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// Copyright 2020 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
# include <stddef.h>
# include <stdint.h>
# include <assert.h>
# include <string.h>
# include "hal/usbh_hal.h"
# include "hal/usbh_ll.h"
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// ------------------------------------------------ Macros and Types ---------------------------------------------------
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// ---------------------- Constants ------------------------
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# define BENDPOINTADDRESS_NUM_MSK 0x0F //Endpoint number mask of the bEndpointAddress field of an endpoint descriptor
# define BENDPOINTADDRESS_DIR_MSK 0x80 //Endpoint direction mask of the bEndpointAddress field of an endpoint descriptor
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# define CORE_REG_GSNPSID 0x4F54400A
# define CORE_REG_GHWCFG1 0x00000000
# define CORE_REG_GHWCFG2 0x224DD930
# define CORE_REG_GHWCFG3 0x00C804B5
# define CORE_REG_GHWCFG4 0xD3F0A030
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// -------------------- Configurable -----------------------
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/**
* The following core interrupts will be enabled ( listed LSB to MSB ) . Some of these
* interrupts are enabled later than others .
* - USB_LL_INTR_CORE_PRTINT
* - USB_LL_INTR_CORE_HCHINT
* - USB_LL_INTR_CORE_DISCONNINT
* The following PORT interrupts cannot be masked , listed LSB to MSB
* - USBH_LL_INTR_HPRT_PRTCONNDET
* - USBH_LL_INTR_HPRT_PRTENCHNG
* - USBH_LL_INTR_HPRT_PRTOVRCURRCHNG
*/
# define CORE_INTRS_EN_MSK (USB_LL_INTR_CORE_DISCONNINT)
//Interrupts that pertain to core events
# define CORE_EVENTS_INTRS_MSK (USB_LL_INTR_CORE_DISCONNINT | \
USB_LL_INTR_CORE_HCHINT )
//Interrupt that pertain to host port events
# define PORT_EVENTS_INTRS_MSK (USBH_LL_INTR_HPRT_PRTCONNDET | \
USBH_LL_INTR_HPRT_PRTENCHNG | \
USBH_LL_INTR_HPRT_PRTOVRCURRCHNG )
/**
* The following channel interrupt bits are currently checked ( in order LSB to MSB )
* - USBH_LL_INTR_CHAN_XFERCOMPL
* - USBH_LL_INTR_CHAN_CHHLTD
* - USBH_LL_INTR_CHAN_STALL
* - USBH_LL_INTR_CHAN_BBLEER
* - USBH_LL_INTR_CHAN_BNAINTR
* - USBH_LL_INTR_CHAN_XCS_XACT_ERR
*
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* Note the following points about channel interrupts :
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* - Not all bits are unmaskable under scatter / gather
* - Those bits proxy their interrupt through the USBH_LL_INTR_CHAN_CHHLTD bit
* - USBH_LL_INTR_CHAN_XCS_XACT_ERR is always unmasked
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* - When USBH_LL_INTR_CHAN_BNAINTR occurs , USBH_LL_INTR_CHAN_CHHLTD will NOT .
* - USBH_LL_INTR_CHAN_AHBERR doesn ' t actually ever happen on our system ) i . e . , ESP32S2 and later ) :
* - If the QTD list ' s starting address is an invalid address ( e . g . , NULL ) , the core will attempt to fetch that
* address for a transfer descriptor and probably gets all zeroes . It will interpret the zero as a bad QTD and
* return a USBH_LL_INTR_CHAN_BNAINTR instead .
* - If the QTD ' s buffer pointer is an invalid address , the core will attempt to read / write data to / from that
* invalid buffer address with NO INDICATION OF ERROR . The transfer will be acknowledged and treated as
* successful . Bad buffer pointers MUST BE CHECKED FROM HIGHER LAYERS INSTEAD .
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*/
# define CHAN_INTRS_EN_MSK (USBH_LL_INTR_CHAN_XFERCOMPL | \
USBH_LL_INTR_CHAN_CHHLTD | \
USBH_LL_INTR_CHAN_BNAINTR )
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# define CHAN_INTRS_ERROR_MSK (USBH_LL_INTR_CHAN_STALL | \
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USBH_LL_INTR_CHAN_BBLEER | \
USBH_LL_INTR_CHAN_BNAINTR | \
USBH_LL_INTR_CHAN_XCS_XACT_ERR )
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// -------------------------------------------------- Core (Global) ----------------------------------------------------
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static void set_defaults ( usbh_hal_context_t * hal )
{
usbh_ll_internal_phy_conf ( hal - > wrap_dev ) ; //Enable and configure internal PHY
//GAHBCFG register
usb_ll_en_dma_mode ( hal - > dev ) ;
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usb_ll_set_hbstlen ( hal - > dev , 1 ) ; //Use INCR AHB burst. MUST DO SO IN ESP32-S2 DUE TO ARBITER ERRATA.
