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katapult/lib/pico-sdk/rp2040/hardware/structs/usb.h
Kevin O'Connor c0014efc4a rp2040: Resynchronize with upstream Klipper code and support rp2350 chips 
Synchronize with the latest Klipper code.  This pulls in the latest
lib/ files (needed to use the pico-sdk v2.0.0 version).  It updates to
latest can2040 code (needed for pico-sdk v2.0.0 support).  It
implements USB double buffering (as is now done in Klipper).  It adds
in support for additional UART pins (as is now done in Klipper).  It
adds support for rp2350 chips.

This replaces the execute in ram code previously implemented in
Katapult with the execute in ram code that is now standard in Klipper.

The CONFIG_RP2040_ADD_BOOT_SIGNATURE kconfig symbol was removed and
the build now always produces a katapult.withclear.uf2 file.

Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
2024-12-17 19:27:43 -05:00

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// THIS HEADER FILE IS AUTOMATICALLY GENERATED -- DO NOT EDIT
/**
* Copyright (c) 2024 Raspberry Pi Ltd.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef _HARDWARE_STRUCTS_USB_H
#define _HARDWARE_STRUCTS_USB_H
/**
* \file rp2040/usb.h
*/
#include "hardware/address_mapped.h"
#include "hardware/regs/usb.h"
#include "hardware/structs/usb_dpram.h"
// Reference to datasheet: https://datasheets.raspberrypi.com/rp2040/rp2040-datasheet.pdf#tab-registerlist_usb
//
// 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/usb.h.
//
// Bit-field descriptions are of the form:
// BITMASK [BITRANGE] FIELDNAME (RESETVALUE) DESCRIPTION
typedef struct {
_REG_(USB_ADDR_ENDP_OFFSET) // USB_ADDR_ENDP
// Device address and endpoint control
// 0x000f0000 [19:16] ENDPOINT (0x0) Device endpoint to send data to
// 0x0000007f [6:0] ADDRESS (0x00) In device mode, the address that the device should respond to
io_rw_32 dev_addr_ctrl;
// (Description copied from array index 0 register USB_ADDR_ENDP1 applies similarly to other array indexes)
_REG_(USB_ADDR_ENDP1_OFFSET) // USB_ADDR_ENDP1
// Interrupt endpoint 1
// 0x04000000 [26] INTEP_PREAMBLE (0) Interrupt EP requires preamble (is a low speed device on...
// 0x02000000 [25] INTEP_DIR (0) Direction of the interrupt endpoint
// 0x000f0000 [19:16] ENDPOINT (0x0) Endpoint number of the interrupt endpoint
// 0x0000007f [6:0] ADDRESS (0x00) Device address
io_rw_32 int_ep_addr_ctrl[15];
_REG_(USB_MAIN_CTRL_OFFSET) // USB_MAIN_CTRL
// Main control register
// 0x80000000 [31] SIM_TIMING (0) Reduced timings for simulation
// 0x00000002 [1] HOST_NDEVICE (0) Device mode = 0, Host mode = 1
// 0x00000001 [0] CONTROLLER_EN (0) Enable controller
io_rw_32 main_ctrl;
_REG_(USB_SOF_WR_OFFSET) // USB_SOF_WR
// Set the SOF (Start of Frame) frame number in the host controller
// 0x000007ff [10:0] COUNT (0x000)
io_wo_32 sof_wr;
_REG_(USB_SOF_RD_OFFSET) // USB_SOF_RD
// Read the last SOF (Start of Frame) frame number seen
// 0x000007ff [10:0] COUNT (0x000)
io_ro_32 sof_rd;
_REG_(USB_SIE_CTRL_OFFSET) // USB_SIE_CTRL
// SIE control register
// 0x80000000 [31] EP0_INT_STALL (0) Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a STALL
// 0x40000000 [30] EP0_DOUBLE_BUF (0) Device: EP0 single buffered = 0, double buffered = 1
// 0x20000000 [29] EP0_INT_1BUF (0) Device: Set bit in BUFF_STATUS for every buffer completed on EP0
// 0x10000000 [28] EP0_INT_2BUF (0) Device: Set bit in BUFF_STATUS for every 2 buffers...
