mirror of https://github.com/Desuuuu/klipper.git
stm32: Rework USB transfer memory layout in usbfs.c
Use a fixed layout for the USB transfer memory and remove the ep_mem struct definition. This is in preparation for stm32g0 support. Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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@ -1,11 +1,10 @@
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// Hardware interface to "fullspeed USB controller" on stm32f1
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//
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// Copyright (C) 2018-2019 Kevin O'Connor <kevin@koconnor.net>
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// Copyright (C) 2018-2021 Kevin O'Connor <kevin@koconnor.net>
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//
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// This file may be distributed under the terms of the GNU GPLv3 license.
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#include <string.h> // NULL
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#include "autoconf.h" // CONFIG_STM32_FLASH_START_2000
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#include "board/armcm_boot.h" // armcm_enable_irq
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#include "board/armcm_timer.h" // udelay
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#include "board/gpio.h" // gpio_out_setup
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@ -31,49 +30,64 @@
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* USB transfer memory
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****************************************************************/
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struct ep_desc {
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epmword_t addr_tx, count_tx, addr_rx, count_rx;
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};
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// Layout of the USB transfer memory
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#define EPM ((epmword_t*)USB_PMAADDR)
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#define EPM_EP_DESC(ep) (&EPM[(ep) * 4])
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#define EPM_BUF_OFFSET 0x10
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#define EPM_EP_BUF_SIZE (64 / 2 + 1)
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#define EPM_EP_TX_BUF(ep) (&EPM[EPM_BUF_OFFSET + (ep)*2*EPM_EP_BUF_SIZE])
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#define EPM_EP_RX_BUF(ep) (&EPM[EPM_BUF_OFFSET + (1+(ep)*2)*EPM_EP_BUF_SIZE])
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struct ep_mem {
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struct ep_desc ep0, ep_acm, ep_bulk_out, ep_bulk_in;
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epmword_t ep0_tx[USB_CDC_EP0_SIZE / 2];
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epmword_t ep0_rx[USB_CDC_EP0_SIZE / 2 + 1];
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epmword_t ep_acm_tx[USB_CDC_EP_ACM_SIZE / 2];
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epmword_t ep_bulk_out_rx[USB_CDC_EP_BULK_OUT_SIZE / 2 + 1];
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epmword_t ep_bulk_in_tx[USB_CDC_EP_BULK_IN_SIZE / 2];
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};
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// Configure the usb descriptor for an endpoint
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static void
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epm_ep_desc_setup(int ep, int rx_size)
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{
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uint32_t addr_tx = (EPM_EP_TX_BUF(ep) - EPM) * 2, count_tx = 0;
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uint32_t addr_rx = (EPM_EP_RX_BUF(ep) - EPM) * 2;
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uint32_t count_rx = (rx_size <= 30 ? DIV_ROUND_UP(rx_size, 2) << 10
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: ((DIV_ROUND_UP(rx_size, 32) - 1) << 10) | 0x8000);
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epmword_t *desc = EPM_EP_DESC(ep);
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desc[0] = addr_tx;
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desc[1] = count_tx;
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desc[2] = addr_rx;
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desc[3] = count_rx;
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}
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#define EPM ((struct ep_mem *)USB_PMAADDR)
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// Return number of read bytes on an rx endpoint
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static uint32_t
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epm_get_ep_count_rx(int ep)
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{
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epmword_t *desc = EPM_EP_DESC(ep);
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return desc[3] & 0x3ff;
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}
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#define CALC_ADDR(p) (((epmword_t*)(p) - (epmword_t*)EPM) * 2)
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#define CALC_SIZE(s) ((s) > 30 ? ((DIV_ROUND_UP((s), 32) - 1) << 10) | 0x8000 \
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: DIV_ROUND_UP((s), 2) << 10)
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// Set number of bytes ready to be transmitted on a tx endpoint
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static void
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epm_set_ep_count_tx(int ep, uint32_t count)
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{
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epmword_t *desc = EPM_EP_DESC(ep);
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desc[1] = count;
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}
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// Setup the transfer descriptors in dedicated usb memory
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static void
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btable_configure(void)
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{
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EPM->ep0.count_tx = 0;
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EPM->ep0.addr_tx = CALC_ADDR(EPM->ep0_tx);
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EPM->ep0.count_rx = CALC_SIZE(USB_CDC_EP0_SIZE);
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EPM->ep0.addr_rx = CALC_ADDR(EPM->ep0_rx);
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EPM->ep_acm.count_tx = 0;
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EPM->ep_acm.addr_tx = CALC_ADDR(EPM->ep_acm_tx);
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EPM->ep_bulk_out.count_rx = CALC_SIZE(USB_CDC_EP_BULK_OUT_SIZE);
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EPM->ep_bulk_out.addr_rx = CALC_ADDR(EPM->ep_bulk_out_rx);
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EPM->ep_bulk_in.count_tx = 0;
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EPM->ep_bulk_in.addr_tx = CALC_ADDR(EPM->ep_bulk_in_tx);