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//GUSBCFG register
usb_ll_dis_hnp_cap ( hal - > dev ) ; //Disable HNP
usb_ll_dis_srp_cap ( hal - > dev ) ; //Disable SRP
//Enable interruts
usb_ll_dis_intrs ( hal - > dev , 0xFFFFFFFF ) ; //Mask all interrupts first
usb_ll_en_intrs ( hal - > dev , CORE_INTRS_EN_MSK ) ; //Unmask global interrupts
usb_ll_intr_read_and_clear ( hal - > dev ) ; //Clear interrupts
usb_ll_en_global_intr ( hal - > dev ) ; //Enable interrupt signal
//Enable host mode
usb_ll_set_host_mode ( hal - > dev ) ;
}
void usbh_hal_init ( usbh_hal_context_t * hal )
{
//Check if a peripheral is alive by reading the core ID registers
usbh_dev_t * dev = & USBH ;
uint32_t core_id = usb_ll_get_controller_core_id ( dev ) ;
assert ( core_id = = CORE_REG_GSNPSID ) ;
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( void ) core_id ; //Suppress unused variable warning if asserts are disabled
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//Initialize HAL context
memset ( hal , 0 , sizeof ( usbh_hal_context_t ) ) ;
hal - > dev = dev ;
hal - > wrap_dev = & USB_WRAP ;
set_defaults ( hal ) ;
}
void usbh_hal_deinit ( usbh_hal_context_t * hal )
{
//Disable and clear global interrupt
usb_ll_dis_intrs ( hal - > dev , 0xFFFFFFFF ) ; //Disable all interrupts
usb_ll_intr_read_and_clear ( hal - > dev ) ; //Clear interrupts
usb_ll_dis_global_intr ( hal - > dev ) ; //Disable interrupt signal
hal - > dev = NULL ;
hal - > wrap_dev = NULL ;
}
void usbh_hal_core_soft_reset ( usbh_hal_context_t * hal )
{
usb_ll_core_soft_reset ( hal - > dev ) ;
while ( usb_ll_check_core_soft_reset ( hal - > dev ) ) {
; //Wait until core reset is done
}
while ( ! usb_ll_check_ahb_idle ( hal - > dev ) ) {
; //Wait until AHB Master bus is idle before doing any other operations
}
//Set the default bits
set_defaults ( hal ) ;
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//Clear all the flags and channels
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hal - > periodic_frame_list = NULL ;
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hal - > flags . val = 0 ;
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hal - > channels . num_allocd = 0 ;
hal - > channels . chan_pend_intrs_msk = 0 ;
memset ( hal - > channels . hdls , 0 , sizeof ( usbh_hal_chan_t * ) * USBH_HAL_NUM_CHAN ) ;
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}
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void usbh_hal_set_fifo_size ( usbh_hal_context_t * hal , const usbh_hal_fifo_config_t * fifo_config )
{
assert ( ( fifo_config - > rx_fifo_lines + fifo_config - > nptx_fifo_lines + fifo_config - > ptx_fifo_lines ) < = USBH_HAL_FIFO_TOTAL_USABLE_LINES ) ;
//Check that none of the channels are active
for ( int i = 0 ; i < USBH_HAL_NUM_CHAN ; i + + ) {
if ( hal - > channels . hdls [ i ] ! = NULL ) {
assert ( ! hal - > channels . hdls [ i ] - > flags . active ) ;
}
}
//Set the new FIFO lengths
usb_ll_set_rx_fifo_size ( hal - > dev , fifo_config - > rx_fifo_lines ) ;
usb_ll_set_nptx_fifo_size ( hal - > dev , fifo_config - > rx_fifo_lines , fifo_config - > nptx_fifo_lines ) ;
usbh_ll_set_ptx_fifo_size ( hal - > dev , fifo_config - > rx_fifo_lines + fifo_config - > nptx_fifo_lines , fifo_config - > ptx_fifo_lines ) ;
//Flush the FIFOs
usb_ll_flush_nptx_fifo ( hal - > dev ) ;
usb_ll_flush_ptx_fifo ( hal - > dev ) ;
usb_ll_flush_rx_fifo ( hal - > dev ) ;
hal - > flags . fifo_sizes_set = 1 ;
}
// ---------------------------------------------------- Host Port ------------------------------------------------------
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static inline void debounce_lock_enable ( usbh_hal_context_t * hal )
{
//Disable the hprt (connection) and disconnection interrupts to prevent repeated triggerings
usb_ll_dis_intrs ( hal - > dev , USB_LL_INTR_CORE_PRTINT | USB_LL_INTR_CORE_DISCONNINT ) ;
hal - > flags . dbnc_lock_enabled = 1 ;
}
void usbh_hal_port_enable ( usbh_hal_context_t * hal )
{
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usb_priv_speed_t speed = usbh_ll_hprt_get_speed ( hal - > dev ) ;
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//Host Configuration
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usbh_ll_hcfg_set_defaults ( hal - > dev , speed ) ;
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//Configure HFIR
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usbh_ll_hfir_set_defaults ( hal - > dev , speed ) ;