// 0x08000000 [27] EP0_INT_NAK (0) Device: Set bit in EP_STATUS_STALL_NAK when EP0 sends a NAK
// 0x04000000 [26] DIRECT_EN (0) Direct bus drive enable
// 0x02000000 [25] DIRECT_DP (0) Direct control of DP
// 0x01000000 [24] DIRECT_DM (0) Direct control of DM
// 0x00040000 [18] TRANSCEIVER_PD (0) Power down bus transceiver
// 0x00020000 [17] RPU_OPT (0) Device: Pull-up strength (0=1K2, 1=2k3)
// 0x00010000 [16] PULLUP_EN (0) Device: Enable pull up resistor
// 0x00008000 [15] PULLDOWN_EN (0) Host: Enable pull down resistors
// 0x00002000 [13] RESET_BUS (0) Host: Reset bus
// 0x00001000 [12] RESUME (0) Device: Remote wakeup
// 0x00000800 [11] VBUS_EN (0) Host: Enable VBUS
// 0x00000400 [10] KEEP_ALIVE_EN (0) Host: Enable keep alive packet (for low speed bus)
// 0x00000200 [9] SOF_EN (0) Host: Enable SOF generation (for full speed bus)
// 0x00000100 [8] SOF_SYNC (0) Host: Delay packet(s) until after SOF
// 0x00000040 [6] PREAMBLE_EN (0) Host: Preable enable for LS device on FS hub
// 0x00000010 [4] STOP_TRANS (0) Host: Stop transaction
// 0x00000008 [3] RECEIVE_DATA (0) Host: Receive transaction (IN to host)
// 0x00000004 [2] SEND_DATA (0) Host: Send transaction (OUT from host)
// 0x00000002 [1] SEND_SETUP (0) Host: Send Setup packet
// 0x00000001 [0] START_TRANS (0) Host: Start transaction
io_rw_32 sie_ctrl;
_REG_(USB_SIE_STATUS_OFFSET) // USB_SIE_STATUS
// SIE status register
// 0x80000000 [31] DATA_SEQ_ERROR (0) Data Sequence Error
// 0x40000000 [30] ACK_REC (0) ACK received
// 0x20000000 [29] STALL_REC (0) Host: STALL received
// 0x10000000 [28] NAK_REC (0) Host: NAK received
// 0x08000000 [27] RX_TIMEOUT (0) RX timeout is raised by both the host and device if an...
// 0x04000000 [26] RX_OVERFLOW (0) RX overflow is raised by the Serial RX engine if the...
// 0x02000000 [25] BIT_STUFF_ERROR (0) Bit Stuff Error
// 0x01000000 [24] CRC_ERROR (0) CRC Error
// 0x00080000 [19] BUS_RESET (0) Device: bus reset received
// 0x00040000 [18] TRANS_COMPLETE (0) Transaction complete
// 0x00020000 [17] SETUP_REC (0) Device: Setup packet received
// 0x00010000 [16] CONNECTED (0) Device: connected
// 0x00000800 [11] RESUME (0) Host: Device has initiated a remote resume
// 0x00000400 [10] VBUS_OVER_CURR (0) VBUS over current detected
// 0x00000300 [9:8] SPEED (0x0) Host: device speed
// 0x00000010 [4] SUSPENDED (0) Bus in suspended state
// 0x0000000c [3:2] LINE_STATE (0x0) USB bus line state
// 0x00000001 [0] VBUS_DETECTED (0) Device: VBUS Detected
io_rw_32 sie_status;
