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/*
* SPDX - FileCopyrightText : 2015 - 2021 Espressif Systems ( Shanghai ) CO LTD
*
* SPDX - License - Identifier : Apache - 2.0
*/
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# include <stdint.h>
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# include <string.h>
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# include <sys/queue.h>
# include "freertos/FreeRTOS.h"
# include "freertos/task.h"
# include "freertos/semphr.h"
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# include "esp_heap_caps.h"
# include "esp_intr_alloc.h"
# include "esp_timer.h"
# include "esp_err.h"
# include "esp_rom_gpio.h"
# include "hal/usbh_hal.h"
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# include "hal/usb_types_private.h"
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# include "soc/gpio_pins.h"
# include "soc/gpio_sig_map.h"
# include "driver/periph_ctrl.h"
# include "hcd.h"
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# include "usb_private.h"
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# include "usb/usb_types_ch9.h"
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// ----------------------------------------------------- Macros --------------------------------------------------------
// --------------------- Constants -------------------------
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# define INIT_DELAY_MS 30 //A delay of at least 25ms to enter Host mode. Make it 30ms to be safe
# define DEBOUNCE_DELAY_MS 250 //A debounce delay of 250ms
# define RESET_HOLD_MS 30 //Spec requires at least 10ms. Make it 30ms to be safe
# define RESET_RECOVERY_MS 30 //Reset recovery delay of 10ms (make it 30 ms to be safe) to allow for connected device to recover (and for port enabled interrupt to occur)
# define RESUME_HOLD_MS 30 //Spec requires at least 20ms, Make it 30ms to be safe
# define RESUME_RECOVERY_MS 20 //Resume recovery of at least 10ms. Make it 20 ms to be safe. This will include the 3 LS bit times of the EOP
# define CTRL_EP_MAX_MPS_LS 8 //Largest Maximum Packet Size for Low Speed control endpoints
# define CTRL_EP_MAX_MPS_FS 64 //Largest Maximum Packet Size for Full Speed control endpoints
# define NUM_PORTS 1 //The controller only has one port.
// ----------------------- Configs -------------------------
typedef struct {
int in_mps ;
int non_periodic_out_mps ;
int periodic_out_mps ;
} fifo_mps_limits_t ;
/**
* @ brief Default FIFO sizes ( see 2.1 .2 .4 for programming guide )
*
* RXFIFO
* - Recommended : ( ( LPS / 4 ) * 2 ) + 2
* - Actual : Whatever leftover size : USBH_HAL_FIFO_TOTAL_USABLE_LINES ( 200 ) - 48 - 48 = 104
* - Worst case can accommodate two packets of 204 bytes , or one packet of 408
* NPTXFIFO
* - Recommended : ( LPS / 4 ) * 2
* - Actual : Assume LPS is 64 , and 3 packets : ( 64 / 4 ) * 3 = 48
* - Worst case can accommodate three packets of 64 bytes or one packet of 192
* PTXFIFO
* - Recommended : ( LPS / 4 ) * 2
* - Actual : Assume LPS is 64 , and 3 packets : ( 64 / 4 ) * 3 = 48
* - Worst case can accommodate three packets of 64 bytes or one packet of 192
*/
const usbh_hal_fifo_config_t fifo_config_default = {
. rx_fifo_lines = 104 ,
. nptx_fifo_lines = 48 ,
. ptx_fifo_lines = 48 ,
} ;
const fifo_mps_limits_t mps_limits_default = {
. in_mps = 408 ,
. non_periodic_out_mps = 192 ,
. periodic_out_mps = 192 ,
} ;
/**
* @ brief FIFO sizes that bias to giving RX FIFO more capacity
*
* RXFIFO
* - Recommended : ( ( LPS / 4 ) * 2 ) + 2
* - Actual : Whatever leftover size : USBH_HAL_FIFO_TOTAL_USABLE_LINES ( 200 ) - 32 - 16 = 152
* - Worst case can accommodate two packets of 300 bytes or one packet of 600 bytes
* NPTXFIFO
* - Recommended : ( LPS / 4 ) * 2
* - Actual : Assume LPS is 64 , and 1 packets : ( 64 / 4 ) * 1 = 16
* - Worst case can accommodate one packet of 64 bytes
* PTXFIFO
* - Recommended : ( LPS / 4 ) * 2
* - Actual : Assume LPS is 64 , and 3 packets : ( 64 / 4 ) * 2 = 32
* - Worst case can accommodate two packets of 64 bytes or one packet of 128
*/
const usbh_hal_fifo_config_t fifo_config_bias_rx = {
. rx_fifo_lines = 152 ,
. nptx_fifo_lines = 16 ,
. ptx_fifo_lines = 32 ,
} ;
const fifo_mps_limits_t mps_limits_bias_rx = {
. in_mps = 600 ,
. non_periodic_out_mps = 64 ,
. periodic_out_mps = 128 ,
} ;
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/**
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* @ brief FIFO sizes that bias to giving Periodic TX FIFO more capacity ( i . e . , ISOC OUT )
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*
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* RXFIFO
* - Recommended : ( ( LPS / 4 ) * 2 ) + 2
* - Actual : Assume LPS is 64 , and 2 packets : ( ( 64 / 4 ) * 2 ) + 2 = 34
* - Worst case can accommodate two packets of 64 bytes or one packet of 128
* NPTXFIFO
* - Recommended : ( LPS / 4 ) * 2
* - Actual : Assume LPS is 64 , and 1 packets : ( 64 / 4 ) * 1 = 16
* - Worst case can accommodate one packet of 64 bytes
* PTXFIFO
* - Recommended : ( LPS / 4 ) * 2
* - Actual : Whatever leftover size : USBH_HAL_FIFO_TOTAL_USABLE_LINES ( 200 ) - 34 - 16 = 150
* - Worst case can accommodate two packets of 300 bytes or one packet of 600 bytes
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*/
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const usbh_hal_fifo_config_t fifo_config_bias_ptx = {
. rx_fifo_lines = 34 ,
. nptx_fifo_lines = 16 ,
. ptx_fifo_lines = 150 ,
} ;
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const fifo_mps_limits_t mps_limits_bias_ptx = {
. in_mps = 128 ,
. non_periodic_out_mps = 64 ,
. periodic_out_mps = 600 ,
} ;
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# define FRAME_LIST_LEN USB_HAL_FRAME_LIST_LEN_32
# define NUM_BUFFERS 2
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# define XFER_LIST_LEN_CTRL 3 //One descriptor for each stage
# define XFER_LIST_LEN_BULK 2 //One descriptor for transfer, one to support an extra zero length packet
# define XFER_LIST_LEN_INTR 32
# define XFER_LIST_LEN_ISOC FRAME_LIST_LEN //Same length as the frame list makes it easier to schedule. Must be power of 2
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// ------------------------ Flags --------------------------
/**
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* @ brief Bit masks for the HCD to use in the URBs reserved_flags field
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*
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* The URB object has a reserved_flags member for host stack ' s internal use . The following flags will be set in
* reserved_flags in order to keep track of state of an URB within the HCD .