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}
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// ----------------------------------------------------- Channel -------------------------------------------------------
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// ----------------- Channel Allocation --------------------
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bool usbh_hal_chan_alloc ( usbh_hal_context_t * hal , usbh_hal_chan_t * chan_obj , void * chan_ctx )
{
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assert ( hal - > flags . fifo_sizes_set ) ; //FIFO sizes should be set befor attempting to allocate a channel
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//Attempt to allocate channel
if ( hal - > channels . num_allocd = = USBH_HAL_NUM_CHAN ) {
return false ; //Out of free channels
}
int chan_idx = - 1 ;
for ( int i = 0 ; i < USBH_HAL_NUM_CHAN ; i + + ) {
if ( hal - > channels . hdls [ i ] = = NULL ) {
hal - > channels . hdls [ i ] = chan_obj ;
chan_idx = i ;
hal - > channels . num_allocd + + ;
break ;
}
}
assert ( chan_idx ! = - 1 ) ;
//Initialize channel object
memset ( chan_obj , 0 , sizeof ( usbh_hal_chan_t ) ) ;
chan_obj - > flags . chan_idx = chan_idx ;
chan_obj - > regs = usbh_ll_get_chan_regs ( hal - > dev , chan_idx ) ;
chan_obj - > chan_ctx = chan_ctx ;
//Note: EP characteristics configured separately
//Clean and unmask the channel's interrupt
usbh_ll_chan_intr_read_and_clear ( chan_obj - > regs ) ; //Clear the interrupt bits for that channel
usbh_ll_haintmsk_en_chan_intr ( hal - > dev , 1 < < chan_obj - > flags . chan_idx ) ;
usbh_ll_chan_set_intr_mask ( chan_obj - > regs , CHAN_INTRS_EN_MSK ) ; //Unmask interrupts for this channel
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usbh_ll_chan_set_pid ( chan_obj - > regs , 0 ) ; //Set the initial PID to zero
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usbh_ll_chan_hctsiz_init ( chan_obj - > regs ) ; //Set the non changing parts of the HCTSIZ registers (e.g., do_ping and sched info)
return true ;
}
void usbh_hal_chan_free ( usbh_hal_context_t * hal , usbh_hal_chan_t * chan_obj )
{
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if ( chan_obj - > type = = USB_PRIV_XFER_TYPE_INTR | | chan_obj - > type = = USB_PRIV_XFER_TYPE_ISOCHRONOUS ) {
//Unschedule this channel
for ( int i = 0 ; i < hal - > frame_list_len ; i + + ) {
hal - > periodic_frame_list [ i ] & = ~ ( 1 < < chan_obj - > flags . chan_idx ) ;
}
}
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//Can only free a channel when in the disabled state and descriptor list released
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assert ( ! chan_obj - > flags . active & & ! chan_obj - > flags . error_pending ) ;
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//Deallocate channel
hal - > channels . hdls [ chan_obj - > flags . chan_idx ] = NULL ;
hal - > channels . num_allocd - - ;
assert ( hal - > channels . num_allocd > = 0 ) ;
}
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// ---------------- Channel Configuration ------------------
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void usbh_hal_chan_set_ep_char ( usbh_hal_context_t * hal , usbh_hal_chan_t * chan_obj , usbh_hal_ep_char_t * ep_char )
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{
//Cannot change ep_char whilst channel is still active or in error
assert ( ! chan_obj - > flags . active & & ! chan_obj - > flags . error_pending ) ;
//Set the endpoint characteristics of the pipe
usbh_ll_chan_hcchar_init ( chan_obj - > regs ,
ep_char - > dev_addr ,
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ep_char - > bEndpointAddress & BENDPOINTADDRESS_NUM_MSK ,
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ep_char - > mps ,
ep_char - > type ,
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ep_char - > bEndpointAddress & BENDPOINTADDRESS_DIR_MSK ,
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ep_char - > ls_via_fs_hub ) ;
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//Save channel type
chan_obj - > type = ep_char - > type ;
//If this is a periodic endpoint/channel, set its schedule in the frame list
if ( ep_char - > type = = USB_PRIV_XFER_TYPE_ISOCHRONOUS | | ep_char - > type = = USB_PRIV_XFER_TYPE_INTR ) {
assert ( ( int ) ep_char - > periodic . interval < = ( int ) hal - > frame_list_len ) ; //Interval cannot exceed the length of the frame list