_REG_(USB_INT_EP_CTRL_OFFSET) // USB_INT_EP_CTRL
// interrupt endpoint control register
// 0x0000fffe [15:1] INT_EP_ACTIVE (0x0000) Host: Enable interrupt endpoint 1 => 15
io_rw_32 int_ep_ctrl;
_REG_(USB_BUFF_STATUS_OFFSET) // USB_BUFF_STATUS
// Buffer status register
// 0x80000000 [31] EP15_OUT (0)
// 0x40000000 [30] EP15_IN (0)
// 0x20000000 [29] EP14_OUT (0)
// 0x10000000 [28] EP14_IN (0)
// 0x08000000 [27] EP13_OUT (0)
// 0x04000000 [26] EP13_IN (0)
// 0x02000000 [25] EP12_OUT (0)
// 0x01000000 [24] EP12_IN (0)
// 0x00800000 [23] EP11_OUT (0)
// 0x00400000 [22] EP11_IN (0)
// 0x00200000 [21] EP10_OUT (0)
// 0x00100000 [20] EP10_IN (0)
// 0x00080000 [19] EP9_OUT (0)
// 0x00040000 [18] EP9_IN (0)
// 0x00020000 [17] EP8_OUT (0)
// 0x00010000 [16] EP8_IN (0)
// 0x00008000 [15] EP7_OUT (0)
// 0x00004000 [14] EP7_IN (0)
// 0x00002000 [13] EP6_OUT (0)
// 0x00001000 [12] EP6_IN (0)
// 0x00000800 [11] EP5_OUT (0)
// 0x00000400 [10] EP5_IN (0)
// 0x00000200 [9] EP4_OUT (0)
// 0x00000100 [8] EP4_IN (0)
// 0x00000080 [7] EP3_OUT (0)
// 0x00000040 [6] EP3_IN (0)
// 0x00000020 [5] EP2_OUT (0)
// 0x00000010 [4] EP2_IN (0)
// 0x00000008 [3] EP1_OUT (0)
// 0x00000004 [2] EP1_IN (0)
// 0x00000002 [1] EP0_OUT (0)
// 0x00000001 [0] EP0_IN (0)
io_rw_32 buf_status;
_REG_(USB_BUFF_CPU_SHOULD_HANDLE_OFFSET) // USB_BUFF_CPU_SHOULD_HANDLE
// Which of the double buffers should be handled
// 0x80000000 [31] EP15_OUT (0)
// 0x40000000 [30] EP15_IN (0)
// 0x20000000 [29] EP14_OUT (0)
// 0x10000000 [28] EP14_IN (0)
// 0x08000000 [27] EP13_OUT (0)
// 0x04000000 [26] EP13_IN (0)
// 0x02000000 [25] EP12_OUT (0)
// 0x01000000 [24] EP12_IN (0)
// 0x00800000 [23] EP11_OUT (0)
// 0x00400000 [22] EP11_IN (0)
// 0x00200000 [21] EP10_OUT (0)
// 0x00100000 [20] EP10_IN (0)
// 0x00080000 [19] EP9_OUT (0)
// 0x00040000 [18] EP9_IN (0)
// 0x00020000 [17] EP8_OUT (0)
// 0x00010000 [16] EP8_IN (0)
// 0x00008000 [15] EP7_OUT (0)
// 0x00004000 [14] EP7_IN (0)
// 0x00002000 [13] EP6_OUT (0)
// 0x00001000 [12] EP6_IN (0)
// 0x00000800 [11] EP5_OUT (0)
// 0x00000400 [10] EP5_IN (0)
// 0x00000200 [9] EP4_OUT (0)
// 0x00000100 [8] EP4_IN (0)
// 0x00000080 [7] EP3_OUT (0)
// 0x00000040 [6] EP3_IN (0)
// 0x00000020 [5] EP2_OUT (0)
// 0x00000010 [4] EP2_IN (0)
// 0x00000008 [3] EP1_OUT (0)
// 0x00000004 [2] EP1_IN (0)
// 0x00000002 [1] EP0_OUT (0)
// 0x00000001 [0] EP0_IN (0)
io_ro_32 buf_cpu_should_handle;
_REG_(USB_EP_ABORT_OFFSET) // USB_EP_ABORT
// Device only: Can be set to ignore the buffer control register for this endpoint in case you...