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*/
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# define URB_HCD_STATE_IDLE 0 //The URB is not enqueued in an HCD pipe
# define URB_HCD_STATE_PENDING 1 //The URB is enqueued and pending execution
# define URB_HCD_STATE_INFLIGHT 2 //The URB is currently in flight
# define URB_HCD_STATE_DONE 3 //The URB has completed execution or is retired, and is waiting to be dequeued
# define URB_HCD_STATE_SET(reserved_flags, state) (reserved_flags = (reserved_flags & ~URB_HCD_STATE_MASK) | state)
# define URB_HCD_STATE_GET(reserved_flags) (reserved_flags & URB_HCD_STATE_MASK)
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// -------------------- Convenience ------------------------
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# define HCD_ENTER_CRITICAL_ISR() portENTER_CRITICAL_ISR(&hcd_lock)
# define HCD_EXIT_CRITICAL_ISR() portEXIT_CRITICAL_ISR(&hcd_lock)
# define HCD_ENTER_CRITICAL() portENTER_CRITICAL(&hcd_lock)
# define HCD_EXIT_CRITICAL() portEXIT_CRITICAL(&hcd_lock)
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# define HCD_CHECK(cond, ret_val) ({ \
if ( ! ( cond ) ) { \
return ( ret_val ) ; \
} \
} )
# define HCD_CHECK_FROM_CRIT(cond, ret_val) ({ \
if ( ! ( cond ) ) { \
HCD_EXIT_CRITICAL ( ) ; \
return ret_val ; \
} \
} )
// ------------------------------------------------------ Types --------------------------------------------------------
typedef struct pipe_obj pipe_t ;
typedef struct port_obj port_t ;
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/**
* @ brief Object representing a single buffer of a pipe ' s multi buffer implementation
*/
typedef struct {
void * xfer_desc_list ;
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urb_t * urb ;
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union {
struct {
uint32_t data_stg_in : 1 ; //Data stage of the control transfer is IN
uint32_t data_stg_skip : 1 ; //Control transfer has no data stage
uint32_t cur_stg : 2 ; //Index of the current stage (e.g., 0 is setup stage, 2 is status stage)
uint32_t reserved28 : 28 ;
} ctrl ; //Control transfer related
struct {
uint32_t zero_len_packet : 1 ; //Bulk transfer should add a zero length packet at the end regardless
uint32_t reserved31 : 31 ;
} bulk ; //Bulk transfer related
struct {
uint32_t num_qtds : 8 ; //Number of transfer descriptors filled
uint32_t reserved24 : 24 ;
} intr ; //Interrupt transfer related
struct {
uint32_t num_qtds : 8 ; //Number of transfer descriptors filled (including NULL descriptors)
uint32_t interval : 8 ; //Interval (in number of SOF i.e., ms)
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uint32_t start_idx : 8 ; //Index of the first transfer descriptor in the list
uint32_t next_start_idx : 8 ; //Index for the first descriptor of the next buffer
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} isoc ;
uint32_t val ;
} flags ;
union {
struct {
uint32_t executing : 1 ; //The buffer is currently executing
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uint32_t was_canceled : 1 ; //Buffer was done due to a cancellation (i.e., a halt request)
uint32_t reserved6 : 6 ;
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uint32_t stop_idx : 8 ; //The descriptor index when the channel was halted
hcd_pipe_event_t pipe_event : 8 ; //The pipe event when the buffer was done
uint32_t reserved8 : 8 ;
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} ;
uint32_t val ;
} status_flags ; //Status flags for the buffer
} dma_buffer_block_t ;
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/**
* @ brief Object representing a pipe in the HCD layer
*/
struct pipe_obj {
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//URB queueing related
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TAILQ_HEAD ( tailhead_urb_pending , urb_s ) pending_urb_tailq ;
TAILQ_HEAD ( tailhead_urb_done , urb_s ) done_urb_tailq ;
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int num_urb_pending ;
int num_urb_done ;
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//Multi-buffer control
dma_buffer_block_t * buffers [ NUM_BUFFERS ] ; //Double buffering scheme
union {
struct {
uint32_t buffer_num_to_fill : 2 ; //Number of buffers that can be filled
uint32_t buffer_num_to_exec : 2 ; //Number of buffers that are filled and need to be executed
uint32_t buffer_num_to_parse : 2 ; //Number of buffers completed execution and waiting to be parsed
uint32_t reserved2 : 2 ;
uint32_t wr_idx : 1 ; //Index of the next buffer to fill. Bit width must allow NUM_BUFFERS to wrap automatically
uint32_t rd_idx : 1 ; //Index of the current buffer in-flight. Bit width must allow NUM_BUFFERS to wrap automatically
uint32_t fr_idx : 1 ; //Index of the next buffer to parse. Bit width must allow NUM_BUFFERS to wrap automatically
uint32_t buffer_is_executing : 1 ; //One of the buffers is in flight
uint32_t reserved20 : 20 ;
} ;
uint32_t val ;
} multi_buffer_control ;
//HAL related
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usbh_hal_chan_t * chan_obj ;
usbh_hal_ep_char_t ep_char ;
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//Port related
port_t * port ; //The port to which this pipe is routed through
TAILQ_ENTRY ( pipe_obj ) tailq_entry ; //TailQ entry for port's list of pipes
//Pipe status/state/events related
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hcd_pipe_state_t state ;
hcd_pipe_event_t last_event ;
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volatile TaskHandle_t task_waiting_pipe_notif ; //Task handle used for internal pipe events. Set by waiter, cleared by notifier
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union {
struct {
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uint32_t waiting_halt : 1 ;
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uint32_t pipe_cmd_processing : 1 ;
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uint32_t has_urb : 1 ; //Indicates there is at least one URB either pending, inflight, or done
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uint32_t persist : 1 ; //indicates that this pipe should persist through a run-time port reset
uint32_t reset_lock : 1 ; //Indicates that this pipe is undergoing a run-time reset
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uint32_t reserved27 : 27 ;
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} ;
uint32_t val ;
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} cs_flags ;
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//Pipe callback and context
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hcd_pipe_callback_t callback ;
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void * callback_arg ;
void * context ;
} ;
/**
* @ brief Object representing a port in the HCD layer
*/
struct port_obj {
usbh_hal_context_t * hal ;
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void * frame_list ;
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//Pipes routed through this port
TAILQ_HEAD ( tailhead_pipes_idle , pipe_obj ) pipes_idle_tailq ;
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TAILQ_HEAD ( tailhead_pipes_queued , pipe_obj ) pipes_active_tailq ;
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int num_pipes_idle ;
int num_pipes_queued ;
//Port status, state, and events
hcd_port_state_t state ;
usb_speed_t speed ;
hcd_port_event_t last_event ;
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volatile TaskHandle_t task_waiting_port_notif ; //Task handle used for internal port events. Set by waiter, cleared by notifier
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union {
struct {
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uint32_t event_pending : 1 ; //The port has an event that needs to be handled
uint32_t event_processing : 1 ; //The port is current processing (handling) an event
uint32_t cmd_processing : 1 ; //Used to indicate command handling is ongoing
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uint32_t disable_requested : 1 ;
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uint32_t conn_dev_ena : 1 ; //Used to indicate the port is connected to a device that has been reset
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uint32_t periodic_scheduling_enabled : 1 ;
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uint32_t reserved26 : 26 ;