//Find the effective offset in the frame list (in case the phase_offset_frames > interval)
int offset = ep_char - > periodic . phase_offset_frames % ep_char - > periodic . interval ;
//Schedule the channel in the frame list
for ( int i = offset ; i < hal - > frame_list_len ; i + = ep_char - > periodic . interval ) {
hal - > periodic_frame_list [ i ] | = 1 < < chan_obj - > flags . chan_idx ;
}
}
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}
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// ------------------- Channel Control ---------------------
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void usbh_hal_chan_activate ( usbh_hal_chan_t * chan_obj , void * xfer_desc_list , int desc_list_len , int start_idx )
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{
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//Cannot activate a channel that has already been enabled or is pending error handling
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assert ( ! chan_obj - > flags . active & & ! chan_obj - > flags . error_pending ) ;
//Set start address of the QTD list and starting QTD index
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usbh_ll_chan_set_dma_addr_non_iso ( chan_obj - > regs , xfer_desc_list , start_idx ) ;
usbh_ll_chan_set_qtd_list_len ( chan_obj - > regs , desc_list_len ) ;
usbh_ll_chan_start ( chan_obj - > regs ) ; //Start the channel
chan_obj - > flags . active = 1 ;
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}
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bool usbh_hal_chan_request_halt ( usbh_hal_chan_t * chan_obj )
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{
//Cannot request halt on a channel that is pending error handling
assert ( ! chan_obj - > flags . error_pending ) ;
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if ( usbh_ll_chan_is_active ( chan_obj - > regs ) | | chan_obj - > flags . active ) {
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usbh_ll_chan_halt ( chan_obj - > regs ) ;
chan_obj - > flags . halt_requested = 1 ;
return false ;
}
return true ;
}
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// ------------------------------------------------- Event Handling ----------------------------------------------------
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//When a device on the port is no longer valid (e.g., disconnect, port error). All channels are no longer valid
static void chan_all_halt ( usbh_hal_context_t * hal )
{
for ( int i = 0 ; i < USBH_HAL_NUM_CHAN ; i + + ) {
if ( hal - > channels . hdls [ i ] ! = NULL ) {
hal - > channels . hdls [ i ] - > flags . active = 0 ;
}
}
}
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usbh_hal_port_event_t usbh_hal_decode_intr ( usbh_hal_context_t * hal )
{
uint32_t intrs_core = usb_ll_intr_read_and_clear ( hal - > dev ) ; //Read and clear core interrupts
uint32_t intrs_port = 0 ;
if ( intrs_core & USB_LL_INTR_CORE_PRTINT ) {
//There are host port interrupts. Read and clear those as well.
intrs_port = usbh_ll_hprt_intr_read_and_clear ( hal - > dev ) ;
}
//Note: Do not change order of checks. Regressing events (e.g. enable -> disabled, connected -> connected)
//always take precendance. ENABLED < DISABLED < CONN < DISCONN < OVRCUR
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usbh_hal_port_event_t event = USBH_HAL_PORT_EVENT_NONE ;
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//Check if this is a core or port event
if ( ( intrs_core & CORE_EVENTS_INTRS_MSK ) | | ( intrs_port & PORT_EVENTS_INTRS_MSK ) ) {
//Do not change the order of the following checks. Some events/interrupts take precedence over others
if ( intrs_core & USB_LL_INTR_CORE_DISCONNINT ) {
event = USBH_HAL_PORT_EVENT_DISCONN ;
debounce_lock_enable ( hal ) ;
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chan_all_halt ( hal ) ; //All channels are halted on a disconnect
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//Mask the port connection and disconnection interrupts to prevent repeated triggering
} else if ( intrs_port & USBH_LL_INTR_HPRT_PRTOVRCURRCHNG ) {
//Check if this is an overcurrent or an overcurrent cleared
if ( usbh_ll_hprt_get_port_overcur ( hal - > dev ) ) {
event = USBH_HAL_PORT_EVENT_OVRCUR ;
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chan_all_halt ( hal ) ; //All channels are halted on an overcurrent
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} else {
