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/******************************************************************************
* The MIT License
*
* Copyright (c) 2010 LeafLabs LLC.
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use, copy,
* modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*****************************************************************************/
/**
* @file libmaple/usb/stm32f1/usb.c
* @brief USB support.
*
* This is a mess. What we need almost amounts to a ground-up rewrite.
*/
#include <libmaple/usb.h>
#include <libmaple/libmaple.h>
#include <libmaple/rcc.h>
/* Private headers */
#include "usb_reg_map.h"
#include "usb_lib_globals.h"
/* usb_lib headers */
#include "usb_type.h"
#include "usb_core.h"
static void dispatch_ctr_lp(void);
/*
* usb_lib/ globals
*/
uint16 SaveTState; /* caches TX status for later use */
uint16 SaveRState; /* caches RX status for later use */
/*
* Other state
*/
typedef enum {
RESUME_EXTERNAL,
RESUME_INTERNAL,
RESUME_LATER,
RESUME_WAIT,
RESUME_START,
RESUME_ON,
RESUME_OFF,
RESUME_ESOF
} RESUME_STATE;
struct {
volatile RESUME_STATE eState;
volatile uint8 bESOFcnt;
} ResumeS;
static usblib_dev usblib = {
.irq_mask = USB_ISR_MSK,
.state = USB_UNCONNECTED,
.prevState = USB_UNCONNECTED,
.clk_id = RCC_USB,
};
usblib_dev *USBLIB = &usblib;
/*
* Routines
*/
void usb_init_usblib(usblib_dev *dev,
void (**ep_int_in)(void),
void (**ep_int_out)(void)) {
rcc_clk_enable(dev->clk_id);
dev->ep_int_in = ep_int_in;
dev->ep_int_out = ep_int_out;
/* usb_lib/ declares both and then assumes that pFoo points to Foo
* (even though the names don't always match), which is stupid for
* all of the obvious reasons, but whatever. Here we are. */
pInformation = &Device_Info;
pProperty = &Device_Property;
pUser_Standard_Requests = &User_Standard_Requests;
pInformation->ControlState = 2; /* FIXME [0.0.12] use
CONTROL_STATE enumerator */
pProperty->Init();
}
static void usb_suspend(void) {
uint16 cntr;
/* TODO decide if read/modify/write is really what we want
* (e.g. usb_resume_init() reconfigures CNTR). */
cntr = USB_BASE->CNTR;
cntr |= USB_CNTR_FSUSP;
USB_BASE->CNTR = cntr;
cntr |= USB_CNTR_LP_MODE;
USB_BASE->CNTR = cntr;
USBLIB->prevState = USBLIB->state;
USBLIB->state = USB_SUSPENDED;
}
static void usb_resume_init(void) {
uint16 cntr;
cntr = USB_BASE->CNTR;
cntr &= ~USB_CNTR_LP_MODE;
USB_BASE->CNTR = cntr;
/* Enable interrupt lines */
USB_BASE->CNTR = USB_ISR_MSK;
}
static void usb_resume(RESUME_STATE eResumeSetVal) {
uint16 cntr;
if (eResumeSetVal != RESUME_ESOF) {
ResumeS.eState = eResumeSetVal
}
switch (ResumeS.eState) {
case RESUME_EXTERNAL:
usb_resume_init();
ResumeS.eState = RESUME_OFF;
USBLIB->state = USBLIB->prevState;
break;
case RESUME_INTERNAL:
usb_resume_init();
ResumeS.eState = RESUME_START;
break;
case RESUME_LATER:
ResumeS.bESOFcnt = 2;
ResumeS.eState = RESUME_WAIT;
break;
case RESUME_WAIT:
ResumeS.bESOFcnt--;
if (ResumeS.bESOFcnt == 0) {
ResumeS.eState = RESUME_START;
}
break;
case RESUME_START:
cntr = USB_BASE->CNTR;
