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free-dap/platform/rp2040/usb.c

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Added RP2040 support
2022-01-05 11:28:52 +08:00
// SPDX-License-Identifier: BSD-3-Clause
// Copyright (c) 2022, Alex Taradov <alex@taradov.com>. All rights reserved.
/*- Includes ----------------------------------------------------------------*/
#include <string.h>
#include <stdbool.h>
#include <stdalign.h>
#include "rp2040.h"
#include "utils.h"
#include "usb.h"
#include "usb_std.h"
#include "usb_descriptors.h"
/*- Definitions -------------------------------------------------------------*/
#define USB_DPRAM_SIZE 4096
#define USB_DPRAM ((usb_dpram_t *)USBCTRL_DPRAM_BASE)
#define USB_DPRAM_FIXED_SIZE 0x100
#define USB_DPRAM_BUF_OFFSET (USB_DPRAM_FIXED_SIZE + USB_CTRL_EP_SIZE*2)
/*- Types -------------------------------------------------------------------*/
typedef struct
{
__IOM uint8_t SETUP[8];
struct // Starts with EP1
{
__IOM uint32_t IN;
__IOM uint32_t OUT;
} EP_CTRL[USB_EP_NUM-1];
struct // Starts with EP0
{
__IOM uint32_t IN;
__IOM uint32_t OUT;
} EP_BUF_CTRL[USB_EP_NUM];
__IOM uint8_t EP0_BUF[USB_CTRL_EP_SIZE];
__IOM uint8_t DUMMY[USB_CTRL_EP_SIZE];
} usb_dpram_t;
typedef struct
{
int in_pid;
volatile uint8_t *in_buf;
int out_pid;
volatile uint8_t *out_buf;
uint8_t *out_data;
} usb_ep_t;
/*- Variables ---------------------------------------------------------------*/
static int usb_ep_buf_ptr = 0;
static usb_ep_t usb_ep[USB_EP_NUM];
static void (*usb_control_recv_callback)(uint8_t *data, int size);
/*- Prototypes --------------------------------------------------------------*/
static void usb_reset_endpoints(void);
/*- Implementations ---------------------------------------------------------*/
//-----------------------------------------------------------------------------
void usb_hw_init(void)
{
RESETS_CLR->RESET = RESETS_RESET_usbctrl_Msk;
while (0 == RESETS->RESET_DONE_b.usbctrl);
memset(USBCTRL_DPRAM, 0, USB_DPRAM_SIZE);
USBCTRL_REGS->USB_MUXING = USBCTRL_REGS_USB_MUXING_TO_PHY_Msk |
USBCTRL_REGS_USB_MUXING_SOFTCON_Msk;
USBCTRL_REGS->USB_PWR = USBCTRL_REGS_USB_PWR_VBUS_DETECT_Msk |
USBCTRL_REGS_USB_PWR_VBUS_DETECT_OVERRIDE_EN_Msk;
USBCTRL_REGS->MAIN_CTRL = USBCTRL_REGS_MAIN_CTRL_CONTROLLER_EN_Msk;
USBCTRL_REGS->SIE_CTRL = USBCTRL_REGS_SIE_CTRL_EP0_INT_1BUF_Msk;
USBCTRL_REGS->ADDR_ENDP = 0;
USBCTRL_REGS->INTE = USBCTRL_REGS_INTE_BUFF_STATUS_Msk |
USBCTRL_REGS_INTE_SETUP_REQ_Msk | USBCTRL_REGS_INTE_BUS_RESET_Msk;
usb_reset_endpoints();
usb_attach();
}
//-----------------------------------------------------------------------------
void usb_attach(void)
{
USBCTRL_REGS_SET->SIE_CTRL = USBCTRL_REGS_SIE_CTRL_PULLUP_EN_Msk;
}
//-----------------------------------------------------------------------------
void usb_detach(void)
{
USBCTRL_REGS_CLR->SIE_CTRL = USBCTRL_REGS_SIE_CTRL_PULLUP_EN_Msk;
}
//-----------------------------------------------------------------------------
static void usb_reset_endpoints(void)
{
for (int i = 0; i < USB_EP_NUM-1; i++)
{
USB_DPRAM->EP_CTRL[i].IN = 0;
USB_DPRAM->EP_CTRL[i].OUT = 0;
}
memset(&usb_ep, 0, sizeof(usb_ep));
usb_ep_buf_ptr = USB_DPRAM_BUF_OFFSET;
}
//-----------------------------------------------------------------------------
void usb_configure_endpoint(usb_endpoint_descriptor_t *desc)
{
int ep, dir, type, size;
ep = desc->bEndpointAddress & USB_INDEX_MASK;
dir = desc->bEndpointAddress & USB_DIRECTION_MASK;
type = desc->bmAttributes & 0x03;