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} ;
uint32_t val ;
} flags ;
bool initialized ;
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//FIFO biasing related
const usbh_hal_fifo_config_t * fifo_config ;
const fifo_mps_limits_t * fifo_mps_limits ;
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//Port callback and context
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hcd_port_callback_t callback ;
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void * callback_arg ;
SemaphoreHandle_t port_mux ;
void * context ;
} ;
/**
* @ brief Object representing the HCD
*/
typedef struct {
//Ports (Hardware only has one)
port_t * port_obj ;
intr_handle_t isr_hdl ;
} hcd_obj_t ;
static portMUX_TYPE hcd_lock = portMUX_INITIALIZER_UNLOCKED ;
static hcd_obj_t * s_hcd_obj = NULL ; //Note: "s_" is for the static pointer
// ------------------------------------------------- Forward Declare ---------------------------------------------------
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// ------------------- Buffer Control ----------------------
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/**
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* @ brief Check if an inactive buffer can be filled with a pending URB
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*
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* @ param pipe Pipe object
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* @ return true There are one or more pending URBs , and the inactive buffer is yet to be filled
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* @ return false Otherwise
*/
static inline bool _buffer_can_fill ( pipe_t * pipe )
{
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//We can only fill if there are pending URBs and at least one unfilled buffer
if ( pipe - > num_urb_pending > 0 & & pipe - > multi_buffer_control . buffer_num_to_fill > 0 ) {
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return true ;
} else {
return false ;
}
}
/**
* @ brief Fill an empty buffer with
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*
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* This function will :
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* - Remove an URB from the pending tailq
* - Fill that URB into the inactive buffer
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*
* @ note _buffer_can_fill ( ) must return true before calling this function
*
* @ param pipe Pipe object
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*/
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static void _buffer_fill ( pipe_t * pipe ) ;
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/**
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* @ brief Check if there are more filled buffers than can be executed
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*
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* @ param pipe Pipe object
* @ return true There are more filled buffers to be executed
* @ return false No more buffers to execute
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*/
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static inline bool _buffer_can_exec ( pipe_t * pipe )
{
//We can only execute if there is not already a buffer executing and if there are filled buffers awaiting execution
if ( ! pipe - > multi_buffer_control . buffer_is_executing & & pipe - > multi_buffer_control . buffer_num_to_exec > 0 ) {
return true ;
} else {
return false ;
}
}
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/**
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* @ brief Execute the next filled buffer
*
* - Must have called _buffer_can_exec ( ) before calling this function
* - Will start the execution of the buffer
*
* @ param pipe Pipe object
*/
static void _buffer_exec ( pipe_t * pipe ) ;
/**
* @ brief Check if a buffer as completed execution
*
* This should only be called after receiving a USBH_HAL_CHAN_EVENT_CPLT event to check if a buffer is actually
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* done .
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*
* @ param pipe Pipe object
* @ return true Buffer complete
* @ return false Buffer not complete
*/
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static inline bool _buffer_check_done ( pipe_t * pipe )
{
if ( pipe - > ep_char . type ! = USB_PRIV_XFER_TYPE_CTRL ) {
return true ;
}
//Only control transfers need to be continued
dma_buffer_block_t * buffer_inflight = pipe - > buffers [ pipe - > multi_buffer_control . rd_idx ] ;
return ( buffer_inflight - > flags . ctrl . cur_stg = = 2 ) ;
}
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/**
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* @ brief Continue execution of a buffer
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*
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* This should only be called after checking if a buffer has completed execution using _buffer_check_done ( )
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*
* @ param pipe Pipe object
*/
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static void _buffer_exec_cont ( pipe_t * pipe ) ;
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/**
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* @ brief Marks the last executed buffer as complete
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*
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* This should be called on a pipe that has confirmed that a buffer is completed via _buffer_check_done ( )
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*
* @ param pipe Pipe object
* @ param stop_idx Descriptor index when the buffer stopped execution
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* @ param pipe_event Pipe event that caused the buffer to be complete . Use HCD_PIPE_EVENT_NONE for halt request of disconnections
* @ param canceled Whether the buffer was done due to a canceled ( i . e . , halt request ) . Must set pipe_event to HCD_PIPE_EVENT_NONE
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*/
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static inline void _buffer_done ( pipe_t * pipe , int stop_idx , hcd_pipe_event_t pipe_event , bool canceled )
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{
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//Store the stop_idx and pipe_event for later parsing
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dma_buffer_block_t * buffer_done = pipe - > buffers [ pipe - > multi_buffer_control . rd_idx ] ;
buffer_done - > status_flags . executing = 0 ;
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buffer_done - > status_flags . was_canceled = canceled ;
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buffer_done - > status_flags . stop_idx = stop_idx ;
buffer_done - > status_flags . pipe_event = pipe_event ;
pipe - > multi_buffer_control . rd_idx + + ;
pipe - > multi_buffer_control . buffer_num_to_exec - - ;
pipe - > multi_buffer_control . buffer_num_to_parse + + ;
pipe - > multi_buffer_control . buffer_is_executing = 0 ;
}
/**
* @ brief Checks if a pipe has one or more completed buffers to parse
*
* @ param pipe Pipe object
* @ return true There are one or more buffers to parse
* @ return false There are no more buffers to parse
*/
static inline bool _buffer_can_parse ( pipe_t * pipe )
{
if ( pipe - > multi_buffer_control . buffer_num_to_parse > 0 ) {
return true ;
} else {
return false ;
}
}
/**
* @ brief Parse a completed buffer
*
* This function will :
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* - Parse the results of an URB from a completed buffer
* - Put the URB into the done tailq
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*
* @ note This function should only be called on the completion of a buffer
*
* @ param pipe Pipe object
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* @ param stop_idx ( For INTR pipes only ) The index of the descriptor that follows the last descriptor of the URB . Set to 0 otherwise
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*/
static void _buffer_parse ( pipe_t * pipe ) ;
/**
* @ brief Marks all buffers pending execution as completed , then parses those buffers
*
* @ note This should only be called on pipes do not have any currently executing buffers .