// 0x80000000 [31] EP15_OUT (0)
// 0x40000000 [30] EP15_IN (0)
// 0x20000000 [29] EP14_OUT (0)
// 0x10000000 [28] EP14_IN (0)
// 0x08000000 [27] EP13_OUT (0)
// 0x04000000 [26] EP13_IN (0)
// 0x02000000 [25] EP12_OUT (0)
// 0x01000000 [24] EP12_IN (0)
// 0x00800000 [23] EP11_OUT (0)
// 0x00400000 [22] EP11_IN (0)
// 0x00200000 [21] EP10_OUT (0)
// 0x00100000 [20] EP10_IN (0)
// 0x00080000 [19] EP9_OUT (0)
// 0x00040000 [18] EP9_IN (0)
// 0x00020000 [17] EP8_OUT (0)
// 0x00010000 [16] EP8_IN (0)
// 0x00008000 [15] EP7_OUT (0)
// 0x00004000 [14] EP7_IN (0)
// 0x00002000 [13] EP6_OUT (0)
// 0x00001000 [12] EP6_IN (0)
// 0x00000800 [11] EP5_OUT (0)
// 0x00000400 [10] EP5_IN (0)
// 0x00000200 [9] EP4_OUT (0)
// 0x00000100 [8] EP4_IN (0)
// 0x00000080 [7] EP3_OUT (0)
// 0x00000040 [6] EP3_IN (0)
// 0x00000020 [5] EP2_OUT (0)
// 0x00000010 [4] EP2_IN (0)
// 0x00000008 [3] EP1_OUT (0)
// 0x00000004 [2] EP1_IN (0)
// 0x00000002 [1] EP0_OUT (0)
// 0x00000001 [0] EP0_IN (0)
io_rw_32 abort;
_REG_(USB_EP_ABORT_DONE_OFFSET) // USB_EP_ABORT_DONE
// Device only: Used in conjunction with `EP_ABORT`
// 0x80000000 [31] EP15_OUT (0)
// 0x40000000 [30] EP15_IN (0)
// 0x20000000 [29] EP14_OUT (0)
// 0x10000000 [28] EP14_IN (0)
// 0x08000000 [27] EP13_OUT (0)
// 0x04000000 [26] EP13_IN (0)
// 0x02000000 [25] EP12_OUT (0)
// 0x01000000 [24] EP12_IN (0)
// 0x00800000 [23] EP11_OUT (0)
// 0x00400000 [22] EP11_IN (0)
// 0x00200000 [21] EP10_OUT (0)
// 0x00100000 [20] EP10_IN (0)
// 0x00080000 [19] EP9_OUT (0)
// 0x00040000 [18] EP9_IN (0)
// 0x00020000 [17] EP8_OUT (0)
// 0x00010000 [16] EP8_IN (0)
// 0x00008000 [15] EP7_OUT (0)
// 0x00004000 [14] EP7_IN (0)
// 0x00002000 [13] EP6_OUT (0)
// 0x00001000 [12] EP6_IN (0)
// 0x00000800 [11] EP5_OUT (0)
// 0x00000400 [10] EP5_IN (0)
// 0x00000200 [9] EP4_OUT (0)
// 0x00000100 [8] EP4_IN (0)
// 0x00000080 [7] EP3_OUT (0)
// 0x00000040 [6] EP3_IN (0)
// 0x00000020 [5] EP2_OUT (0)
// 0x00000010 [4] EP2_IN (0)
// 0x00000008 [3] EP1_OUT (0)
// 0x00000004 [2] EP1_IN (0)
// 0x00000002 [1] EP0_OUT (0)
// 0x00000001 [0] EP0_IN (0)
io_rw_32 abort_done;
_REG_(USB_EP_STALL_ARM_OFFSET) // USB_EP_STALL_ARM
// Device: this bit must be set in conjunction with the `STALL` bit in the buffer control register...
// 0x00000002 [1] EP0_OUT (0)
// 0x00000001 [0] EP0_IN (0)
io_rw_32 ep_stall_arm;
_REG_(USB_NAK_POLL_OFFSET) // USB_NAK_POLL
// Used by the host controller
// 0x03ff0000 [25:16] DELAY_FS (0x010) NAK polling interval for a full speed device
// 0x000003ff [9:0] DELAY_LS (0x010) NAK polling interval for a low speed device
io_rw_32 nak_poll;
_REG_(USB_EP_STATUS_STALL_NAK_OFFSET) // USB_EP_STATUS_STALL_NAK
// Device: bits are set when the `IRQ_ON_NAK` or `IRQ_ON_STALL` bits are set
// 0x80000000 [31] EP15_OUT (0)
// 0x40000000 [30] EP15_IN (0)
// 0x20000000 [29] EP14_OUT (0)
// 0x10000000 [28] EP14_IN (0)
// 0x08000000 [27] EP13_OUT (0)