event = USBH_HAL_PORT_EVENT_OVRCUR_CLR ;
}
} else if ( intrs_port & USBH_LL_INTR_HPRT_PRTENCHNG ) {
if ( usbh_ll_hprt_get_port_en ( hal - > dev ) ) { //Host port was enabled
event = USBH_HAL_PORT_EVENT_ENABLED ;
} else { //Host port has been disabled
event = USBH_HAL_PORT_EVENT_DISABLED ;
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chan_all_halt ( hal ) ; //All channels are halted when the port is disabled
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}
} else if ( intrs_port & USBH_LL_INTR_HPRT_PRTCONNDET & & ! hal - > flags . dbnc_lock_enabled ) {
event = USBH_HAL_PORT_EVENT_CONN ;
debounce_lock_enable ( hal ) ;
}
}
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//Port events always take precendance over channel events
if ( event = = USBH_HAL_PORT_EVENT_NONE & & ( intrs_core & USB_LL_INTR_CORE_HCHINT ) ) {
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//One or more channels have pending interrupts. Store the mask of those channels
hal - > channels . chan_pend_intrs_msk = usbh_ll_get_chan_intrs_msk ( hal - > dev ) ;
event = USBH_HAL_PORT_EVENT_CHAN ;
}
return event ;
}
usbh_hal_chan_t * usbh_hal_get_chan_pending_intr ( usbh_hal_context_t * hal )
{
int chan_num = __builtin_ffs ( hal - > channels . chan_pend_intrs_msk ) ;
if ( chan_num ) {
hal - > channels . chan_pend_intrs_msk & = ~ ( 1 < < ( chan_num - 1 ) ) ; //Clear the pending bit for that channel
return hal - > channels . hdls [ chan_num - 1 ] ;
} else {
return NULL ;
}
}
usbh_hal_chan_event_t usbh_hal_chan_decode_intr ( usbh_hal_chan_t * chan_obj )
{
uint32_t chan_intrs = usbh_ll_chan_intr_read_and_clear ( chan_obj - > regs ) ;
usbh_hal_chan_event_t chan_event ;
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if ( chan_intrs & CHAN_INTRS_ERROR_MSK ) { //Note: Errors are uncommon, so we check against the entire interrupt mask to reduce frequency of entering this call path
assert ( chan_intrs & USBH_LL_INTR_CHAN_CHHLTD ) ; //An error should have halted the channel
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//Store the error in hal context
usbh_hal_chan_error_t error ;
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if ( chan_intrs & USBH_LL_INTR_CHAN_STALL ) {
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error = USBH_HAL_CHAN_ERROR_STALL ;
} else if ( chan_intrs & USBH_LL_INTR_CHAN_BBLEER ) {
error = USBH_HAL_CHAN_ERROR_PKT_BBL ;
} else if ( chan_intrs & USBH_LL_INTR_CHAN_BNAINTR ) {
error = USBH_HAL_CHAN_ERROR_BNA ;
} else { //USBH_LL_INTR_CHAN_XCS_XACT_ERR
error = USBH_HAL_CHAN_ERROR_XCS_XACT ;
}
//Update flags
chan_obj - > error = error ;
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chan_obj - > flags . active = 0 ;
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chan_obj - > flags . error_pending = 1 ;
//Save the error to be handled later
chan_event = USBH_HAL_CHAN_EVENT_ERROR ;
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} else if ( chan_intrs & USBH_LL_INTR_CHAN_CHHLTD ) {
if ( chan_obj - > flags . halt_requested ) {
chan_obj - > flags . halt_requested = 0 ;
chan_event = USBH_HAL_CHAN_EVENT_HALT_REQ ;
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} else {
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//Must have been halted due to QTD HOC
chan_event = USBH_HAL_CHAN_EVENT_CPLT ;
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}
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chan_obj - > flags . active = 0 ;
} else if ( chan_intrs & USBH_LL_INTR_CHAN_XFERCOMPL ) {
/*
A transfer complete interrupt WITHOUT the channel halting only occurs when receiving a short interrupt IN packet
and the underlying QTD does not have the HOC bit set . This signifies the last packet of the Interrupt transfer
as all interrupt packets must MPS sized except the last .
*/
//The channel isn't halted yet, so we need to halt it manually to stop the execution of the next QTD/packet
usbh_ll_chan_halt ( chan_obj - > regs ) ;
/*
After setting the halt bit , this will generate another channel halted interrupt . We treat this interrupt as
a NONE event , then cycle back with the channel halted interrupt to handle the CPLT event .
*/
chan_event = USBH_HAL_CHAN_EVENT_NONE ;
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} else {
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abort ( ) ; //Should never reach this point
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}
return chan_event ;
}