// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT /* * Copyright (c) 2022 Raspberry Pi (Trading) Ltd. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _HARDWARE_STRUCTS_DMA_H #define _HARDWARE_STRUCTS_DMA_H #include "hardware/address_mapped.h" #include "hardware/regs/dma.h" // Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_dma // // The _REG_ macro is intended to help make the register navigable in your IDE (for example, using the "Go to Definition" feature) // _REG_(x) will link to the corresponding register in hardware/regs/dma.h. // // Bit-field descriptions are of the form: // BITMASK [BITRANGE]: FIELDNAME (RESETVALUE): DESCRIPTION typedef struct { _REG_(DMA_CH0_READ_ADDR_OFFSET) // DMA_CH0_READ_ADDR // DMA Channel 0 Read Address pointer io_rw_32 read_addr; _REG_(DMA_CH0_WRITE_ADDR_OFFSET) // DMA_CH0_WRITE_ADDR // DMA Channel 0 Write Address pointer io_rw_32 write_addr; _REG_(DMA_CH0_TRANS_COUNT_OFFSET) // DMA_CH0_TRANS_COUNT // DMA Channel 0 Transfer Count io_rw_32 transfer_count; _REG_(DMA_CH0_CTRL_TRIG_OFFSET) // DMA_CH0_CTRL_TRIG // DMA Channel 0 Control and Status // 0x80000000 [31] : AHB_ERROR (0): Logical OR of the READ_ERROR and WRITE_ERROR flags // 0x40000000 [30] : READ_ERROR (0): If 1, the channel received a read bus error // 0x20000000 [29] : WRITE_ERROR (0): If 1, the channel received a write bus error // 0x01000000 [24] : BUSY (0): This flag goes high when the channel starts a new transfer sequence, and low when the... // 0x00800000 [23] : SNIFF_EN (0): If 1, this channel's data transfers are visible to the sniff hardware, and each... // 0x00400000 [22] : BSWAP (0): Apply byte-swap transformation to DMA data // 0x00200000 [21] : IRQ_QUIET (0): In QUIET mode, the channel does not generate IRQs at the end of every transfer block // 0x001f8000 [20:15] : TREQ_SEL (0): Select a Transfer Request signal // 0x00007800 [14:11] : CHAIN_TO (0): When this channel completes, it will trigger the channel indicated by CHAIN_TO // 0x00000400 [10] : RING_SEL (0): Select whether RING_SIZE applies to read or write addresses // 0x000003c0 [9:6] : RING_SIZE (0): Size of address wrap region // 0x00000020 [5] : INCR_WRITE (0): If 1, the write address increments with each transfer // 0x00000010 [4] : INCR_READ (0): If 1, the read address increments with each transfer // 0x0000000c [3:2] : DATA_SIZE (0): Set the size of each bus transfer (byte/halfword/word) // 0x00000002 [1] : HIGH_PRIORITY (0): HIGH_PRIORITY gives a channel preferential treatment in issue scheduling: in... // 0x00000001 [0] : EN (0): DMA Channel Enable io_rw_32 ctrl_trig; _REG_(DMA_CH0_AL1_CTRL_OFFSET) // DMA_CH0_AL1_CTRL // Alias for channel 0 CTRL register io_rw_32 al1_ctrl; _REG_(DMA_CH0_AL1_READ_ADDR_OFFSET) // DMA_CH0_AL1_READ_ADDR // Alias for channel 0 READ_ADDR register io_rw_32 al1_read_addr; _REG_(DMA_CH0_AL1_WRITE_ADDR_OFFSET) // DMA_CH0_AL1_WRITE_ADDR // Alias for channel 0 WRITE_ADDR register io_rw_32 al1_write_addr; _REG_(DMA_CH0_AL1_TRANS_COUNT_TRIG_OFFSET) // DMA_CH0_AL1_TRANS_COUNT_TRIG // Alias for channel 0 TRANS_COUNT register io_rw_32 al1_transfer_count_trig; _REG_(DMA_CH0_AL2_CTRL_OFFSET) // DMA_CH0_AL2_CTRL // Alias for channel 0 CTRL register io_rw_32 al2_ctrl; _REG_(DMA_CH0_AL2_TRANS_COUNT_OFFSET) // DMA_CH0_AL2_TRANS_COUNT // Alias for channel 0 TRANS_COUNT register io_rw_32 al2_transfer_count; _REG_(DMA_CH0_AL2_READ_ADDR_OFFSET) // DMA_CH0_AL2_READ_ADDR // Alias for channel 0 READ_ADDR register io_rw_32 al2_read_addr; _REG_(DMA_CH0_AL2_WRITE_ADDR_TRIG_OFFSET) // DMA_CH0_AL2_WRITE_ADDR_TRIG // Alias for channel 0 WRITE_ADDR register io_rw_32 al2_write_addr_trig; _REG_(DMA_CH0_AL3_CTRL_OFFSET) // DMA_CH0_AL3_CTRL // Alias for channel 0 CTRL register io_rw_32 al3_ctrl; _REG_(DMA_CH0_AL3_WRITE_ADDR_OFFSET) // DMA_CH0_AL3_WRITE_ADDR // Alias