is 'self- * clearing' and it is not necessary to clear this bit. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------|:------|:----------------- * ALT_UART_SRR_RFR_E_NORST | 0x0 | No reset Rx FIFO * ALT_UART_SRR_RFR_E_RST | 0x1 | Reset Rx FIFO * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SRR_RFR * * No reset Rx FIFO */ #define ALT_UART_SRR_RFR_E_NORST 0x0 /* * Enumerated value for register field ALT_UART_SRR_RFR * * Reset Rx FIFO */ #define ALT_UART_SRR_RFR_E_RST 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_SRR_RFR register field. */ #define ALT_UART_SRR_RFR_LSB 1 /* The Most Significant Bit (MSB) position of the ALT_UART_SRR_RFR register field. */ #define ALT_UART_SRR_RFR_MSB 1 /* The width in bits of the ALT_UART_SRR_RFR register field. */ #define ALT_UART_SRR_RFR_WIDTH 1 /* The mask used to set the ALT_UART_SRR_RFR register field value. */ #define ALT_UART_SRR_RFR_SET_MSK 0x00000002 /* The mask used to clear the ALT_UART_SRR_RFR register field value. */ #define ALT_UART_SRR_RFR_CLR_MSK 0xfffffffd /* The reset value of the ALT_UART_SRR_RFR register field. */ #define ALT_UART_SRR_RFR_RESET 0x0 /* Extracts the ALT_UART_SRR_RFR field value from a register. */ #define ALT_UART_SRR_RFR_GET(value) (((value) & 0x00000002) >> 1) /* Produces a ALT_UART_SRR_RFR register field value suitable for setting the register. */ #define ALT_UART_SRR_RFR_SET(value) (((value) << 1) & 0x00000002) /* * Field : Tx FIFO Reset - xfr * * This is a shadow register forthe Tx FIFO Reset bit (FCR[2]). This can be used * to remove the burden on software having to store previously written FCR values * (which are pretty static) just to reset the transmit FIFO.This resets the * control portion of the transmit FIFO and treats the FIFO as empty. This will * also de-assert the DMA Tx request and single signals. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------|:------|:----------------- * ALT_UART_SRR_XFR_E_NORST | 0x0 | No reset Tx FIFO * ALT_UART_SRR_XFR_E_RST | 0x1 | Reset Tx FIFO * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SRR_XFR * * No reset Tx FIFO */ #define ALT_UART_SRR_XFR_E_NORST 0x0 /* * Enumerated value for register field ALT_UART_SRR_XFR * * Reset Tx FIFO */ #define ALT_UART_SRR_XFR_E_RST 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_SRR_XFR register field. */ #define ALT_UART_SRR_XFR_LSB 2 /* The Most Significant Bit (MSB) position of the ALT_UART_SRR_XFR register field. */ #define ALT_UART_SRR_XFR_MSB 2 /* The width in bits of the ALT_UART_SRR_XFR register field. */ #define ALT_UART_SRR_XFR_WIDTH 1 /* The mask used to set the ALT_UART_SRR_XFR register field value. */ #define ALT_UART_SRR_XFR_SET_MSK 0x00000004 /* The mask used to clear the ALT_UART_SRR_XFR register field value. */ #define ALT_UART_SRR_XFR_CLR_MSK 0xfffffffb /* The reset value of the ALT_UART_SRR_XFR register field. */ #define ALT_UART_SRR_XFR_RESET 0x0 /* Extracts the ALT_UART_SRR_XFR field value from a register. */ #define ALT_UART_SRR_XFR_GET(value) (((value) & 0x00000004) >> 2) /* Produces a ALT_UART_SRR_XFR register field value suitable for setting the register. */ #define ALT_UART_SRR_XFR_SET(value) (((value) << 2) & 0x00000004) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SRR. */ struct ALT_UART_SRR_s { uint32_t ur : 1; /* UART Reset */ uint32_t rfr : 1; /* Rx FIFO Reset */ uint32_t xfr : 1; /* Tx FIFO Reset */ uint32_t : 29; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SRR. */ typedef volatile struct ALT_UART_SRR_s ALT_UART_SRR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SRR register from the beginning of the component. */ #define ALT_UART_SRR_OFST 0x88 /* The address of the ALT_UART_SRR register. */ #define ALT_UART_SRR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SRR_OFST)) /* * Register : Shadow Request to Send - srts * * This is a shadow register for the RTS status (MCR[1]), this can be used to * remove the burden of having to performing a read modify write on the MCR. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:----------------------- * [0] | RW | 0x0 | Shadow Request to Send * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow Request to Send - srts * * This is used to directly control the Request to Send (uart_rts_n) output. The * Request to Send (uart_rts_n) output is used to inform the modem or data set that * the UART is read to exchange data. The uart_rts_n signal is set low by * programming MCR[1] (RTS) to a high. In Auto Flow Control, (MCR[5] set to one) * and FIFO's are enabled (FCR[0] set to one), the uart_rts_n output is controlled * in the same way, but is also gated with the receiver FIFO threshold trigger * (uart_rts_n is inactive high when above the threshold). * * Note that in Loopback mode (MCR[4] set to one), the uart_rts_n output is held * inactive high while the value of this location is internally looped back to an * input. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:------------------ * ALT_UART_SRTS_SRTS_E_LOGIC0 | 0x1 | uart_rts_n logic0 * ALT_UART_SRTS_SRTS_E_LOGIC1 | 0x0 | uart_rts_n logic1 * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SRTS_SRTS * * uart_rts_n logic0 */ #define ALT_UART_SRTS_SRTS_E_LOGIC0 0x1 /* * Enumerated value for register field ALT_UART_SRTS_SRTS * * uart_rts_n logic1 */ #define ALT_UART_SRTS_SRTS_E_LOGIC1 0x0 /* The Least Significant Bit (LSB) position of the ALT_UART_SRTS_SRTS register field. */ #define ALT_UART_SRTS_SRTS_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SRTS_SRTS register field. */ #define ALT_UART_SRTS_SRTS_MSB 0 /* The width in bits of the ALT_UART_SRTS_SRTS register field. */ #define ALT_UART_SRTS_SRTS_WIDTH 1 /* The mask used to set the ALT_UART_SRTS_SRTS register field value. */ #define ALT_UART_SRTS_SRTS_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_SRTS_SRTS register field value. */ #define ALT_UART_SRTS_SRTS_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_SRTS_SRTS register field. */ #define ALT_UART_SRTS_SRTS_RESET 0x0 /* Extracts the ALT_UART_SRTS_SRTS field value from a register. */ #define ALT_UART_SRTS_SRTS_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_SRTS_SRTS register field value suitable for setting the register. */ #define ALT_UART_SRTS_SRTS_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SRTS. */ struct ALT_UART_SRTS_s { uint32_t srts : 1; /* Shadow Request to Send */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SRTS. */ typedef volatile struct ALT_UART_SRTS_s ALT_UART_SRTS_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SRTS register from the beginning of the component. */ #define ALT_UART_SRTS_OFST 0x8c /* The address of the ALT_UART_SRTS register. */ #define ALT_UART_SRTS_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SRTS_OFST)) /* * Register : Shadow Break Control Register - sbcr * * This is a shadow register for the Break bit [6] of the register LCR. This can be * used to remove the burden of having to performing a read modify write on the * LCR. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:--------------------- * [0] | RW | 0x0 | Shadow Break Control * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow Break Control - sbcr * * This is used to cause a break condition to be transmitted to the receiving * device. If set to one the serial output is forced to the spacing (logic 0) * state. When not in Loopback Mode, as determined by MCR[4], the uart_txd line is * forced low until the Break bit is cleared. When in Loopback Mode, the break * condition is internally looped back to the receiver. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:---------------------------- * ALT_UART_SBCR_SBCR_E_DISD | 0x0 | no break * ALT_UART_SBCR_SBCR_E_END | 0x1 | break serial output spacing * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SBCR_SBCR * * no break */ #define ALT_UART_SBCR_SBCR_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_SBCR_SBCR * * break serial output spacing */ #define ALT_UART_SBCR_SBCR_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_SBCR_SBCR register field. */ #define ALT_UART_SBCR_SBCR_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SBCR_SBCR register field. */ #define ALT_UART_SBCR_SBCR_MSB 0 /* The width in bits of the ALT_UART_SBCR_SBCR register field. */ #define ALT_UART_SBCR_SBCR_WIDTH 1 /* The mask used to set the ALT_UART_SBCR_SBCR register field value. */ #define ALT_UART_SBCR_SBCR_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_SBCR_SBCR register field value. */ #define ALT_UART_SBCR_SBCR_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_SBCR_SBCR register field. */ #define ALT_UART_SBCR_SBCR_RESET 0x0 /* Extracts the ALT_UART_SBCR_SBCR field value from a register. */ #define ALT_UART_SBCR_SBCR_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_SBCR_SBCR register field value suitable for setting the register. */ #define ALT_UART_SBCR_SBCR_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SBCR. */ struct ALT_UART_SBCR_s { uint32_t sbcr : 1; /* Shadow Break Control */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SBCR. */ typedef volatile struct ALT_UART_SBCR_s ALT_UART_SBCR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SBCR register from the beginning of the component. */ #define ALT_UART_SBCR_OFST 0x90 /* The address of the ALT_UART_SBCR register. */ #define ALT_UART_SBCR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SBCR_OFST)) /* * Register : Shadow DMA Mode - sdmam * * This is a shadow register for the DMA mode bit (FCR[3]). * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:---------------- * [0] | RW | 0x0 | Shadow DMA Mode * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow DMA Mode - sdmam * * This can be used to remove the burden of having to store the previously written * value to the FCR in memory and having to mask this value so that only the DMA * Mode bit gets updated. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------------|:------|:--------------------------- * ALT_UART_SDMAM_SDMAM_E_SINGLE | 0x0 | Single DMA Transfer Mode * ALT_UART_SDMAM_SDMAM_E_MULT | 0x1 | Multiple DMA Transfer Mode * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SDMAM_SDMAM * * Single DMA Transfer Mode */ #define ALT_UART_SDMAM_SDMAM_E_SINGLE 0x0 /* * Enumerated value for register field ALT_UART_SDMAM_SDMAM * * Multiple DMA Transfer Mode */ #define ALT_UART_SDMAM_SDMAM_E_MULT 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_SDMAM_SDMAM register field. */ #define ALT_UART_SDMAM_SDMAM_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SDMAM_SDMAM register field. */ #define ALT_UART_SDMAM_SDMAM_MSB 0 /* The width in bits of the ALT_UART_SDMAM_SDMAM register field. */ #define ALT_UART_SDMAM_SDMAM_WIDTH 1 /* The mask used to set the ALT_UART_SDMAM_SDMAM register field value. */ #define ALT_UART_SDMAM_SDMAM_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_SDMAM_SDMAM register field value. */ #define ALT_UART_SDMAM_SDMAM_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_SDMAM_SDMAM register field. */ #define ALT_UART_SDMAM_SDMAM_RESET 0x0 /* Extracts the ALT_UART_SDMAM_SDMAM field value from a register. */ #define ALT_UART_SDMAM_SDMAM_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_SDMAM_SDMAM register field value suitable for setting the register. */ #define ALT_UART_SDMAM_SDMAM_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SDMAM. */ struct ALT_UART_SDMAM_s { uint32_t sdmam : 1; /* Shadow DMA Mode */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SDMAM. */ typedef volatile struct ALT_UART_SDMAM_s ALT_UART_SDMAM_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SDMAM register from the beginning of the component. */ #define ALT_UART_SDMAM_OFST 0x94 /* The address of the ALT_UART_SDMAM register. */ #define ALT_UART_SDMAM_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SDMAM_OFST)) /* * Register : Shadow FIFO Enable - sfe * * This is a shadow register for the FIFO enable bit [0] of register FCR. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------- * [0] | RW | 0x0 | Shadow FIFO Enable * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow FIFO Enable - sfe * * This can be used to remove the burden of having to store the previously written * value to the FCR in memory and having to mask this value so that only the FIFO * enable bit gets updated. This enables/disables the transmit (Tx) and receive (Rx * ) FIFO's. If this bit is set to zero (disabled) after being enabled then both * the Tx and Rx controller portion of FIFO's will be reset. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------|:------|:-------------- * ALT_UART_SFE_SFE_E_DISD | 0x0 | Disable Rx/Tx * ALT_UART_SFE_SFE_E_END | 0x1 | Enable Rx/Tx * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SFE_SFE * * Disable Rx/Tx */ #define ALT_UART_SFE_SFE_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_SFE_SFE * * Enable Rx/Tx */ #define ALT_UART_SFE_SFE_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_SFE_SFE register field. */ #define ALT_UART_SFE_SFE_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SFE_SFE register field. */ #define ALT_UART_SFE_SFE_MSB 0 /* The width in bits of the ALT_UART_SFE_SFE register field. */ #define ALT_UART_SFE_SFE_WIDTH 1 /* The mask used to set the ALT_UART_SFE_SFE register field value. */ #define ALT_UART_SFE_SFE_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_SFE_SFE register field value. */ #define ALT_UART_SFE_SFE_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_SFE_SFE register field. */ #define ALT_UART_SFE_SFE_RESET 0x0 /* Extracts the ALT_UART_SFE_SFE field value from a register. */ #define ALT_UART_SFE_SFE_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_SFE_SFE register field value suitable for setting the register. */ #define ALT_UART_SFE_SFE_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SFE. */ struct ALT_UART_SFE_s { uint32_t sfe : 1; /* Shadow FIFO Enable */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SFE. */ typedef volatile struct ALT_UART_SFE_s ALT_UART_SFE_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SFE register from the beginning of the component. */ #define ALT_UART_SFE_OFST 0x98 /* The address of the ALT_UART_SFE register. */ #define ALT_UART_SFE_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SFE_OFST)) /* * Register : Shadow Rx Trigger - srt * * This is a shadow register for the Rx trigger bits (FCR[7:6]). * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------------ * [1:0] | RW | 0x0 | Shadow Rx Trigger Bits * [31:2] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow Rx Trigger Bits - srt * * This can be used to remove the burden of having to store the previously written * value to the FCR in memory and having to mask this value so that only the Rx * trigger bit gets updated. This is used to select the trigger level in the * receiver FIFO at which the Received Data Available Interrupt will be generated. * It also determines when the uart_dma_rx_req_n signal will be asserted when DMA * Mode (FCR[3]) is set to one. The enum below shows trigger levels that are * supported. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------------|:------|:---------------------- * ALT_UART_SRT_SRT_E_ONECHAR | 0x0 | one character in fifo * ALT_UART_SRT_SRT_E_QUARTERFULL | 0x1 | FIFO 1/4 full * ALT_UART_SRT_SRT_E_HALFFULL | 0x2 | FIFO 1/2 full * ALT_UART_SRT_SRT_E_FULLLESS2 | 0x3 | FIFO 2 less than full * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_SRT_SRT * * one character in fifo */ #define ALT_UART_SRT_SRT_E_ONECHAR 0x0 /* * Enumerated value for register field ALT_UART_SRT_SRT * * FIFO 1/4 full */ #define ALT_UART_SRT_SRT_E_QUARTERFULL 0x1 /* * Enumerated value for register field ALT_UART_SRT_SRT * * FIFO 1/2 full */ #define ALT_UART_SRT_SRT_E_HALFFULL 0x2 /* * Enumerated value for register field ALT_UART_SRT_SRT * * FIFO 2 less than full */ #define ALT_UART_SRT_SRT_E_FULLLESS2 0x3 /* The Least Significant Bit (LSB) position of the ALT_UART_SRT_SRT register field. */ #define ALT_UART_SRT_SRT_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_SRT_SRT register field. */ #define ALT_UART_SRT_SRT_MSB 1 /* The width in bits of the ALT_UART_SRT_SRT register field. */ #define ALT_UART_SRT_SRT_WIDTH 2 /* The mask used to set the ALT_UART_SRT_SRT register field value. */ #define ALT_UART_SRT_SRT_SET_MSK 0x00000003 /* The mask used to clear the ALT_UART_SRT_SRT register field value. */ #define ALT_UART_SRT_SRT_CLR_MSK 0xfffffffc /* The reset value of the ALT_UART_SRT_SRT register field. */ #define ALT_UART_SRT_SRT_RESET 0x0 /* Extracts the ALT_UART_SRT_SRT field value from a register. */ #define ALT_UART_SRT_SRT_GET(value) (((value) & 0x00000003) >> 0) /* Produces a ALT_UART_SRT_SRT register field value suitable for setting the register. */ #define ALT_UART_SRT_SRT_SET(value) (((value) << 0) & 0x00000003) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_SRT. */ struct ALT_UART_SRT_s { uint32_t srt : 2; /* Shadow Rx Trigger Bits */ uint32_t : 30; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_SRT. */ typedef volatile struct ALT_UART_SRT_s ALT_UART_SRT_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_SRT register from the beginning of the component. */ #define ALT_UART_SRT_OFST 0x9c /* The address of the ALT_UART_SRT register. */ #define ALT_UART_SRT_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_SRT_OFST)) /* * Register : Shadow Tx Empty Trigger - stet * * This is a shadow register for the Tx empty trigger bits (FCR[5:4]). * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:----------------------------- * [1:0] | RW | 0x0 | Shadow Tx Empty Trigger Bits * [31:2] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Shadow Tx Empty Trigger Bits - stet * * This can be used to remove the burden of having to store the previously written * value to the FCR in memory and having to mask this value so that only the Tx * empty trigger bit gets updated. This is used to select the empty threshold level * at which the THRE Interrupts will be generated when the mode is active. These * threshold levels are also described in. The enum trigger levels are supported. * * Field Enumeration Values: * * Enum | Value | Description * :---------------------------------|:------|:----------------------- * ALT_UART_STET_STET_E_FIFOEMPTY | 0x0 | FIFO empty * ALT_UART_STET_STET_E_TWOCHARS | 0x1 | Two characters in FIFO * ALT_UART_STET_STET_E_QUARTERFULL | 0x2 | FIFO quarter full * ALT_UART_STET_STET_E_HALFFULL | 0x3 | FIFO half full * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_STET_STET * * FIFO empty */ #define ALT_UART_STET_STET_E_FIFOEMPTY 0x0 /* * Enumerated value for register field ALT_UART_STET_STET * * Two characters in FIFO */ #define ALT_UART_STET_STET_E_TWOCHARS 0x1 /* * Enumerated value for register field ALT_UART_STET_STET * * FIFO quarter full */ #define ALT_UART_STET_STET_E_QUARTERFULL 0x2 /* * Enumerated value for register field ALT_UART_STET_STET * * FIFO half full */ #define ALT_UART_STET_STET_E_HALFFULL 0x3 /* The Least Significant Bit (LSB) position of the ALT_UART_STET_STET register field. */ #define ALT_UART_STET_STET_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_STET_STET register field. */ #define ALT_UART_STET_STET_MSB 1 /* The width in bits of the ALT_UART_STET_STET register field. */ #define ALT_UART_STET_STET_WIDTH 2 /* The mask used to set the ALT_UART_STET_STET register field value. */ #define ALT_UART_STET_STET_SET_MSK 0x00000003 /* The mask used to clear the ALT_UART_STET_STET register field value. */ #define ALT_UART_STET_STET_CLR_MSK 0xfffffffc /* The reset value of the ALT_UART_STET_STET register field. */ #define ALT_UART_STET_STET_RESET 0x0 /* Extracts the ALT_UART_STET_STET field value from a register. */ #define ALT_UART_STET_STET_GET(value) (((value) & 0x00000003) >> 0) /* Produces a ALT_UART_STET_STET register field value suitable for setting the register. */ #define ALT_UART_STET_STET_SET(value) (((value) << 0) & 0x00000003) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_STET. */ struct ALT_UART_STET_s { uint32_t stet : 2; /* Shadow Tx Empty Trigger Bits */ uint32_t : 30; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_STET. */ typedef volatile struct ALT_UART_STET_s ALT_UART_STET_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_STET register from the beginning of the component. */ #define ALT_UART_STET_OFST 0xa0 /* The address of the ALT_UART_STET register. */ #define ALT_UART_STET_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_STET_OFST)) /* * Register : Halt Tx - htx * * Used to halt transmission for testing. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------- * [0] | RW | 0x0 | Halt Tx Bits * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : Halt Tx Bits - htx * * This register is use to halt transmissions for testing, so that the transmit * FIFO can be filled by the master when FIFO's are enabled. * * Note, if FIFO's are not enabled, the setting of the halt Tx register will have * no effect on operation. * * Field Enumeration Values: * * Enum | Value | Description * :------------------------|:------|:----------------- * ALT_UART_HTX_HTX_E_DISD | 0x0 | Halt Tx disabled * ALT_UART_HTX_HTX_E_END | 0x1 | Halt Tx enabled * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_HTX_HTX * * Halt Tx disabled */ #define ALT_UART_HTX_HTX_E_DISD 0x0 /* * Enumerated value for register field ALT_UART_HTX_HTX * * Halt Tx enabled */ #define ALT_UART_HTX_HTX_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_HTX_HTX register field. */ #define ALT_UART_HTX_HTX_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_HTX_HTX register field. */ #define ALT_UART_HTX_HTX_MSB 0 /* The width in bits of the ALT_UART_HTX_HTX register field. */ #define ALT_UART_HTX_HTX_WIDTH 1 /* The mask used to set the ALT_UART_HTX_HTX register field value. */ #define ALT_UART_HTX_HTX_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_HTX_HTX register field value. */ #define ALT_UART_HTX_HTX_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_HTX_HTX register field. */ #define ALT_UART_HTX_HTX_RESET 0x0 /* Extracts the ALT_UART_HTX_HTX field value from a register. */ #define ALT_UART_HTX_HTX_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_HTX_HTX register field value suitable for setting the register. */ #define ALT_UART_HTX_HTX_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_HTX. */ struct ALT_UART_HTX_s { uint32_t htx : 1; /* Halt Tx Bits */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_HTX. */ typedef volatile struct ALT_UART_HTX_s ALT_UART_HTX_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_HTX register from the beginning of the component. */ #define ALT_UART_HTX_OFST 0xa4 /* The address of the ALT_UART_HTX register. */ #define ALT_UART_HTX_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_HTX_OFST)) /* * Register : DMA Software Acknowledge - dmasa * * DMA Operation Control * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:------|:------------------------------ * [0] | W | 0x0 | DMA Software Acknowledge Bits * [31:1] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : DMA Software Acknowledge Bits - dmasa * * This register is used to perform DMA software acknowledge if a transfer needs to * be terminated due to an error condition. For example, if the DMA disables the * channel, then the uart should clear its request. This will cause the Tx request, * Tx single, Rx request and Rx single signals to de-assert. Note that this bit is * 'self-clearing' and it is not necessary to clear this bit. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_DMASA_DMASA register field. */ #define ALT_UART_DMASA_DMASA_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_DMASA_DMASA register field. */ #define ALT_UART_DMASA_DMASA_MSB 0 /* The width in bits of the ALT_UART_DMASA_DMASA register field. */ #define ALT_UART_DMASA_DMASA_WIDTH 1 /* The mask used to set the ALT_UART_DMASA_DMASA register field value. */ #define ALT_UART_DMASA_DMASA_SET_MSK 0x00000001 /* The mask used to clear the ALT_UART_DMASA_DMASA register field value. */ #define ALT_UART_DMASA_DMASA_CLR_MSK 0xfffffffe /* The reset value of the ALT_UART_DMASA_DMASA register field. */ #define ALT_UART_DMASA_DMASA_RESET 0x0 /* Extracts the ALT_UART_DMASA_DMASA field value from a register. */ #define ALT_UART_DMASA_DMASA_GET(value) (((value) & 0x00000001) >> 0) /* Produces a ALT_UART_DMASA_DMASA register field value suitable for setting the register. */ #define ALT_UART_DMASA_DMASA_SET(value) (((value) << 0) & 0x00000001) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_DMASA. */ struct ALT_UART_DMASA_s { uint32_t dmasa : 1; /* DMA Software Acknowledge Bits */ uint32_t : 31; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_DMASA. */ typedef volatile struct ALT_UART_DMASA_s ALT_UART_DMASA_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_DMASA register from the beginning of the component. */ #define ALT_UART_DMASA_OFST 0xa8 /* The address of the ALT_UART_DMASA register. */ #define ALT_UART_DMASA_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_DMASA_OFST)) /* * Register : Component Parameter Register - cpr * * Describes various fixed hardware setups states. * * Register Layout * * Bits | Access | Reset | Description * :--------|:-------|:------|:---------------------------------- * [1:0] | R | 0x2 | APB DATA WIDTH * [3:2] | ??? | 0x0 | *UNDEFINED* * [4] | R | 0x1 | Auto Flow Control * [5] | R | 0x1 | THRE MODE * [6] | R | 0x0 | SIR MODE Unsupported * [7] | R | 0x0 | SIR LP MODE Unsupported * [8] | R | 0x1 | ADDITIONAL FEATURES Supported * [9] | R | 0x1 | FIFO ACCESS Supported * [10] | R | 0x1 | FIFO STAT Supported * [11] | R | 0x1 | SHADOW Supported * [12] | R | 0x1 | Configuartion ID Register Present * [13] | R | 0x1 | DMA EXTRA Supported * [15:14] | ??? | 0x0 | *UNDEFINED* * [23:16] | R | 0x37 | FIFO Depth * [31:24] | ??? | 0x0 | *UNDEFINED* * */ /* * Field : APB DATA WIDTH - apbdatawidth * * Fixed to support an ABP data bus width of 32-bits. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------------------|:------|:------------------------- * ALT_UART_CPR_APBDATAWIDTH_E_WIDTH32BITS | 0x2 | APB Data Width = 32-bits * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_APBDATAWIDTH * * APB Data Width = 32-bits */ #define ALT_UART_CPR_APBDATAWIDTH_E_WIDTH32BITS 0x2 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_APBDATAWIDTH register field. */ #define ALT_UART_CPR_APBDATAWIDTH_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_APBDATAWIDTH register field. */ #define ALT_UART_CPR_APBDATAWIDTH_MSB 1 /* The width in bits of the ALT_UART_CPR_APBDATAWIDTH register field. */ #define ALT_UART_CPR_APBDATAWIDTH_WIDTH 2 /* The mask used to set the ALT_UART_CPR_APBDATAWIDTH register field value. */ #define ALT_UART_CPR_APBDATAWIDTH_SET_MSK 0x00000003 /* The mask used to clear the ALT_UART_CPR_APBDATAWIDTH register field value. */ #define ALT_UART_CPR_APBDATAWIDTH_CLR_MSK 0xfffffffc /* The reset value of the ALT_UART_CPR_APBDATAWIDTH register field. */ #define ALT_UART_CPR_APBDATAWIDTH_RESET 0x2 /* Extracts the ALT_UART_CPR_APBDATAWIDTH field value from a register. */ #define ALT_UART_CPR_APBDATAWIDTH_GET(value) (((value) & 0x00000003) >> 0) /* Produces a ALT_UART_CPR_APBDATAWIDTH register field value suitable for setting the register. */ #define ALT_UART_CPR_APBDATAWIDTH_SET(value) (((value) << 0) & 0x00000003) /* * Field : Auto Flow Control - afce_mode * * Allows auto flow control. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:------------ * ALT_UART_CPR_AFCE_MOD_E_END | 0x1 | Auto Flow * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_AFCE_MOD * * Auto Flow */ #define ALT_UART_CPR_AFCE_MOD_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_AFCE_MOD register field. */ #define ALT_UART_CPR_AFCE_MOD_LSB 4 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_AFCE_MOD register field. */ #define ALT_UART_CPR_AFCE_MOD_MSB 4 /* The width in bits of the ALT_UART_CPR_AFCE_MOD register field. */ #define ALT_UART_CPR_AFCE_MOD_WIDTH 1 /* The mask used to set the ALT_UART_CPR_AFCE_MOD register field value. */ #define ALT_UART_CPR_AFCE_MOD_SET_MSK 0x00000010 /* The mask used to clear the ALT_UART_CPR_AFCE_MOD register field value. */ #define ALT_UART_CPR_AFCE_MOD_CLR_MSK 0xffffffef /* The reset value of the ALT_UART_CPR_AFCE_MOD register field. */ #define ALT_UART_CPR_AFCE_MOD_RESET 0x1 /* Extracts the ALT_UART_CPR_AFCE_MOD field value from a register. */ #define ALT_UART_CPR_AFCE_MOD_GET(value) (((value) & 0x00000010) >> 4) /* Produces a ALT_UART_CPR_AFCE_MOD register field value suitable for setting the register. */ #define ALT_UART_CPR_AFCE_MOD_SET(value) (((value) << 4) & 0x00000010) /* * Field : THRE MODE - thre_mode * * Programmable Transmitter Hold Register Empty interrupt * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:------------------------------------------ * ALT_UART_CPR_THRE_MOD_E_END | 0x1 | Programmable Tx Hold Reg. Empty interrupt * : | | present * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_THRE_MOD * * Programmable Tx Hold Reg. Empty interrupt present */ #define ALT_UART_CPR_THRE_MOD_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_THRE_MOD register field. */ #define ALT_UART_CPR_THRE_MOD_LSB 5 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_THRE_MOD register field. */ #define ALT_UART_CPR_THRE_MOD_MSB 5 /* The width in bits of the ALT_UART_CPR_THRE_MOD register field. */ #define ALT_UART_CPR_THRE_MOD_WIDTH 1 /* The mask used to set the ALT_UART_CPR_THRE_MOD register field value. */ #define ALT_UART_CPR_THRE_MOD_SET_MSK 0x00000020 /* The mask used to clear the ALT_UART_CPR_THRE_MOD register field value. */ #define ALT_UART_CPR_THRE_MOD_CLR_MSK 0xffffffdf /* The reset value of the ALT_UART_CPR_THRE_MOD register field. */ #define ALT_UART_CPR_THRE_MOD_RESET 0x1 /* Extracts the ALT_UART_CPR_THRE_MOD field value from a register. */ #define ALT_UART_CPR_THRE_MOD_GET(value) (((value) & 0x00000020) >> 5) /* Produces a ALT_UART_CPR_THRE_MOD register field value suitable for setting the register. */ #define ALT_UART_CPR_THRE_MOD_SET(value) (((value) << 5) & 0x00000020) /* * Field : SIR MODE Unsupported - sir_mode * * Sir mode not used in this application. * * Field Enumeration Values: * * Enum | Value | Description * :----------------------------|:------|:----------------------- * ALT_UART_CPR_SIR_MOD_E_DISD | 0x0 | Sir Mode Not Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_SIR_MOD * * Sir Mode Not Supported */ #define ALT_UART_CPR_SIR_MOD_E_DISD 0x0 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_SIR_MOD register field. */ #define ALT_UART_CPR_SIR_MOD_LSB 6 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_SIR_MOD register field. */ #define ALT_UART_CPR_SIR_MOD_MSB 6 /* The width in bits of the ALT_UART_CPR_SIR_MOD register field. */ #define ALT_UART_CPR_SIR_MOD_WIDTH 1 /* The mask used to set the ALT_UART_CPR_SIR_MOD register field value. */ #define ALT_UART_CPR_SIR_MOD_SET_MSK 0x00000040 /* The mask used to clear the ALT_UART_CPR_SIR_MOD register field value. */ #define ALT_UART_CPR_SIR_MOD_CLR_MSK 0xffffffbf /* The reset value of the ALT_UART_CPR_SIR_MOD register field. */ #define ALT_UART_CPR_SIR_MOD_RESET 0x0 /* Extracts the ALT_UART_CPR_SIR_MOD field value from a register. */ #define ALT_UART_CPR_SIR_MOD_GET(value) (((value) & 0x00000040) >> 6) /* Produces a ALT_UART_CPR_SIR_MOD register field value suitable for setting the register. */ #define ALT_UART_CPR_SIR_MOD_SET(value) (((value) << 6) & 0x00000040) /* * Field : SIR LP MODE Unsupported - sir_lp_mode * * LP Sir Mode not used in this application. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------------|:------|:-------------------------- * ALT_UART_CPR_SIR_LP_MOD_E_DISD | 0x0 | LP Sir Mode Not Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_SIR_LP_MOD * * LP Sir Mode Not Supported */ #define ALT_UART_CPR_SIR_LP_MOD_E_DISD 0x0 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_SIR_LP_MOD register field. */ #define ALT_UART_CPR_SIR_LP_MOD_LSB 7 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_SIR_LP_MOD register field. */ #define ALT_UART_CPR_SIR_LP_MOD_MSB 7 /* The width in bits of the ALT_UART_CPR_SIR_LP_MOD register field. */ #define ALT_UART_CPR_SIR_LP_MOD_WIDTH 1 /* The mask used to set the ALT_UART_CPR_SIR_LP_MOD register field value. */ #define ALT_UART_CPR_SIR_LP_MOD_SET_MSK 0x00000080 /* The mask used to clear the ALT_UART_CPR_SIR_LP_MOD register field value. */ #define ALT_UART_CPR_SIR_LP_MOD_CLR_MSK 0xffffff7f /* The reset value of the ALT_UART_CPR_SIR_LP_MOD register field. */ #define ALT_UART_CPR_SIR_LP_MOD_RESET 0x0 /* Extracts the ALT_UART_CPR_SIR_LP_MOD field value from a register. */ #define ALT_UART_CPR_SIR_LP_MOD_GET(value) (((value) & 0x00000080) >> 7) /* Produces a ALT_UART_CPR_SIR_LP_MOD register field value suitable for setting the register. */ #define ALT_UART_CPR_SIR_LP_MOD_SET(value) (((value) << 7) & 0x00000080) /* * Field : ADDITIONAL FEATURES Supported - additional_feat * * Configures the uart to include fifo status register, shadow registers and * encoded parameter register. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------------|:------|:------------------------------ * ALT_UART_CPR_ADDITIONAL_FEAT_E_END | 0x1 | Additional Features Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_ADDITIONAL_FEAT * * Additional Features Supported */ #define ALT_UART_CPR_ADDITIONAL_FEAT_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_ADDITIONAL_FEAT register field. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_LSB 8 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_ADDITIONAL_FEAT register field. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_MSB 8 /* The width in bits of the ALT_UART_CPR_ADDITIONAL_FEAT register field. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_WIDTH 1 /* The mask used to set the ALT_UART_CPR_ADDITIONAL_FEAT register field value. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_SET_MSK 0x00000100 /* The mask used to clear the ALT_UART_CPR_ADDITIONAL_FEAT register field value. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_CLR_MSK 0xfffffeff /* The reset value of the ALT_UART_CPR_ADDITIONAL_FEAT register field. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_RESET 0x1 /* Extracts the ALT_UART_CPR_ADDITIONAL_FEAT field value from a register. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_GET(value) (((value) & 0x00000100) >> 8) /* Produces a ALT_UART_CPR_ADDITIONAL_FEAT register field value suitable for setting the register. */ #define ALT_UART_CPR_ADDITIONAL_FEAT_SET(value) (((value) << 8) & 0x00000100) /* * Field : FIFO ACCESS Supported - fifo_access * * Configures the peripheral to have a programmable FIFO access mode. This is used * for test purposes, to allow the receiver FIFO to be written and the transmit * FIFO to be read when FIFOs are implemented and enabled. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------------|:------|:---------------------- * ALT_UART_CPR_FIFO_ACCESS_E_END | 0x1 | FIFO Access Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_FIFO_ACCESS * * FIFO Access Supported */ #define ALT_UART_CPR_FIFO_ACCESS_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_FIFO_ACCESS register field. */ #define ALT_UART_CPR_FIFO_ACCESS_LSB 9 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_FIFO_ACCESS register field. */ #define ALT_UART_CPR_FIFO_ACCESS_MSB 9 /* The width in bits of the ALT_UART_CPR_FIFO_ACCESS register field. */ #define ALT_UART_CPR_FIFO_ACCESS_WIDTH 1 /* The mask used to set the ALT_UART_CPR_FIFO_ACCESS register field value. */ #define ALT_UART_CPR_FIFO_ACCESS_SET_MSK 0x00000200 /* The mask used to clear the ALT_UART_CPR_FIFO_ACCESS register field value. */ #define ALT_UART_CPR_FIFO_ACCESS_CLR_MSK 0xfffffdff /* The reset value of the ALT_UART_CPR_FIFO_ACCESS register field. */ #define ALT_UART_CPR_FIFO_ACCESS_RESET 0x1 /* Extracts the ALT_UART_CPR_FIFO_ACCESS field value from a register. */ #define ALT_UART_CPR_FIFO_ACCESS_GET(value) (((value) & 0x00000200) >> 9) /* Produces a ALT_UART_CPR_FIFO_ACCESS register field value suitable for setting the register. */ #define ALT_UART_CPR_FIFO_ACCESS_SET(value) (((value) << 9) & 0x00000200) /* * Field : FIFO STAT Supported - fifo_stat * * Configures the peripheral to have three additional FIFO status registers. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------|:------|:-------------------- * ALT_UART_CPR_FIFO_STAT_E_END | 0x1 | FIFO Stat Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_FIFO_STAT * * FIFO Stat Supported */ #define ALT_UART_CPR_FIFO_STAT_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_FIFO_STAT register field. */ #define ALT_UART_CPR_FIFO_STAT_LSB 10 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_FIFO_STAT register field. */ #define ALT_UART_CPR_FIFO_STAT_MSB 10 /* The width in bits of the ALT_UART_CPR_FIFO_STAT register field. */ #define ALT_UART_CPR_FIFO_STAT_WIDTH 1 /* The mask used to set the ALT_UART_CPR_FIFO_STAT register field value. */ #define ALT_UART_CPR_FIFO_STAT_SET_MSK 0x00000400 /* The mask used to clear the ALT_UART_CPR_FIFO_STAT register field value. */ #define ALT_UART_CPR_FIFO_STAT_CLR_MSK 0xfffffbff /* The reset value of the ALT_UART_CPR_FIFO_STAT register field. */ #define ALT_UART_CPR_FIFO_STAT_RESET 0x1 /* Extracts the ALT_UART_CPR_FIFO_STAT field value from a register. */ #define ALT_UART_CPR_FIFO_STAT_GET(value) (((value) & 0x00000400) >> 10) /* Produces a ALT_UART_CPR_FIFO_STAT register field value suitable for setting the register. */ #define ALT_UART_CPR_FIFO_STAT_SET(value) (((value) << 10) & 0x00000400) /* * Field : SHADOW Supported - shadow * * Configures the peripheral to have seven additional registers that shadow some of * the existing register bits that are regularly modified by software. These can be * used to reduce the software overhead that is introduced by having to perform * read-modify writes. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------|:------|:----------------- * ALT_UART_CPR_SHADOW_E_END | 0x1 | Shadow Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_SHADOW * * Shadow Supported */ #define ALT_UART_CPR_SHADOW_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_SHADOW register field. */ #define ALT_UART_CPR_SHADOW_LSB 11 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_SHADOW register field. */ #define ALT_UART_CPR_SHADOW_MSB 11 /* The width in bits of the ALT_UART_CPR_SHADOW register field. */ #define ALT_UART_CPR_SHADOW_WIDTH 1 /* The mask used to set the ALT_UART_CPR_SHADOW register field value. */ #define ALT_UART_CPR_SHADOW_SET_MSK 0x00000800 /* The mask used to clear the ALT_UART_CPR_SHADOW register field value. */ #define ALT_UART_CPR_SHADOW_CLR_MSK 0xfffff7ff /* The reset value of the ALT_UART_CPR_SHADOW register field. */ #define ALT_UART_CPR_SHADOW_RESET 0x1 /* Extracts the ALT_UART_CPR_SHADOW field value from a register. */ #define ALT_UART_CPR_SHADOW_GET(value) (((value) & 0x00000800) >> 11) /* Produces a ALT_UART_CPR_SHADOW register field value suitable for setting the register. */ #define ALT_UART_CPR_SHADOW_SET(value) (((value) << 11) & 0x00000800) /* * Field : Configuartion ID Register Present - uart_add_encoded_param * * Configures the peripheral to have a configuration identification register. * * Field Enumeration Values: * * Enum | Value | Description * :--------------------------------------|:------|:-------------------- * ALT_UART_CPR_UART_ADD_ENC_PARAM_E_END | 0x1 | ID register present * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_UART_ADD_ENC_PARAM * * ID register present */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_UART_ADD_ENC_PARAM register field. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_LSB 12 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_UART_ADD_ENC_PARAM register field. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_MSB 12 /* The width in bits of the ALT_UART_CPR_UART_ADD_ENC_PARAM register field. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_WIDTH 1 /* The mask used to set the ALT_UART_CPR_UART_ADD_ENC_PARAM register field value. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_SET_MSK 0x00001000 /* The mask used to clear the ALT_UART_CPR_UART_ADD_ENC_PARAM register field value. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_CLR_MSK 0xffffefff /* The reset value of the ALT_UART_CPR_UART_ADD_ENC_PARAM register field. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_RESET 0x1 /* Extracts the ALT_UART_CPR_UART_ADD_ENC_PARAM field value from a register. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_GET(value) (((value) & 0x00001000) >> 12) /* Produces a ALT_UART_CPR_UART_ADD_ENC_PARAM register field value suitable for setting the register. */ #define ALT_UART_CPR_UART_ADD_ENC_PARAM_SET(value) (((value) << 12) & 0x00001000) /* * Field : DMA EXTRA Supported - dma_extra * * Configures the peripheral to have four additional DMA signals on the interface. * * Field Enumeration Values: * * Enum | Value | Description * :-----------------------------|:------|:-------------------- * ALT_UART_CPR_DMA_EXTRA_E_END | 0x1 | DMA Extra Supported * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_DMA_EXTRA * * DMA Extra Supported */ #define ALT_UART_CPR_DMA_EXTRA_E_END 0x1 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_DMA_EXTRA register field. */ #define ALT_UART_CPR_DMA_EXTRA_LSB 13 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_DMA_EXTRA register field. */ #define ALT_UART_CPR_DMA_EXTRA_MSB 13 /* The width in bits of the ALT_UART_CPR_DMA_EXTRA register field. */ #define ALT_UART_CPR_DMA_EXTRA_WIDTH 1 /* The mask used to set the ALT_UART_CPR_DMA_EXTRA register field value. */ #define ALT_UART_CPR_DMA_EXTRA_SET_MSK 0x00002000 /* The mask used to clear the ALT_UART_CPR_DMA_EXTRA register field value. */ #define ALT_UART_CPR_DMA_EXTRA_CLR_MSK 0xffffdfff /* The reset value of the ALT_UART_CPR_DMA_EXTRA register field. */ #define ALT_UART_CPR_DMA_EXTRA_RESET 0x1 /* Extracts the ALT_UART_CPR_DMA_EXTRA field value from a register. */ #define ALT_UART_CPR_DMA_EXTRA_GET(value) (((value) & 0x00002000) >> 13) /* Produces a ALT_UART_CPR_DMA_EXTRA register field value suitable for setting the register. */ #define ALT_UART_CPR_DMA_EXTRA_SET(value) (((value) << 13) & 0x00002000) /* * Field : FIFO Depth - fifo_mode * * Receiver and Transmitter FIFO depth in bytes. * * Field Enumeration Values: * * Enum | Value | Description * :-------------------------------------|:------|:--------------------- * ALT_UART_CPR_FIFO_MOD_E_FIFO128BYTES | 0x80 | FIFO Depth 128 bytes * * Field Access Macros: * */ /* * Enumerated value for register field ALT_UART_CPR_FIFO_MOD * * FIFO Depth 128 bytes */ #define ALT_UART_CPR_FIFO_MOD_E_FIFO128BYTES 0x80 /* The Least Significant Bit (LSB) position of the ALT_UART_CPR_FIFO_MOD register field. */ #define ALT_UART_CPR_FIFO_MOD_LSB 16 /* The Most Significant Bit (MSB) position of the ALT_UART_CPR_FIFO_MOD register field. */ #define ALT_UART_CPR_FIFO_MOD_MSB 23 /* The width in bits of the ALT_UART_CPR_FIFO_MOD register field. */ #define ALT_UART_CPR_FIFO_MOD_WIDTH 8 /* The mask used to set the ALT_UART_CPR_FIFO_MOD register field value. */ #define ALT_UART_CPR_FIFO_MOD_SET_MSK 0x00ff0000 /* The mask used to clear the ALT_UART_CPR_FIFO_MOD register field value. */ #define ALT_UART_CPR_FIFO_MOD_CLR_MSK 0xff00ffff /* The reset value of the ALT_UART_CPR_FIFO_MOD register field. */ #define ALT_UART_CPR_FIFO_MOD_RESET 0x37 /* Extracts the ALT_UART_CPR_FIFO_MOD field value from a register. */ #define ALT_UART_CPR_FIFO_MOD_GET(value) (((value) & 0x00ff0000) >> 16) /* Produces a ALT_UART_CPR_FIFO_MOD register field value suitable for setting the register. */ #define ALT_UART_CPR_FIFO_MOD_SET(value) (((value) << 16) & 0x00ff0000) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_CPR. */ struct ALT_UART_CPR_s { const uint32_t apbdatawidth : 2; /* APB DATA WIDTH */ uint32_t : 2; /* *UNDEFINED* */ const uint32_t afce_mode : 1; /* Auto Flow Control */ const uint32_t thre_mode : 1; /* THRE MODE */ const uint32_t sir_mode : 1; /* SIR MODE Unsupported */ const uint32_t sir_lp_mode : 1; /* SIR LP MODE Unsupported */ const uint32_t additional_feat : 1; /* ADDITIONAL FEATURES Supported */ const uint32_t fifo_access : 1; /* FIFO ACCESS Supported */ const uint32_t fifo_stat : 1; /* FIFO STAT Supported */ const uint32_t shadow : 1; /* SHADOW Supported */ const uint32_t uart_add_encoded_param : 1; /* Configuartion ID Register Present */ const uint32_t dma_extra : 1; /* DMA EXTRA Supported */ uint32_t : 2; /* *UNDEFINED* */ const uint32_t fifo_mode : 8; /* FIFO Depth */ uint32_t : 8; /* *UNDEFINED* */ }; /* The typedef declaration for register ALT_UART_CPR. */ typedef volatile struct ALT_UART_CPR_s ALT_UART_CPR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_CPR register from the beginning of the component. */ #define ALT_UART_CPR_OFST 0xf4 /* The address of the ALT_UART_CPR register. */ #define ALT_UART_CPR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_CPR_OFST)) /* * Register : Component Version - ucv * * Used only with Additional Features * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:-----------|:-------------- * [31:0] | R | 0x3331312a | ASCII version * */ /* * Field : ASCII version - uart_component_version * * ASCII value for each number in the version, followed by *For example 32_30_31_2A * represents the version 2.01a * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_UCV_UART_COMPONENT_VER register field. */ #define ALT_UART_UCV_UART_COMPONENT_VER_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_UCV_UART_COMPONENT_VER register field. */ #define ALT_UART_UCV_UART_COMPONENT_VER_MSB 31 /* The width in bits of the ALT_UART_UCV_UART_COMPONENT_VER register field. */ #define ALT_UART_UCV_UART_COMPONENT_VER_WIDTH 32 /* The mask used to set the ALT_UART_UCV_UART_COMPONENT_VER register field value. */ #define ALT_UART_UCV_UART_COMPONENT_VER_SET_MSK 0xffffffff /* The mask used to clear the ALT_UART_UCV_UART_COMPONENT_VER register field value. */ #define ALT_UART_UCV_UART_COMPONENT_VER_CLR_MSK 0x00000000 /* The reset value of the ALT_UART_UCV_UART_COMPONENT_VER register field. */ #define ALT_UART_UCV_UART_COMPONENT_VER_RESET 0x3331312a /* Extracts the ALT_UART_UCV_UART_COMPONENT_VER field value from a register. */ #define ALT_UART_UCV_UART_COMPONENT_VER_GET(value) (((value) & 0xffffffff) >> 0) /* Produces a ALT_UART_UCV_UART_COMPONENT_VER register field value suitable for setting the register. */ #define ALT_UART_UCV_UART_COMPONENT_VER_SET(value) (((value) << 0) & 0xffffffff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_UCV. */ struct ALT_UART_UCV_s { const uint32_t uart_component_version : 