cntr |= USB_CNTR_RESUME;
USB_BASE->CNTR = cntr;
ResumeS.eState = RESUME_ON;
ResumeS.bESOFcnt = 10;
break;
case RESUME_ON:
ResumeS.bESOFcnt--;
if (ResumeS.bESOFcnt == 0) {
cntr = USB_BASE->CNTR;
cntr &= ~USB_CNTR_RESUME;
USB_BASE->CNTR = cntr;
USBLIB->state = USBLIB->prevState;
ResumeS.eState = RESUME_OFF;
}
break;
case RESUME_OFF:
case RESUME_ESOF:
default:
ResumeS.eState = RESUME_OFF;
break;
}
}
#define SUSPEND_ENABLED 1
void __irq_usb_lp_can_rx0(void) {
uint16 istr = USB_BASE->ISTR;
/* Use USB_ISR_MSK to only include code for bits we care about. */
#if (USB_ISR_MSK & USB_ISTR_RESET)
if (istr & USB_ISTR_RESET & USBLIB->irq_mask) {
USB_BASE->ISTR = ~USB_ISTR_RESET;
pProperty->Reset();
}
#endif
#if (USB_ISR_MSK & USB_ISTR_PMAOVR)
if (istr & ISTR_PMAOVR & USBLIB->irq_mask) {
USB_BASE->ISTR = ~USB_ISTR_PMAOVR;
}
#endif
#if (USB_ISR_MSK & USB_ISTR_ERR)
if (istr & USB_ISTR_ERR & USBLIB->irq_mask) {
USB_BASE->ISTR = ~USB_ISTR_ERR;
}
#endif
#if (USB_ISR_MSK & USB_ISTR_WKUP)
if (istr & USB_ISTR_WKUP & USBLIB->irq_mask) {
USB_BASE->ISTR = ~USB_ISTR_WKUP;
usb_resume(RESUME_EXTERNAL);
}
#endif
#if (USB_ISR_MSK & USB_ISTR_SUSP)
if (istr & USB_ISTR_SUSP & USBLIB->irq_mask) {
/* check if SUSPEND is possible */
if (SUSPEND_ENABLED) {
usb_suspend();
} else {
/* if not possible then resume after xx ms */
usb_resume(RESUME_LATER);
}
/* clear of the ISTR bit must be done after setting of CNTR_FSUSP */
USB_BASE->ISTR = ~USB_ISTR_SUSP;
}
#endif
#if (USB_ISR_MSK & USB_ISTR_SOF)
if (istr & USB_ISTR_SOF & USBLIB->irq_mask) {
USB_BASE->ISTR = ~USB_ISTR_SOF;
}
#endif
#if (USB_ISR_MSK & USB_ISTR_ESOF)
if (istr & USB_ISTR_ESOF & USBLIB->irq_mask) {
USB_BASE->ISTR = ~USB_ISTR_ESOF;
/* resume handling timing is made with ESOFs */
usb_resume(RESUME_ESOF); /* request without change of the machine state */
}
#endif
/*
* Service the correct transfer interrupt.
*/
#if (USB_ISR_MSK & USB_ISTR_CTR)
if (istr & USB_ISTR_CTR & USBLIB->irq_mask) {
dispatch_ctr_lp();
}
#endif
}
/*
* Auxiliary routines
*/
static inline uint8 dispatch_endpt_zero(uint16 istr_dir);
static inline void dispatch_endpt(uint8 ep);
static inline void set_rx_tx_status0(uint16 rx, uint16 tx);
static void handle_setup0(void);
static void handle_in0(void);
static void handle_out0(void);
static void dispatch_ctr_lp() {
uint16 istr;
while (((istr = USB_BASE->ISTR) & USB_ISTR_CTR) != 0) {
/* TODO WTF, figure this out: RM0008 says CTR is read-only,
* but ST's firmware claims it's clear-only, and emphasizes
* the importance of clearing it in more than one place. */
USB_BASE->ISTR = ~USB_ISTR_CTR;
uint8 ep_id = istr & USB_ISTR_EP_ID;
if (ep_id == 0) {
/* TODO figure out why it's OK to break out of the loop
* once we're done serving endpoint zero, but not okay if
* there are multiple nonzero endpoint transfers to
* handle. */
if (dispatch_endpt_zero(istr & USB_ISTR_DIR)) {
return;
}
} else {
dispatch_endpt(ep_id);
}
}
}
/* FIXME Dataflow on endpoint 0 RX/TX status is based off of ST's
* code, and is ugly/confusing in its use of SaveRState/SaveTState.