*
* @ param pipe Pipe object
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* @ param canceled Whether this flush is due to cancellation
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* @ return true One or more buffers were flushed
* @ return false There were no buffers that needed to be flushed
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*/
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static bool _buffer_flush_all ( pipe_t * pipe , bool canceled ) ;
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// ------------------------ Pipe ---------------------------
/**
* @ brief Decode a HAL channel error to the corresponding pipe event
*
* @ param chan_error The HAL channel error
* @ return hcd_pipe_event_t The corresponding pipe error event
*/
static inline hcd_pipe_event_t pipe_decode_error_event ( usbh_hal_chan_error_t chan_error ) ;
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/**
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* @ brief Halt a pipe
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*
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* - Attempts to halt a pipe . Pipe must be active in order to be halted
* - If the underlying channel has an ongoing transfer , a halt will be requested , then the function will block until the
* channel indicates it is halted
* - If the channel is no on - going transfer , the pipe will simply be marked has halted ( thus preventing any further URBs
* from being enqueued )
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*
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* @ note This function can block
* @ param pipe Pipe object
* @ return esp_err_t
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*/
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static esp_err_t _pipe_cmd_halt ( pipe_t * pipe ) ;
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/**
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* @ brief Flush a pipe
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*
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* - Flushing a pipe causes all of its pending URBs to be become done , thus allowing them to be dequeued
* - The pipe must be halted in order to be flushed
* - The pipe callback will be run if one or more URBs become done
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*
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* @ param pipe Pipe object
* @ return esp_err_t
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*/
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static esp_err_t _pipe_cmd_flush ( pipe_t * pipe ) ;
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/**
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* @ brief Clear a pipe from its halt
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*
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* - Pipe must be halted in order to be cleared
* - Clearing a pipe makes it active again
* - If there are any enqueued URBs , they will executed
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*
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* @ param pipe Pipe object
* @ return esp_err_t
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*/
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static esp_err_t _pipe_cmd_clear ( pipe_t * pipe ) ;
// ------------------------ Port ---------------------------
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/**
* @ brief Prepare persistent pipes for reset
*
* This function checks if all pipes are reset persistent and proceeds to free their underlying HAL channels for the
* persistent pipes . This should be called before a run time reset
*
* @ param port Port object
* @ return true All pipes are persistent and their channels are freed
* @ return false Not all pipes are persistent
*/
static bool _port_persist_all_pipes ( port_t * port ) ;
/**
* @ brief Recovers all persistent pipes after a reset
*
* This function will recover all persistent pipes after a reset and reallocate their underlying HAl channels . This
* function should be called after a reset .
*
* @ param port Port object
*/
static void _port_recover_all_pipes ( port_t * port ) ;
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/**
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* @ brief Checks if all pipes are in the halted state
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*
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* @ param port Port object
* @ return true All pipes are halted
* @ return false Not all pipes are halted
*/
static bool _port_check_all_pipes_halted ( port_t * port ) ;
/**
* @ brief Debounce port after a connection or disconnection event
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*
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* This function should be called after a port connection or disconnect event . This function will execute a debounce
* delay then check the actual connection / disconnections state .
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*
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* @ note This function can block
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* @ param port Port object
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* @ return true A device is connected
* @ return false No device connected
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*/
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static bool _port_debounce ( port_t * port ) ;
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/**
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* @ brief Power ON the port
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*
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* @ param port Port object
* @ return esp_err_t
*/
static esp_err_t _port_cmd_power_on ( port_t * port ) ;
/**
* @ brief Power OFF the port
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*
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* - If a device is currently connected , this function will cause a disconnect event
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*
* @ param port Port object
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* @ return esp_err_t
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*/
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static esp_err_t _port_cmd_power_off ( port_t * port ) ;
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/**
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* @ brief Reset the port
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*
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* - This function issues a reset signal using the timings specified by the USB2 .0 spec
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*
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* @ note This function can block
* @ param port Port object
* @ return esp_err_t
*/
static esp_err_t _port_cmd_reset ( port_t * port ) ;
/**
* @ brief Suspend the port
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*
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* - Port must be enabled in order to to be suspended
* - All pipes must be halted for the port to be suspended
* - Suspending the port stops Keep Alive / SOF from being sent to the connected device
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*
* @ param port Port object
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* @ return esp_err_t
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*/
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static esp_err_t _port_cmd_bus_suspend ( port_t * port ) ;
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/**
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* @ brief Resume the port
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*
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* - Port must be suspended in order to be resumed
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*
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* @ note This function can block
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* @ param port Port object
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* @ return esp_err_t
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*/
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static esp_err_t _port_cmd_bus_resume ( port_t * port ) ;
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/**
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* @ brief Disable the port
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*
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* - All pipes must be halted for the port to be disabled
* - The port must be enabled or suspended in order to be disabled
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*
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* @ note This function can block