size = desc->wMaxPacketSize & 0x3ff;
if (size <= 64)
size = 64;
else if (size <= 128)
size = 128;
else if (size <= 256)
size = 256;
else if (size <= 512)
size = 512;
else
size = 1024;
if (USB_IN_ENDPOINT == dir)
{
usb_ep[ep].in_buf = (volatile uint8_t *)(USBCTRL_DPRAM_BASE + usb_ep_buf_ptr);
USB_DPRAM->EP_CTRL[ep-1].IN = USBCTRL_DPRAM_EP1_IN_CONTROL_ENABLE_Msk |
USBCTRL_DPRAM_EP1_IN_CONTROL_INTERRUPT_PER_BUFF_Msk |
(type << USBCTRL_DPRAM_EP1_IN_CONTROL_ENDPOINT_TYPE_Pos) |
(usb_ep_buf_ptr << USBCTRL_DPRAM_EP1_IN_CONTROL_BUFFER_ADDRESS_Pos);
}
else
{
usb_ep[ep].out_buf = (volatile uint8_t *)(USBCTRL_DPRAM_BASE + usb_ep_buf_ptr);
USB_DPRAM->EP_CTRL[ep-1].OUT = USBCTRL_DPRAM_EP1_OUT_CONTROL_ENABLE_Msk |
USBCTRL_DPRAM_EP1_OUT_CONTROL_INTERRUPT_PER_BUFF_Msk |
(type << USBCTRL_DPRAM_EP1_OUT_CONTROL_ENDPOINT_TYPE_Pos) |
(usb_ep_buf_ptr << USBCTRL_DPRAM_EP1_OUT_CONTROL_BUFFER_ADDRESS_Pos);
}
usb_ep_buf_ptr += size;
}
//-----------------------------------------------------------------------------
bool usb_endpoint_configured(int ep, int dir)
{
if (USB_IN_ENDPOINT == dir)
return (USB_DPRAM->EP_CTRL[ep-1].IN & USBCTRL_DPRAM_EP1_IN_CONTROL_ENABLE_Msk) != 0;
else
return (USB_DPRAM->EP_CTRL[ep-1].OUT & USBCTRL_DPRAM_EP1_OUT_CONTROL_ENABLE_Msk) != 0;
}
//-----------------------------------------------------------------------------
int usb_endpoint_get_status(int ep, int dir)
{
if (USB_IN_ENDPOINT == dir)
return (USB_DPRAM->EP_BUF_CTRL[ep].IN & USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_Msk) != 0;
else
return (USB_DPRAM->EP_BUF_CTRL[ep].OUT & USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_Msk) != 0;
}
//-----------------------------------------------------------------------------
void usb_endpoint_set_feature(int ep, int dir)
{
if (USB_IN_ENDPOINT == dir)
USB_DPRAM->EP_BUF_CTRL[ep].IN = USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_Msk;
else
USB_DPRAM->EP_BUF_CTRL[ep].OUT = USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_Msk;
}
//-----------------------------------------------------------------------------
void usb_endpoint_clear_feature(int ep, int dir)
{
if (USB_IN_ENDPOINT == dir)
{
usb_ep[ep].in_pid = 0;
USB_DPRAM->EP_BUF_CTRL[ep].IN &= ~USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_Msk;
}
else
{
usb_ep[0].out_pid = 0;
USB_DPRAM->EP_BUF_CTRL[ep].OUT &= ~USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_STALL_Msk;
}
}
//-----------------------------------------------------------------------------
void usb_set_address(int address)
{
USBCTRL_REGS->ADDR_ENDP = address;
}
//-----------------------------------------------------------------------------
static void usb_start_in_transfer(int ep, int size)
{
uint32_t v = size | USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_FULL_0_Msk |
(usb_ep[ep].in_pid ? USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_PID_0_Msk : 0);
usb_ep[ep].in_pid ^= 1;
USB_DPRAM->EP_BUF_CTRL[ep].IN = v;
asm("nop");
asm("nop");
asm("nop");
asm("nop");
USB_DPRAM->EP_BUF_CTRL[ep].IN = v | USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_AVAILABLE_0_Msk;
}
//-----------------------------------------------------------------------------
static void usb_start_out_transfer(int ep, int size)
{
uint32_t v = size | (usb_ep[ep].out_pid ? USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_PID_0_Msk : 0);
usb_ep[ep].out_pid ^= 1;
USB_DPRAM->EP_BUF_CTRL[ep].OUT = v;
asm("nop");
asm("nop");
asm("nop");
asm("nop");