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epm_ep_desc_setup(0, USB_CDC_EP0_SIZE);
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epm_ep_desc_setup(USB_CDC_EP_ACM, 0);
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epm_ep_desc_setup(USB_CDC_EP_BULK_OUT, USB_CDC_EP_BULK_OUT_SIZE);
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epm_ep_desc_setup(USB_CDC_EP_BULK_IN, 0);
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}
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// Read a packet stored in dedicated usb memory
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static void
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btable_read_packet(uint8_t *dest, epmword_t *src, int count)
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static uint32_t
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btable_read_packet(int ep, uint8_t *dest, int max_len)
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{
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uint_fast8_t i;
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epmword_t *src = EPM_EP_RX_BUF(ep);
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uint32_t count = epm_get_ep_count_rx(ep);
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if (count > max_len)
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count = max_len;
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int i;
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for (i=0; i<(count/2); i++) {
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uint32_t d = *src++;
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*dest++ = d;
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@ -81,12 +95,14 @@ btable_read_packet(uint8_t *dest, epmword_t *src, int count)
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}
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if (count & 1)
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*dest = *src;
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return count;
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}
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// Write a packet to dedicated usb memory
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static void
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btable_write_packet(epmword_t *dest, const uint8_t *src, int count)
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btable_write_packet(int ep, const uint8_t *src, int count)
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{
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epmword_t *dest = EPM_EP_TX_BUF(ep);
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int i;
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for (i=0; i<(count/2); i++) {
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uint8_t b1 = *src++, b2 = *src++;
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@ -94,6 +110,7 @@ btable_write_packet(epmword_t *dest, const uint8_t *src, int count)
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}
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if (count & 1)
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*dest = *src;
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epm_set_ep_count_tx(ep, count);
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}
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@ -137,10 +154,7 @@ usb_read_bulk_out(void *data, uint_fast8_t max_len)
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if ((epr & USB_EPRX_STAT) == USB_EP_RX_VALID)
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// No data ready
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return -1;
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uint32_t count = EPM->ep_bulk_out.count_rx & 0x3ff;
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if (count > max_len)
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count = max_len;
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btable_read_packet(data, EPM->ep_bulk_out_rx, count);
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uint32_t count = btable_read_packet(USB_CDC_EP_BULK_OUT, data, max_len);
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USB_EPR[USB_CDC_EP_BULK_OUT] = set_stat_rx_bits(epr, USB_EP_RX_VALID);
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return count;
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}
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@ -152,8 +166,7 @@ usb_send_bulk_in(void *data, uint_fast8_t len)
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if ((epr & USB_EPTX_STAT) != USB_EP_TX_NAK)
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// No buffer space available
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return -1;
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btable_write_packet(EPM->ep_bulk_in_tx, data, len);
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EPM->ep_bulk_in.count_tx = len;
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btable_write_packet(USB_CDC_EP_BULK_IN, data, len);
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USB_EPR[USB_CDC_EP_BULK_IN] = set_stat_tx_bits(epr, USB_EP_TX_VALID);
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return len;
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}
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@ -165,10 +178,7 @@ usb_read_ep0(void *data, uint_fast8_t max_len)
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if ((epr & USB_EPRX_STAT) != USB_EP_RX_NAK)
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// No data ready
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return -1;
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uint32_t count = EPM->ep0.count_rx & 0x3ff;
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if (count > max_len)
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count = max_len;
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btable_read_packet(data, EPM->ep0_rx, count);
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uint32_t count = btable_read_packet(0, data, max_len);
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USB_EPR[0] = set_stat_rxtx_bits(epr, USB_EP_RX_VALID | USB_EP_TX_NAK);
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return count;
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}
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@ -189,8 +199,7 @@ usb_send_ep0(const void *data, uint_fast8_t len)
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if ((epr & USB_EPTX_STAT) != USB_EP_TX_NAK)
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// No buffer space available
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return -1;
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btable_write_packet(EPM->ep0_tx, data, len);
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EPM->ep0.count_tx = len;
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btable_write_packet(0, data, len);
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USB_EPR[0] = set_stat_tx_bits(epr, USB_EP_TX_VALID);
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return len;
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}
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