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* @ param port Port object
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* @ return esp_err_t
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*/
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static esp_err_t _port_cmd_disable ( port_t * port ) ;
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// ----------------------- Events --------------------------
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/**
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* @ brief Wait for an internal event from a port
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*
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* @ note For each port , there can only be one thread / task waiting for an internal port event
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* @ note This function is blocking ( will exit and re - enter the critical section to do so )
*
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* @ param port Port object
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*/
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static void _internal_port_event_wait ( port_t * port ) ;
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/**
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* @ brief Notify ( from an ISR context ) the thread / task waiting for the internal port event
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*
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* @ param port Port object
* @ return true A yield is required
* @ return false Whether a yield is required or not
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*/
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static bool _internal_port_event_notify_from_isr ( port_t * port ) ;
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/**
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* @ brief Wait for an internal event from a particular pipe
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*
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* @ note For each pipe , there can only be one thread / task waiting for an internal port event
* @ note This function is blocking ( will exit and re - enter the critical section to do so )
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*
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* @ param pipe Pipe object
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*/
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static void _internal_pipe_event_wait ( pipe_t * pipe ) ;
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/**
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* @ brief Notify ( from an ISR context ) the thread / task waiting for an internal pipe event
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*
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* @ param pipe Pipe object
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* @ param from_isr Whether this is called from an ISR or not
* @ return true A yield is required
* @ return false Whether a yield is required or not . Always false when from_isr is also false
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*/
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static bool _internal_pipe_event_notify ( pipe_t * pipe , bool from_isr ) ;
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// ----------------------------------------------- Interrupt Handling --------------------------------------------------
// ------------------- Internal Event ----------------------
static void _internal_port_event_wait ( port_t * port )
{
//There must NOT be another thread/task already waiting for an internal event
assert ( port - > task_waiting_port_notif = = NULL ) ;
port - > task_waiting_port_notif = xTaskGetCurrentTaskHandle ( ) ;
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/* We need to loop as task notifications can come from anywhere. If we this
was a port event notification , task_waiting_port_notif will have been cleared
by the notifier . */
while ( port - > task_waiting_port_notif ! = NULL ) {
HCD_EXIT_CRITICAL ( ) ;
//Wait to be notified from ISR
ulTaskNotifyTake ( pdTRUE , portMAX_DELAY ) ;
HCD_ENTER_CRITICAL ( ) ;
}
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}
static bool _internal_port_event_notify_from_isr ( port_t * port )
{
//There must be a thread/task waiting for an internal event
assert ( port - > task_waiting_port_notif ! = NULL ) ;
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TaskHandle_t task_to_unblock = port - > task_waiting_port_notif ;
//Clear task_waiting_port_notif to indicate to the waiter that the unblock was indeed an port event notification
port - > task_waiting_port_notif = NULL ;
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//Unblock the thread/task waiting for the notification
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BaseType_t xTaskWoken = pdFALSE ;
//Note: We don't exit the critical section to be atomic. vTaskNotifyGiveFromISR() doesn't block anyways
vTaskNotifyGiveFromISR ( task_to_unblock , & xTaskWoken ) ;
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return ( xTaskWoken = = pdTRUE ) ;
}
static void _internal_pipe_event_wait ( pipe_t * pipe )
{
//There must NOT be another thread/task already waiting for an internal event
assert ( pipe - > task_waiting_pipe_notif = = NULL ) ;
pipe - > task_waiting_pipe_notif = xTaskGetCurrentTaskHandle ( ) ;
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/* We need to loop as task notifications can come from anywhere. If we this
was a pipe event notification , task_waiting_pipe_notif will have been cleared
by the notifier . */
while ( pipe - > task_waiting_pipe_notif ! = NULL ) {
//Wait to be unblocked by notified
HCD_EXIT_CRITICAL ( ) ;
ulTaskNotifyTake ( pdTRUE , portMAX_DELAY ) ;
HCD_ENTER_CRITICAL ( ) ;
}
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}
static bool _internal_pipe_event_notify ( pipe_t * pipe , bool from_isr )
{
//There must be a thread/task waiting for an internal event
assert ( pipe - > task_waiting_pipe_notif ! = NULL ) ;
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TaskHandle_t task_to_unblock = pipe - > task_waiting_pipe_notif ;
//Clear task_waiting_pipe_notif to indicate to the waiter that the unblock was indeed an pipe event notification
pipe - > task_waiting_pipe_notif = NULL ;
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bool ret ;
if ( from_isr ) {
BaseType_t xTaskWoken = pdFALSE ;
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//Note: We don't exit the critical section to be atomic. vTaskNotifyGiveFromISR() doesn't block anyways
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//Unblock the thread/task waiting for the pipe notification
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vTaskNotifyGiveFromISR ( task_to_unblock , & xTaskWoken ) ;
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ret = ( xTaskWoken = = pdTRUE ) ;
} else {
HCD_EXIT_CRITICAL ( ) ;
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xTaskNotifyGive ( task_to_unblock ) ;
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HCD_ENTER_CRITICAL ( ) ;
ret = false ;
}
return ret ;
}
// ----------------- Interrupt Handlers --------------------
/**
* @ brief Handle a HAL port interrupt and obtain the corresponding port event
*
* @ param [ in ] port Port object
* @ param [ in ] hal_port_event The HAL port event
* @ param [ out ] yield Set to true if a yield is required as a result of handling the interrupt
* @ return hcd_port_event_t Returns a port event , or HCD_PORT_EVENT_NONE if no port event occurred
*/
static hcd_port_event_t _intr_hdlr_hprt ( port_t * port , usbh_hal_port_event_t hal_port_event , bool * yield )
{
hcd_port_event_t port_event = HCD_PORT_EVENT_NONE ;
switch ( hal_port_event ) {
case USBH_HAL_PORT_EVENT_CONN : {
//Don't update state immediately, we still need to debounce.
port_event = HCD_PORT_EVENT_CONNECTION ;
break ;
}
case USBH_HAL_PORT_EVENT_DISCONN : {
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port - > state = HCD_PORT_STATE_RECOVERY ;
port_event = HCD_PORT_EVENT_DISCONNECTION ;
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port - > flags . conn_dev_ena = 0 ;
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break ;
}
case USBH_HAL_PORT_EVENT_ENABLED : {
usbh_hal_port_enable ( port - > hal ) ; //Initialize remaining host port registers
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port - > speed = ( usbh_hal_port_get_conn_speed ( port - > hal ) = = USB_PRIV_SPEED_FULL ) ? USB_SPEED_FULL : USB_SPEED_LOW ;
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port - > state = HCD_PORT_STATE_ENABLED ;
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port - > flags . conn_dev_ena = 1 ;
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//This was triggered by a command, so no event needs to be propagated.