32; /* ASCII version */ }; /* The typedef declaration for register ALT_UART_UCV. */ typedef volatile struct ALT_UART_UCV_s ALT_UART_UCV_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_UCV register from the beginning of the component. */ #define ALT_UART_UCV_OFST 0xf8 /* The address of the ALT_UART_UCV register. */ #define ALT_UART_UCV_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_UCV_OFST)) /* * Register : Component Type Register - ctr * * Describes a hex value associated with the component. * * Register Layout * * Bits | Access | Reset | Description * :-------|:-------|:-----------|:-------------- * [31:0] | R | 0x44570110 | Peripheral ID * */ /* * Field : Peripheral ID - peripheral_id * * This register contains the peripherals identification code. * * Field Access Macros: * */ /* The Least Significant Bit (LSB) position of the ALT_UART_CTR_PERIPHERAL_ID register field. */ #define ALT_UART_CTR_PERIPHERAL_ID_LSB 0 /* The Most Significant Bit (MSB) position of the ALT_UART_CTR_PERIPHERAL_ID register field. */ #define ALT_UART_CTR_PERIPHERAL_ID_MSB 31 /* The width in bits of the ALT_UART_CTR_PERIPHERAL_ID register field. */ #define ALT_UART_CTR_PERIPHERAL_ID_WIDTH 32 /* The mask used to set the ALT_UART_CTR_PERIPHERAL_ID register field value. */ #define ALT_UART_CTR_PERIPHERAL_ID_SET_MSK 0xffffffff /* The mask used to clear the ALT_UART_CTR_PERIPHERAL_ID register field value. */ #define ALT_UART_CTR_PERIPHERAL_ID_CLR_MSK 0x00000000 /* The reset value of the ALT_UART_CTR_PERIPHERAL_ID register field. */ #define ALT_UART_CTR_PERIPHERAL_ID_RESET 0x44570110 /* Extracts the ALT_UART_CTR_PERIPHERAL_ID field value from a register. */ #define ALT_UART_CTR_PERIPHERAL_ID_GET(value) (((value) & 0xffffffff) >> 0) /* Produces a ALT_UART_CTR_PERIPHERAL_ID register field value suitable for setting the register. */ #define ALT_UART_CTR_PERIPHERAL_ID_SET(value) (((value) << 0) & 0xffffffff) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register ALT_UART_CTR. */ struct ALT_UART_CTR_s { const uint32_t peripheral_id : 32; /* Peripheral ID */ }; /* The typedef declaration for register ALT_UART_CTR. */ typedef volatile struct ALT_UART_CTR_s ALT_UART_CTR_t; #endif /* __ASSEMBLY__ */ /* The byte offset of the ALT_UART_CTR register from the beginning of the component. */ #define ALT_UART_CTR_OFST 0xfc /* The address of the ALT_UART_CTR register. */ #define ALT_UART_CTR_ADDR(base) ALT_CAST(void *, (ALT_CAST(char *, (base)) + ALT_UART_CTR_OFST)) #ifndef __ASSEMBLY__ /* * WARNING: The C register and register group struct declarations are provided for * convenience and illustrative purposes. They should, however, be used with * caution as the C language standard provides no guarantees about the alignment or * atomicity of device memory accesses. The recommended practice for writing * hardware drivers is to use the SoCAL access macros and alt_read_word() and * alt_write_word() functions. * * The struct declaration for register group ALT_UART. */ struct ALT_UART_s { volatile ALT_UART_RBR_THR_DLL_t rbr_thr_dll; /* ALT_UART_RBR_THR_DLL */ volatile ALT_UART_IER_DLH_t ier_dlh; /* ALT_UART_IER_DLH */ /* Union for registers colocated at base address offset #0x. */ union { volatile ALT_UART_IIR_t iir; /* ALT_UART_IIR */ volatile ALT_UART_FCR_t fcr; /* ALT_UART_FCR */ } _u_0x8; volatile ALT_UART_LCR_t lcr; /* ALT_UART_LCR */ volatile ALT_UART_MCR_t mcr; /* ALT_UART_MCR */ volatile ALT_UART_LSR_t lsr; /* ALT_UART_LSR */ volatile ALT_UART_MSR_t msr; /* ALT_UART_MSR */ volatile ALT_UART_SCR_t scr; /* ALT_UART_SCR */ volatile uint32_t _pad_0x20_0x2f[4]; /* *UNDEFINED* */ volatile ALT_UART_SRBR_t srbr; /* ALT_UART_SRBR */ volatile ALT_UART_STHR_t sthr; /* ALT_UART_STHR */ volatile uint32_t _pad_0x38_0x6f[14]; /* *UNDEFINED* */ volatile ALT_UART_FAR_t far; /* ALT_UART_FAR */ volatile ALT_UART_TFR_t tfr; /* ALT_UART_TFR */ volatile ALT_UART_RFW_t RFW; /* ALT_UART_RFW */ volatile ALT_UART_USR_t usr; /* ALT_UART_USR */ volatile ALT_UART_TFL_t tfl; /* ALT_UART_TFL */ volatile ALT_UART_RFL_t rfl; /* ALT_UART_RFL */ volatile ALT_UART_SRR_t srr; /* ALT_UART_SRR */ volatile ALT_UART_SRTS_t srts; /* ALT_UART_SRTS */ volatile ALT_UART_SBCR_t sbcr; /* ALT_UART_SBCR */ volatile ALT_UART_SDMAM_t sdmam; /* ALT_UART_SDMAM */ volatile ALT_UART_SFE_t sfe; /* ALT_UART_SFE */ volatile ALT_UART_SRT_t srt; /* ALT_UART_SRT */ volatile ALT_UART_STET_t stet; /* ALT_UART_STET */ volatile ALT_UART_HTX_t htx; /* ALT_UART_HTX */ volatile ALT_UART_DMASA_t dmasa; /* ALT_UART_DMASA */ volatile uint32_t _pad_0xac_0xf3[18]; /* *UNDEFINED* */ volatile ALT_UART_CPR_t cpr; /* ALT_UART_CPR */ volatile ALT_UART_UCV_t ucv; /* ALT_UART_UCV */ volatile ALT_UART_CTR_t ctr; /* ALT_UART_CTR */ }; /* The typedef declaration for register group ALT_UART. */ typedef volatile struct ALT_UART_s ALT_UART_t; /* The struct declaration for the raw register contents of register group ALT_UART. */ struct ALT_UART_raw_s { volatile uint32_t rbr_thr_dll; /* ALT_UART_RBR_THR_DLL */ volatile uint32_t ier_dlh; /* ALT_UART_IER_DLH */ /* Union for registers colocated at base address offset #0x. */ union { volatile uint32_t iir; /* ALT_UART_IIR */ volatile uint32_t fcr; /* ALT_UART_FCR */ } _u_0x8; volatile uint32_t lcr; /* ALT_UART_LCR */ volatile uint32_t mcr; /* ALT_UART_MCR */ volatile uint32_t lsr; /* ALT_UART_LSR */ volatile uint32_t msr; /* ALT_UART_MSR */ volatile uint32_t scr; /* ALT_UART_SCR */ volatile uint32_t _pad_0x20_0x2f[4]; /* *UNDEFINED* */ volatile uint32_t srbr; /* ALT_UART_SRBR */ volatile uint32_t sthr; /* ALT_UART_STHR */ volatile uint32_t _pad_0x38_0x6f[14]; /* *UNDEFINED* */ volatile uint32_t far; /* ALT_UART_FAR */ volatile uint32_t tfr; /* ALT_UART_TFR */ volatile uint32_t RFW; /* ALT_UART_RFW */ volatile uint32_t usr; /* ALT_UART_USR */ volatile uint32_t tfl; /* ALT_UART_TFL */ volatile uint32_t rfl; /* ALT_UART_RFL */ volatile uint32_t srr; /* ALT_UART_SRR */ volatile uint32_t srts; /* ALT_UART_SRTS */ volatile uint32_t sbcr; /* ALT_UART_SBCR */ volatile uint32_t sdmam; /* ALT_UART_SDMAM */ volatile uint32_t sfe; /* ALT_UART_SFE */ volatile uint32_t srt; /* ALT_UART_SRT */ volatile uint32_t stet; /* ALT_UART_STET */ volatile uint32_t htx; /* ALT_UART_HTX */ volatile uint32_t dmasa; /* ALT_UART_DMASA */ volatile uint32_t _pad_0xac_0xf3[18]; /* *UNDEFINED* */ volatile uint32_t cpr; /* ALT_UART_CPR */ volatile uint32_t ucv; /* ALT_UART_UCV */ volatile uint32_t ctr; /* ALT_UART_CTR */ }; /* The typedef declaration for the raw register contents of register group ALT_UART. */ typedef volatile struct ALT_UART_raw_s ALT_UART_raw_t; #endif /* __ASSEMBLY__ */ #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* __ALTERA_ALT_UART_H__ */