// 0x04000000 [26] EP13_IN (0)
// 0x02000000 [25] EP12_OUT (0)
// 0x01000000 [24] EP12_IN (0)
// 0x00800000 [23] EP11_OUT (0)
// 0x00400000 [22] EP11_IN (0)
// 0x00200000 [21] EP10_OUT (0)
// 0x00100000 [20] EP10_IN (0)
// 0x00080000 [19] EP9_OUT (0)
// 0x00040000 [18] EP9_IN (0)
// 0x00020000 [17] EP8_OUT (0)
// 0x00010000 [16] EP8_IN (0)
// 0x00008000 [15] EP7_OUT (0)
// 0x00004000 [14] EP7_IN (0)
// 0x00002000 [13] EP6_OUT (0)
// 0x00001000 [12] EP6_IN (0)
// 0x00000800 [11] EP5_OUT (0)
// 0x00000400 [10] EP5_IN (0)
// 0x00000200 [9] EP4_OUT (0)
// 0x00000100 [8] EP4_IN (0)
// 0x00000080 [7] EP3_OUT (0)
// 0x00000040 [6] EP3_IN (0)
// 0x00000020 [5] EP2_OUT (0)
// 0x00000010 [4] EP2_IN (0)
// 0x00000008 [3] EP1_OUT (0)
// 0x00000004 [2] EP1_IN (0)
// 0x00000002 [1] EP0_OUT (0)
// 0x00000001 [0] EP0_IN (0)
io_rw_32 ep_nak_stall_status;
_REG_(USB_USB_MUXING_OFFSET) // USB_USB_MUXING
// Where to connect the USB controller
// 0x00000008 [3] SOFTCON (0)
// 0x00000004 [2] TO_DIGITAL_PAD (0)
// 0x00000002 [1] TO_EXTPHY (0)
// 0x00000001 [0] TO_PHY (0)
io_rw_32 muxing;
_REG_(USB_USB_PWR_OFFSET) // USB_USB_PWR
// Overrides for the power signals in the event that the VBUS signals are not hooked up to GPIO
// 0x00000020 [5] OVERCURR_DETECT_EN (0)
// 0x00000010 [4] OVERCURR_DETECT (0)
// 0x00000008 [3] VBUS_DETECT_OVERRIDE_EN (0)
// 0x00000004 [2] VBUS_DETECT (0)
// 0x00000002 [1] VBUS_EN_OVERRIDE_EN (0)
// 0x00000001 [0] VBUS_EN (0)
io_rw_32 pwr;
_REG_(USB_USBPHY_DIRECT_OFFSET) // USB_USBPHY_DIRECT
// Note that most functions are driven directly from usb_fsls controller
// 0x00400000 [22] DM_OVV (0) Status bit from USB PHY
// 0x00200000 [21] DP_OVV (0) Status bit from USB PHY
// 0x00100000 [20] DM_OVCN (0) Status bit from USB PHY
// 0x00080000 [19] DP_OVCN (0) Status bit from USB PHY
// 0x00040000 [18] RX_DM (0) Status bit from USB PHY +
// 0x00020000 [17] RX_DP (0) Status bit from USB PHY +
// 0x00010000 [16] RX_DD (0) Status bit from USB PHY +
// 0x00008000 [15] TX_DIFFMODE (0)
// 0x00004000 [14] TX_FSSLEW (0)
// 0x00002000 [13] TX_PD (0)
// 0x00001000 [12] RX_PD (0)
// 0x00000800 [11] TX_DM (0) Value to drive to USB PHY when override enable is set...
// 0x00000400 [10] TX_DP (0) Value to drive to USB PHY when override enable is set...
// 0x00000200 [9] TX_DM_OE (0) Value to drive to USB PHY when override enable is set...
// 0x00000100 [8] TX_DP_OE (0) Value to drive to USB PHY when override enable is set...
// 0x00000040 [6] DM_PULLDN_EN (0) Value to drive to USB PHY when override enable is set...
// 0x00000020 [5] DM_PULLUP_EN (0) Value to drive to USB PHY when override enable is set...
// 0x00000010 [4] DM_PULLUP_HISEL (0) when dm_pullup_en is set high, this enables second resistor
// 0x00000004 [2] DP_PULLDN_EN (0) Value to drive to USB PHY when override enable is set...
// 0x00000002 [1] DP_PULLUP_EN (0) Value to drive to USB PHY when override enable is set...