break ;
}
case USBH_HAL_PORT_EVENT_DISABLED : {
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port - > flags . conn_dev_ena = 0 ;
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//Disabled could be due to a disable request or reset request, or due to a port error
if ( port - > state ! = HCD_PORT_STATE_RESETTING ) { //Ignore the disable event if it's due to a reset request
if ( port - > flags . disable_requested ) {
//Disabled by request (i.e. by port command). Generate an internal event
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port - > state = HCD_PORT_STATE_DISABLED ;
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port - > flags . disable_requested = 0 ;
* yield | = _internal_port_event_notify_from_isr ( port ) ;
} else {
//Disabled due to a port error
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port - > state = HCD_PORT_STATE_RECOVERY ;
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port_event = HCD_PORT_EVENT_ERROR ;
}
}
break ;
}
case USBH_HAL_PORT_EVENT_OVRCUR :
case USBH_HAL_PORT_EVENT_OVRCUR_CLR : { //Could occur if a quick overcurrent then clear happens
if ( port - > state ! = HCD_PORT_STATE_NOT_POWERED ) {
//We need to power OFF the port to protect it
usbh_hal_port_toggle_power ( port - > hal , false ) ;
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port - > state = HCD_PORT_STATE_RECOVERY ;
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port_event = HCD_PORT_EVENT_OVERCURRENT ;
}
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port - > flags . conn_dev_ena = 0 ;
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break ;
}
default : {
abort ( ) ;
break ;
}
}
return port_event ;
}
/**
* @ brief Handles a HAL channel interrupt
*
* This function should be called on a HAL channel when it has an interrupt . Most HAL channel events will correspond to
* to a pipe event , but not always . This function will store the pipe event and return a pipe object pointer if a pipe
* event occurred , or return NULL otherwise .
*
* @ param [ in ] chan_obj Pointer to HAL channel object with interrupt
* @ param [ out ] yield Set to true if a yield is required as a result of handling the interrupt
* @ return hcd_pipe_event_t The pipe event
*/
static hcd_pipe_event_t _intr_hdlr_chan ( pipe_t * pipe , usbh_hal_chan_t * chan_obj , bool * yield )
{
usbh_hal_chan_event_t chan_event = usbh_hal_chan_decode_intr ( chan_obj ) ;
hcd_pipe_event_t event = HCD_PIPE_EVENT_NONE ;
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switch ( chan_event ) {
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case USBH_HAL_CHAN_EVENT_CPLT : {
if ( ! _buffer_check_done ( pipe ) ) {
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_buffer_exec_cont ( pipe ) ;
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break ;
}
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pipe - > last_event = HCD_PIPE_EVENT_URB_DONE ;
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event = pipe - > last_event ;
//Mark the buffer as done
int stop_idx = usbh_hal_chan_get_qtd_idx ( chan_obj ) ;
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_buffer_done ( pipe , stop_idx , pipe - > last_event , false ) ;
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//First check if there is another buffer we can execute. But we only want to execute if there's still a valid device
if ( _buffer_can_exec ( pipe ) & & pipe - > port - > flags . conn_dev_ena ) {
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//If the next buffer is filled and ready to execute, execute it
_buffer_exec ( pipe ) ;
}
//Handle the previously done buffer
_buffer_parse ( pipe ) ;
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//Check to see if we can fill another buffer. But we only want to fill if there is still a valid device
if ( _buffer_can_fill ( pipe ) & & pipe - > port - > flags . conn_dev_ena ) {
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//Now that we've parsed a buffer, see if another URB can be filled in its place
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_buffer_fill ( pipe ) ;
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}
break ;
}
case USBH_HAL_CHAN_EVENT_ERROR : {
//Get and store the pipe error event
usbh_hal_chan_error_t chan_error = usbh_hal_chan_get_error ( chan_obj ) ;
pipe - > last_event = pipe_decode_error_event ( chan_error ) ;
event = pipe - > last_event ;
pipe - > state = HCD_PIPE_STATE_HALTED ;
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//Mark the buffer as done with an error
int stop_idx = usbh_hal_chan_get_qtd_idx ( chan_obj ) ;
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_buffer_done ( pipe , stop_idx , pipe - > last_event , false ) ;
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//Parse the buffer
_buffer_parse ( pipe ) ;
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break ;
}
case USBH_HAL_CHAN_EVENT_HALT_REQ : {
assert ( pipe - > cs_flags . waiting_halt ) ;
//We've halted a transfer, so we need to trigger the pipe callback
pipe - > last_event = HCD_PIPE_EVENT_URB_DONE ;
event = pipe - > last_event ;
//Halt request event is triggered when packet is successful completed. But just treat all halted transfers as errors
pipe - > state = HCD_PIPE_STATE_HALTED ;
int stop_idx = usbh_hal_chan_get_qtd_idx ( chan_obj ) ;
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_buffer_done ( pipe , stop_idx , HCD_PIPE_EVENT_NONE , true ) ;
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//Parse the buffer
_buffer_parse ( pipe ) ;
//Notify the task waiting for the pipe halt
* yield | = _internal_pipe_event_notify ( pipe , true ) ;
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break ;
}
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case USBH_HAL_CHAN_EVENT_NONE : {
break ; //Nothing to do
}
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default :
abort ( ) ;
break ;
}
return event ;
}
/**
* @ brief Main interrupt handler
*
* - Handle all HPRT ( Host Port ) related interrupts first as they may change the
* state of the driver ( e . g . , a disconnect event )
* - If any channels ( pipes ) have pending interrupts , handle them one by one
* - The HCD has not blocking functions , so the user ' s ISR callback is run to
* allow the users to send whatever OS primitives they need .