* Fixing this requires filling in handle_in0(), handle_setup0(),
* handle_out0(). */
static inline uint8 dispatch_endpt_zero(uint16 istr_dir) {
uint32 epr = (uint16)USB_BASE->EP[0];
if (!(epr & (USB_EP_CTR_TX | USB_EP_SETUP | USB_EP_CTR_RX))) {
return 0;
}
/* Cache RX/TX statuses in SaveRState/SaveTState, respectively.
* The various handle_foo0() may clobber these values
* before we reset them at the end of this routine. */
SaveRState = epr & USB_EP_STAT_RX;
SaveTState = epr & USB_EP_STAT_TX;
/* Set actual RX/TX statuses to NAK while we're thinking */
set_rx_tx_status0(USB_EP_STAT_RX_NAK, USB_EP_STAT_TX_NAK);
if (istr_dir == 0) {
/* ST RM0008: "If DIR bit=0, CTR_TX bit is set in the USB_EPnR
* register related to the interrupting endpoint. The
* interrupting transaction is of IN type (data transmitted by
* the USB peripheral to the host PC)." */
ASSERT_FAULT(epr & USB_EP_CTR_TX);
usb_clear_ctr_tx(USB_EP0);
handle_in0();
} else {
/* RM0008: "If DIR bit=1, CTR_RX bit or both CTR_TX/CTR_RX
* are set in the USB_EPnR register related to the
* interrupting endpoint. The interrupting transaction is of
* OUT type (data received by the USB peripheral from the host
* PC) or two pending transactions are waiting to be
* processed."
*
* [mbolivar] Note how the following control flow (which
* replicates ST's) doesn't seem to actually handle both
* interrupts that are ostensibly pending when both CTR_RX and
* CTR_TX are set.
*
* TODO sort this mess out.
*/
if (epr & USB_EP_CTR_TX) {
usb_clear_ctr_tx(USB_EP0);
handle_in0();
} else { /* SETUP or CTR_RX */
/* SETUP is held constant while CTR_RX is set, so clear it
* either way */
usb_clear_ctr_rx(USB_EP0);
if (epr & USB_EP_SETUP) {
handle_setup0();
} else { /* CTR_RX */
handle_out0();
}
}
}
set_rx_tx_status0(SaveRState, SaveTState);
return 1;
}
static inline void dispatch_endpt(uint8 ep) {
uint32 epr = USB_BASE->EP[ep];
/* If ISTR_CTR is set and the ISTR gave us this EP_ID to handle,
* then presumably at least one of CTR_RX and CTR_TX is set, but
* again, ST's control flow allows for the possibility of neither.
*
* TODO try to find out if neither being set is possible. */
if (epr & USB_EP_CTR_RX) {
usb_clear_ctr_rx(ep);
(USBLIB->ep_int_out[ep - 1])();
}
if (epr & USB_EP_CTR_TX) {
usb_clear_ctr_tx(ep);
(USBLIB->ep_int_in[ep - 1])();
}
}
static inline void set_rx_tx_status0(uint16 rx, uint16 tx) {
usb_set_ep_rx_stat(USB_EP0, rx);
usb_set_ep_tx_stat(USB_EP0, tx);
}
/* TODO Rip out usb_lib/ dependency from the following functions: */
static void handle_setup0(void) {
Setup0_Process();
}
static void handle_in0(void) {
In0_Process();
}
static void handle_out0(void) {
Out0_Process();
}
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