// 0x00000001 [0] DP_PULLUP_HISEL (0) when dp_pullup_en is set high, this enables second resistor
io_rw_32 phy_direct;
_REG_(USB_USBPHY_DIRECT_OVERRIDE_OFFSET) // USB_USBPHY_DIRECT_OVERRIDE
// 0x00008000 [15] TX_DIFFMODE_OVERRIDE_EN (0)
// 0x00001000 [12] DM_PULLUP_OVERRIDE_EN (0)
// 0x00000800 [11] TX_FSSLEW_OVERRIDE_EN (0)
// 0x00000400 [10] TX_PD_OVERRIDE_EN (0)
// 0x00000200 [9] RX_PD_OVERRIDE_EN (0)
// 0x00000100 [8] TX_DM_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000080 [7] TX_DP_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000040 [6] TX_DM_OE_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000020 [5] TX_DP_OE_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000010 [4] DM_PULLDN_EN_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000008 [3] DP_PULLDN_EN_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000004 [2] DP_PULLUP_EN_OVERRIDE_EN (0) Override default value or value driven from USB Controller to PHY
// 0x00000002 [1] DM_PULLUP_HISEL_OVERRIDE_EN (0)
// 0x00000001 [0] DP_PULLUP_HISEL_OVERRIDE_EN (0)
io_rw_32 phy_direct_override;
_REG_(USB_USBPHY_TRIM_OFFSET) // USB_USBPHY_TRIM
// Note that most functions are driven directly from usb_fsls controller
// 0x00001f00 [12:8] DM_PULLDN_TRIM (0x1f) Value to drive to USB PHY +
// 0x0000001f [4:0] DP_PULLDN_TRIM (0x1f) Value to drive to USB PHY +
io_rw_32 phy_trim;
uint32_t _pad0;
_REG_(USB_INTR_OFFSET) // USB_INTR
// Raw Interrupts
// 0x00080000 [19] EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
// 0x00040000 [18] ABORT_DONE (0) Raised when any bit in ABORT_DONE is set
// 0x00020000 [17] DEV_SOF (0) Set every time the device receives a SOF (Start of Frame) packet
// 0x00010000 [16] SETUP_REQ (0) Device
// 0x00008000 [15] DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
// 0x00004000 [14] DEV_SUSPEND (0) Set when the device suspend state changes
// 0x00002000 [13] DEV_CONN_DIS (0) Set when the device connection state changes
// 0x00001000 [12] BUS_RESET (0) Source: SIE_STATUS
// 0x00000800 [11] VBUS_DETECT (0) Source: SIE_STATUS
// 0x00000400 [10] STALL (0) Source: SIE_STATUS
// 0x00000200 [9] ERROR_CRC (0) Source: SIE_STATUS
// 0x00000100 [8] ERROR_BIT_STUFF (0) Source: SIE_STATUS
// 0x00000080 [7] ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
// 0x00000040 [6] ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
// 0x00000020 [5] ERROR_DATA_SEQ (0) Source: SIE_STATUS
// 0x00000010 [4] BUFF_STATUS (0) Raised when any bit in BUFF_STATUS is set
// 0x00000008 [3] TRANS_COMPLETE (0) Raised every time SIE_STATUS
// 0x00000004 [2] HOST_SOF (0) Host: raised every time the host sends a SOF (Start of Frame)
// 0x00000002 [1] HOST_RESUME (0) Host: raised when a device wakes up the host
// 0x00000001 [0] HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
io_ro_32 intr;
_REG_(USB_INTE_OFFSET) // USB_INTE
// Interrupt Enable
// 0x00080000 [19] EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
// 0x00040000 [18] ABORT_DONE (0) Raised when any bit in ABORT_DONE is set
// 0x00020000 [17] DEV_SOF (0) Set every time the device receives a SOF (Start of Frame) packet
// 0x00010000 [16] SETUP_REQ (0) Device
// 0x00008000 [15] DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
// 0x00004000 [14] DEV_SUSPEND (0) Set when the device suspend state changes
// 0x00002000 [13] DEV_CONN_DIS (0) Set when the device connection state changes
// 0x00001000 [12] BUS_RESET (0) Source: SIE_STATUS
// 0x00000800 [11] VBUS_DETECT (0) Source: SIE_STATUS
// 0x00000400 [10] STALL (0) Source: SIE_STATUS
// 0x00000200 [9] ERROR_CRC (0) Source: SIE_STATUS
// 0x00000100 [8] ERROR_BIT_STUFF (0) Source: SIE_STATUS