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*
* @ param arg Interrupt handler argument
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*/
static void intr_hdlr_main ( void * arg )
{
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port_t * port = ( port_t * ) arg ;
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bool yield = false ;
HCD_ENTER_CRITICAL_ISR ( ) ;
usbh_hal_port_event_t hal_port_evt = usbh_hal_decode_intr ( port - > hal ) ;
if ( hal_port_evt = = USBH_HAL_PORT_EVENT_CHAN ) {
//Channel event. Cycle through each pending channel
usbh_hal_chan_t * chan_obj = usbh_hal_get_chan_pending_intr ( port - > hal ) ;
while ( chan_obj ! = NULL ) {
pipe_t * pipe = ( pipe_t * ) usbh_hal_chan_get_context ( chan_obj ) ;
hcd_pipe_event_t event = _intr_hdlr_chan ( pipe , chan_obj , & yield ) ;
//Run callback if a pipe event has occurred and the pipe also has a callback
if ( event ! = HCD_PIPE_EVENT_NONE & & pipe - > callback ! = NULL ) {
HCD_EXIT_CRITICAL_ISR ( ) ;
yield | = pipe - > callback ( ( hcd_pipe_handle_t ) pipe , event , pipe - > callback_arg , true ) ;
HCD_ENTER_CRITICAL_ISR ( ) ;
}
//Check for more channels with pending interrupts. Returns NULL if there are no more
chan_obj = usbh_hal_get_chan_pending_intr ( port - > hal ) ;
}
} else if ( hal_port_evt ! = USBH_HAL_PORT_EVENT_NONE ) { //Port event
hcd_port_event_t port_event = _intr_hdlr_hprt ( port , hal_port_evt , & yield ) ;
if ( port_event ! = HCD_PORT_EVENT_NONE ) {
port - > last_event = port_event ;
port - > flags . event_pending = 1 ;
if ( port - > callback ! = NULL ) {
HCD_EXIT_CRITICAL_ISR ( ) ;
yield | = port - > callback ( ( hcd_port_handle_t ) port , port_event , port - > callback_arg , true ) ;
HCD_ENTER_CRITICAL_ISR ( ) ;
}
}
}
HCD_EXIT_CRITICAL_ISR ( ) ;
if ( yield ) {
portYIELD_FROM_ISR ( ) ;
}
}
// --------------------------------------------- Host Controller Driver ------------------------------------------------
static port_t * port_obj_alloc ( void )
{
port_t * port = calloc ( 1 , sizeof ( port_t ) ) ;
usbh_hal_context_t * hal = malloc ( sizeof ( usbh_hal_context_t ) ) ;
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void * frame_list = heap_caps_aligned_calloc ( USBH_HAL_FRAME_LIST_MEM_ALIGN , FRAME_LIST_LEN , sizeof ( uint32_t ) , MALLOC_CAP_DMA ) ;
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SemaphoreHandle_t port_mux = xSemaphoreCreateMutex ( ) ;
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if ( port = = NULL | | hal = = NULL | | frame_list = = NULL | | port_mux = = NULL ) {
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free ( port ) ;
free ( hal ) ;
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free ( frame_list ) ;
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if ( port_mux ! = NULL ) {
vSemaphoreDelete ( port_mux ) ;
}
return NULL ;
}
port - > hal = hal ;
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port - > frame_list = frame_list ;
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port - > port_mux = port_mux ;
return port ;
}
static void port_obj_free ( port_t * port )
{
if ( port = = NULL ) {
return ;
}
vSemaphoreDelete ( port - > port_mux ) ;
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free ( port - > frame_list ) ;
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free ( port - > hal ) ;
free ( port ) ;
}
// ----------------------- Public --------------------------
esp_err_t hcd_install ( const hcd_config_t * config )
{
HCD_ENTER_CRITICAL ( ) ;
HCD_CHECK_FROM_CRIT ( s_hcd_obj = = NULL , ESP_ERR_INVALID_STATE ) ;
HCD_EXIT_CRITICAL ( ) ;
esp_err_t err_ret ;
//Allocate memory and resources for driver object and all port objects
hcd_obj_t * p_hcd_obj_dmy = calloc ( 1 , sizeof ( hcd_obj_t ) ) ;
if ( p_hcd_obj_dmy = = NULL ) {
return ESP_ERR_NO_MEM ;
}
//Allocate resources for each port (there's only one)
p_hcd_obj_dmy - > port_obj = port_obj_alloc ( ) ;
esp_err_t intr_alloc_ret = esp_intr_alloc ( ETS_USB_INTR_SOURCE ,
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config - > intr_flags | ESP_INTR_FLAG_INTRDISABLED , //The interrupt must be disabled until the port is initialized
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intr_hdlr_main ,
( void * ) p_hcd_obj_dmy - > port_obj ,
& p_hcd_obj_dmy - > isr_hdl ) ;
if ( p_hcd_obj_dmy - > port_obj = = NULL ) {
err_ret = ESP_ERR_NO_MEM ;
}
if ( intr_alloc_ret ! = ESP_OK ) {
err_ret = intr_alloc_ret ;
goto err ;
}
HCD_ENTER_CRITICAL ( ) ;
if ( s_hcd_obj ! = NULL ) {
HCD_EXIT_CRITICAL ( ) ;
err_ret = ESP_ERR_INVALID_STATE ;
goto err ;
}
s_hcd_obj = p_hcd_obj_dmy ;
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//Set HW prerequisites for each port (there's only one)
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periph_module_enable ( PERIPH_USB_MODULE ) ;
periph_module_reset ( PERIPH_USB_MODULE ) ;
/*
Configure GPIOS for Host mode operation using internal PHY
- Forces ID to GND for A side
- Forces B Valid to GND as we are A side host
- Forces VBUS Valid to HIGH
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- Forces A Valid to HIGH
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*/
esp_rom_gpio_connect_in_signal ( GPIO_MATRIX_CONST_ZERO_INPUT , USB_OTG_IDDIG_IN_IDX , false ) ;
esp_rom_gpio_connect_in_signal ( GPIO_MATRIX_CONST_ZERO_INPUT , USB_SRP_BVALID_IN_IDX , false ) ;
esp_rom_gpio_connect_in_signal ( GPIO_MATRIX_CONST_ONE_INPUT , USB_OTG_VBUSVALID_IN_IDX , false ) ;
esp_rom_gpio_connect_in_signal ( GPIO_MATRIX_CONST_ONE_INPUT , USB_OTG_AVALID_IN_IDX , false ) ;
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
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err :
if ( intr_alloc_ret = = ESP_OK ) {
esp_intr_free ( p_hcd_obj_dmy - > isr_hdl ) ;
}
port_obj_free ( p_hcd_obj_dmy - > port_obj ) ;
free ( p_hcd_obj_dmy ) ;
return err_ret ;
}
esp_err_t hcd_uninstall ( void )
{
HCD_ENTER_CRITICAL ( ) ;