USB_DPRAM->EP_BUF_CTRL[ep].OUT = v | USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_AVAILABLE_0_Msk;
}
//-----------------------------------------------------------------------------
void usb_send(int ep, uint8_t *data, int size)
{
for (int i = 0; i < size; i++)
usb_ep[ep].in_buf[i] = data[i];
usb_start_in_transfer(ep, size);
}
//-----------------------------------------------------------------------------
void usb_recv(int ep, uint8_t *data, int size)
{
usb_ep[ep].out_data = data;
usb_start_out_transfer(ep, size);
}
//-----------------------------------------------------------------------------
void usb_control_send_zlp(void)
{
usb_start_in_transfer(0, 0);
while (0 == (USBCTRL_REGS->BUFF_STATUS & USBCTRL_REGS_BUFF_STATUS_EP0_IN_Msk));
USBCTRL_REGS->BUFF_STATUS = USBCTRL_REGS_BUFF_STATUS_EP0_IN_Msk;
}
//-----------------------------------------------------------------------------
void usb_control_stall(void)
{
USBCTRL_REGS->EP_STALL_ARM = USBCTRL_REGS_EP_STALL_ARM_EP0_IN_Msk;
USB_DPRAM->EP_BUF_CTRL[0].IN = USBCTRL_DPRAM_EP0_IN_BUFFER_CONTROL_STALL_Msk;
}
//-----------------------------------------------------------------------------
void usb_control_send(uint8_t *data, int size)
{
while (size)
{
int transfer_size = LIMIT(size, usb_device_descriptor.bMaxPacketSize0);
for (int i = 0; i < transfer_size; i++)
usb_ep[0].in_buf[i] = data[i];
usb_start_in_transfer(0, transfer_size);
while (0 == (USBCTRL_REGS->BUFF_STATUS & USBCTRL_REGS_BUFF_STATUS_EP0_IN_Msk));
USBCTRL_REGS->BUFF_STATUS = USBCTRL_REGS_BUFF_STATUS_EP0_IN_Msk;
size -= transfer_size;
data += transfer_size;
}
usb_start_out_transfer(0, USB_CTRL_EP_SIZE);
}
//-----------------------------------------------------------------------------
void usb_control_recv(void (*callback)(uint8_t *data, int size))
{
usb_control_recv_callback = callback;
usb_start_out_transfer(0, USB_CTRL_EP_SIZE);
}
//-----------------------------------------------------------------------------
void usb_task(void)
{
uint32_t status = USBCTRL_REGS->INTS;
uint32_t flags;
if (status & USBCTRL_REGS_INTS_BUS_RESET_Msk)
{
USBCTRL_REGS_CLR->SIE_STATUS = USBCTRL_REGS_SIE_STATUS_BUS_RESET_Msk;
USBCTRL_REGS->ADDR_ENDP = 0;
usb_reset_endpoints();
usb_ep[0].in_buf = (volatile uint8_t *)(USBCTRL_DPRAM_BASE + USB_DPRAM_FIXED_SIZE);
usb_ep[0].out_buf = (volatile uint8_t *)(USBCTRL_DPRAM_BASE + USB_DPRAM_FIXED_SIZE);
}
if (status & USBCTRL_REGS_INTS_SETUP_REQ_Msk)
{
usb_request_t *request = (usb_request_t *)USBCTRL_DPRAM;
usb_ep[0].in_pid = 1;
usb_ep[0].out_pid = 1;
USBCTRL_REGS_CLR->SIE_STATUS = USBCTRL_REGS_SIE_STATUS_SETUP_REC_Msk;
if (!usb_handle_standard_request(request))
usb_control_stall();
}
if (status & USBCTRL_REGS_INTS_BUFF_STATUS_Msk)
{
status = USBCTRL_REGS->BUFF_STATUS;
if (status & USBCTRL_REGS_BUFF_STATUS_EP0_OUT_Msk)
{
int size = USB_DPRAM->EP_BUF_CTRL[0].OUT & USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_Msk;
if (usb_control_recv_callback)
{
usb_control_recv_callback((uint8_t *)usb_ep[0].out_buf, size);
usb_control_recv_callback = NULL;
usb_control_send_zlp();
}
}
flags = status >> 2;
for (int ep = 1; ep < USB_EP_NUM && flags > 0; ep++)
{
if (flags & 1) // IN
{
usb_send_callback(ep);
}
if (flags & 2) // OUT
{
int size = USB_DPRAM->EP_BUF_CTRL[ep].OUT & USBCTRL_DPRAM_EP0_OUT_BUFFER_CONTROL_LENGTH_0_Msk;
for (int i = 0; i < size; i++)
usb_ep[ep].out_data[i] = usb_ep[ep].out_buf[i];
usb_recv_callback(ep, size);
}
flags >>= 2;
}
USBCTRL_REGS->BUFF_STATUS = status;
}
}
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