for channel 0 WRITE_ADDR register io_rw_32 al3_write_addr; _REG_(DMA_CH0_AL3_TRANS_COUNT_OFFSET) // DMA_CH0_AL3_TRANS_COUNT // Alias for channel 0 TRANS_COUNT register io_rw_32 al3_transfer_count; _REG_(DMA_CH0_AL3_READ_ADDR_TRIG_OFFSET) // DMA_CH0_AL3_READ_ADDR_TRIG // Alias for channel 0 READ_ADDR register io_rw_32 al3_read_addr_trig; } dma_channel_hw_t; typedef struct { dma_channel_hw_t ch[NUM_DMA_CHANNELS]; // 12 uint32_t _pad0[64]; _REG_(DMA_INTR_OFFSET) // DMA_INTR // Interrupt Status (raw) // 0x0000ffff [15:0] : INTR (0): Raw interrupt status for DMA Channels 0 io_rw_32 intr; _REG_(DMA_INTE0_OFFSET) // DMA_INTE0 // Interrupt Enables for IRQ 0 // 0x0000ffff [15:0] : INTE0 (0): Set bit n to pass interrupts from channel n to DMA IRQ 0 io_rw_32 inte0; _REG_(DMA_INTF0_OFFSET) // DMA_INTF0 // Force Interrupts // 0x0000ffff [15:0] : INTF0 (0): Write 1s to force the corresponding bits in INTE0 io_rw_32 intf0; _REG_(DMA_INTS0_OFFSET) // DMA_INTS0 // Interrupt Status for IRQ 0 // 0x0000ffff [15:0] : INTS0 (0): Indicates active channel interrupt requests which are currently causing IRQ 0 to be asserted io_rw_32 ints0; uint32_t _pad1; _REG_(DMA_INTE1_OFFSET) // DMA_INTE1 // Interrupt Enables for IRQ 1 // 0x0000ffff [15:0] : INTE1 (0): Set bit n to pass interrupts from channel n to DMA IRQ 1 io_rw_32 inte1; _REG_(DMA_INTF1_OFFSET) // DMA_INTF1 // Force Interrupts for IRQ 1 // 0x0000ffff [15:0] : INTF1 (0): Write 1s to force the corresponding bits in INTE0 io_rw_32 intf1; _REG_(DMA_INTS1_OFFSET) // DMA_INTS1 // Interrupt Status (masked) for IRQ 1 // 0x0000ffff [15:0] : INTS1 (0): Indicates active channel interrupt requests which are currently causing IRQ 1 to be asserted io_rw_32 ints1; _REG_(DMA_TIMER0_OFFSET) // DMA_TIMER0 // (Description copied from array index 0 register DMA_TIMER0 applies similarly to other array indexes) // // Pacing (X/Y) Fractional Timer // 0xffff0000 [31:16] : X (0): Pacing Timer Dividend // 0x0000ffff [15:0] : Y (0): Pacing Timer Divisor io_rw_32 timer[NUM_DMA_TIMERS]; // 4 _REG_(DMA_MULTI_CHAN_TRIGGER_OFFSET) // DMA_MULTI_CHAN_TRIGGER // Trigger one or more channels simultaneously // 0x0000ffff [15:0] : MULTI_CHAN_TRIGGER (0): Each bit in this register corresponds to a DMA channel io_rw_32 multi_channel_trigger; _REG_(DMA_SNIFF_CTRL_OFFSET) // DMA_SNIFF_CTRL // Sniffer Control // 0x00000800 [11] : OUT_INV (0): If set, the result appears inverted (bitwise complement) when read // 0x00000400 [10] : OUT_REV (0): If set, the result appears bit-reversed when read // 0x00000200 [9] : BSWAP (0): Locally perform a byte reverse on the sniffed data, before feeding into checksum // 0x000001e0 [8:5] : CALC (0) // 0x0000001e [4:1] : DMACH (0): DMA channel for Sniffer to observe // 0x00000001 [0] : EN (0): Enable sniffer io_rw_32 sniff_ctrl; _REG_(DMA_SNIFF_DATA_OFFSET) // DMA_SNIFF_DATA // Data accumulator for sniff hardware io_rw_32 sniff_data; uint32_t _pad2; _REG_(DMA_FIFO_LEVELS_OFFSET) // DMA_FIFO_LEVELS // Debug RAF, WAF, TDF levels // 0x00ff0000 [23:16] : RAF_LVL (0): Current Read-Address-FIFO fill level // 0x0000ff00 [15:8] : WAF_LVL (0): Current Write-Address-FIFO fill level // 0x000000ff [7:0] : TDF_LVL (0): Current Transfer-Data-FIFO fill level io_ro_32 fifo_levels; _REG_(DMA_CHAN_ABORT_OFFSET) // DMA_CHAN_ABORT // Abort an in-progress transfer sequence on one or more channels // 0x0000ffff [15:0] : CHAN_ABORT (0): Each bit corresponds to a channel io_rw_32 abort; } dma_hw_t; typedef struct { struct dma_debug_hw_channel { io_rw_32 ctrdeq; io_ro_32 tcr; uint32_t pad[14]; } ch[NUM_DMA_CHANNELS]; } dma_debug_hw_t; #define dma_hw ((dma_hw_t *)DMA_BASE) #define dma_debug_hw ((dma_debug_hw_t *)(DMA_BASE + DMA_CH0_DBG_CTDREQ_OFFSET)) static_assert( NUM_DMA_TIMERS == 4, ""); static_assert( NUM_DMA_CHANNELS == 12, ""); #endif