// 0x00000080 [7] ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
// 0x00000040 [6] ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
// 0x00000020 [5] ERROR_DATA_SEQ (0) Source: SIE_STATUS
// 0x00000010 [4] BUFF_STATUS (0) Raised when any bit in BUFF_STATUS is set
// 0x00000008 [3] TRANS_COMPLETE (0) Raised every time SIE_STATUS
// 0x00000004 [2] HOST_SOF (0) Host: raised every time the host sends a SOF (Start of Frame)
// 0x00000002 [1] HOST_RESUME (0) Host: raised when a device wakes up the host
// 0x00000001 [0] HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
io_rw_32 inte;
_REG_(USB_INTF_OFFSET) // USB_INTF
// Interrupt Force
// 0x00080000 [19] EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
// 0x00040000 [18] ABORT_DONE (0) Raised when any bit in ABORT_DONE is set
// 0x00020000 [17] DEV_SOF (0) Set every time the device receives a SOF (Start of Frame) packet
// 0x00010000 [16] SETUP_REQ (0) Device
// 0x00008000 [15] DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
// 0x00004000 [14] DEV_SUSPEND (0) Set when the device suspend state changes
// 0x00002000 [13] DEV_CONN_DIS (0) Set when the device connection state changes
// 0x00001000 [12] BUS_RESET (0) Source: SIE_STATUS
// 0x00000800 [11] VBUS_DETECT (0) Source: SIE_STATUS
// 0x00000400 [10] STALL (0) Source: SIE_STATUS
// 0x00000200 [9] ERROR_CRC (0) Source: SIE_STATUS
// 0x00000100 [8] ERROR_BIT_STUFF (0) Source: SIE_STATUS
// 0x00000080 [7] ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
// 0x00000040 [6] ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
// 0x00000020 [5] ERROR_DATA_SEQ (0) Source: SIE_STATUS
// 0x00000010 [4] BUFF_STATUS (0) Raised when any bit in BUFF_STATUS is set
// 0x00000008 [3] TRANS_COMPLETE (0) Raised every time SIE_STATUS
// 0x00000004 [2] HOST_SOF (0) Host: raised every time the host sends a SOF (Start of Frame)
// 0x00000002 [1] HOST_RESUME (0) Host: raised when a device wakes up the host
// 0x00000001 [0] HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
io_rw_32 intf;
_REG_(USB_INTS_OFFSET) // USB_INTS
// Interrupt status after masking & forcing
// 0x00080000 [19] EP_STALL_NAK (0) Raised when any bit in EP_STATUS_STALL_NAK is set
// 0x00040000 [18] ABORT_DONE (0) Raised when any bit in ABORT_DONE is set
// 0x00020000 [17] DEV_SOF (0) Set every time the device receives a SOF (Start of Frame) packet
// 0x00010000 [16] SETUP_REQ (0) Device
// 0x00008000 [15] DEV_RESUME_FROM_HOST (0) Set when the device receives a resume from the host
// 0x00004000 [14] DEV_SUSPEND (0) Set when the device suspend state changes
// 0x00002000 [13] DEV_CONN_DIS (0) Set when the device connection state changes
// 0x00001000 [12] BUS_RESET (0) Source: SIE_STATUS
// 0x00000800 [11] VBUS_DETECT (0) Source: SIE_STATUS
// 0x00000400 [10] STALL (0) Source: SIE_STATUS
// 0x00000200 [9] ERROR_CRC (0) Source: SIE_STATUS
// 0x00000100 [8] ERROR_BIT_STUFF (0) Source: SIE_STATUS
// 0x00000080 [7] ERROR_RX_OVERFLOW (0) Source: SIE_STATUS
// 0x00000040 [6] ERROR_RX_TIMEOUT (0) Source: SIE_STATUS
// 0x00000020 [5] ERROR_DATA_SEQ (0) Source: SIE_STATUS
// 0x00000010 [4] BUFF_STATUS (0) Raised when any bit in BUFF_STATUS is set
// 0x00000008 [3] TRANS_COMPLETE (0) Raised every time SIE_STATUS
// 0x00000004 [2] HOST_SOF (0) Host: raised every time the host sends a SOF (Start of Frame)
// 0x00000002 [1] HOST_RESUME (0) Host: raised when a device wakes up the host
// 0x00000001 [0] HOST_CONN_DIS (0) Host: raised when a device is connected or disconnected (i
io_ro_32 ints;
} usb_hw_t;
#define usb_hw ((usb_hw_t *)USBCTRL_REGS_BASE)
static_assert(sizeof (usb_hw_t) == 0x009c, "");
#endif // _HARDWARE_STRUCTS_USB_H
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