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//Check that all ports have been disabled (there's only one port)
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if ( s_hcd_obj = = NULL | | s_hcd_obj - > port_obj - > initialized ) {
HCD_EXIT_CRITICAL ( ) ;
return ESP_ERR_INVALID_STATE ;
}
periph_module_disable ( PERIPH_USB_MODULE ) ;
hcd_obj_t * p_hcd_obj_dmy = s_hcd_obj ;
s_hcd_obj = NULL ;
HCD_EXIT_CRITICAL ( ) ;
//Free resources
port_obj_free ( p_hcd_obj_dmy - > port_obj ) ;
esp_intr_free ( p_hcd_obj_dmy - > isr_hdl ) ;
free ( p_hcd_obj_dmy ) ;
return ESP_OK ;
}
// ------------------------------------------------------ Port ---------------------------------------------------------
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// ----------------------- Helpers -------------------------
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static bool _port_persist_all_pipes ( port_t * port )
{
if ( port - > num_pipes_queued > 0 ) {
//All pipes must be idle before we run-time reset
return false ;
}
bool all_persist = true ;
pipe_t * pipe ;
//Check that each pipe is persistent
TAILQ_FOREACH ( pipe , & port - > pipes_idle_tailq , tailq_entry ) {
if ( ! pipe - > cs_flags . persist ) {
all_persist = false ;
break ;
}
}
if ( ! all_persist ) {
//At least one pipe is not persistent. All pipes must be freed or made persistent before we can reset
return false ;
}
TAILQ_FOREACH ( pipe , & port - > pipes_idle_tailq , tailq_entry ) {
pipe - > cs_flags . reset_lock = 1 ;
usbh_hal_chan_free ( port - > hal , pipe - > chan_obj ) ;
}
return true ;
}
static void _port_recover_all_pipes ( port_t * port )
{
pipe_t * pipe ;
TAILQ_FOREACH ( pipe , & port - > pipes_idle_tailq , tailq_entry ) {
pipe - > cs_flags . persist = 0 ;
pipe - > cs_flags . reset_lock = 0 ;
usbh_hal_chan_alloc ( port - > hal , pipe - > chan_obj , ( void * ) pipe ) ;
usbh_hal_chan_set_ep_char ( port - > hal , pipe - > chan_obj , & pipe - > ep_char ) ;
}
}
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static bool _port_check_all_pipes_halted ( port_t * port )
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{
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bool all_halted = true ;
pipe_t * pipe ;
TAILQ_FOREACH ( pipe , & port - > pipes_active_tailq , tailq_entry ) {
if ( pipe - > state ! = HCD_PIPE_STATE_HALTED ) {
all_halted = false ;
break ;
}
}
TAILQ_FOREACH ( pipe , & port - > pipes_idle_tailq , tailq_entry ) {
if ( pipe - > state ! = HCD_PIPE_STATE_HALTED ) {
all_halted = false ;
break ;
}
}
return all_halted ;
}
static bool _port_debounce ( port_t * port )
{
if ( port - > state = = HCD_PORT_STATE_NOT_POWERED ) {
//Disconnect event due to power off, no need to debounce or update port state.
return false ;
}
HCD_EXIT_CRITICAL ( ) ;
vTaskDelay ( pdMS_TO_TICKS ( DEBOUNCE_DELAY_MS ) ) ;
HCD_ENTER_CRITICAL ( ) ;
//Check the post-debounce state of the bus (i.e., whether it's actually connected/disconnected)
bool is_connected = usbh_hal_port_check_if_connected ( port - > hal ) ;
if ( is_connected ) {
port - > state = HCD_PORT_STATE_DISABLED ;
} else {
port - > state = HCD_PORT_STATE_DISCONNECTED ;
}
//Disable debounce lock
usbh_hal_disable_debounce_lock ( port - > hal ) ;
return is_connected ;
}
// ---------------------- Commands -------------------------
static esp_err_t _port_cmd_power_on ( port_t * port )
{
esp_err_t ret ;
//Port can only be powered on if it's currently unpowered
if ( port - > state = = HCD_PORT_STATE_NOT_POWERED ) {
port - > state = HCD_PORT_STATE_DISCONNECTED ;
usbh_hal_port_init ( port - > hal ) ;
usbh_hal_port_toggle_power ( port - > hal , true ) ;
ret = ESP_OK ;
} else {
ret = ESP_ERR_INVALID_STATE ;
}
return ret ;
}
static esp_err_t _port_cmd_power_off ( port_t * port )
{
esp_err_t ret ;
//Port can only be unpowered if already powered
if ( port - > state ! = HCD_PORT_STATE_NOT_POWERED ) {
port - > state = HCD_PORT_STATE_NOT_POWERED ;
usbh_hal_port_deinit ( port - > hal ) ;
usbh_hal_port_toggle_power ( port - > hal , false ) ;
//If a device is currently connected, this should trigger a disconnect event
ret = ESP_OK ;
} else {
ret = ESP_ERR_INVALID_STATE ;
}
return ret ;
}
static esp_err_t _port_cmd_reset ( port_t * port )
{
esp_err_t ret ;
//Port can only a reset when it is in the enabled or disabled states (in case of new connection)
if ( port - > state ! = HCD_PORT_STATE_ENABLED & & port - > state ! = HCD_PORT_STATE_DISABLED ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
bool is_runtime_reset = ( port - > state = = HCD_PORT_STATE_ENABLED ) ? true : false ;
if ( is_runtime_reset & & ! _port_persist_all_pipes ( port ) ) {
//If this is a run time reset, check all pipes that are still allocated can persist the reset
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
//All pipes (if any_) are guaranteed to be persistent at this point. Proceed to resetting the bus
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port - > state = HCD_PORT_STATE_RESETTING ;
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//Put and hold the bus in the reset state. If the port was previously enabled, a disabled event will occur after this
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usbh_hal_port_toggle_reset ( port - > hal , true ) ;
HCD_EXIT_CRITICAL ( ) ;
vTaskDelay ( pdMS_TO_TICKS ( RESET_HOLD_MS ) ) ;
HCD_ENTER_CRITICAL ( ) ;
if ( port - > state ! = HCD_PORT_STATE_RESETTING ) {
//The port state has unexpectedly changed
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ret = ESP_ERR_INVALID_RESPONSE ;
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goto bailout ;
}
//Return the bus to the idle state and hold it for the required reset recovery time. Port enabled event should occur
usbh_hal_port_toggle_reset ( port - > hal , false ) ;
HCD_EXIT_CRITICAL ( ) ;
vTaskDelay ( pdMS_TO_TICKS ( RESET_RECOVERY_MS ) ) ;
HCD_ENTER_CRITICAL ( ) ;
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if ( port - > state ! = HCD_PORT_STATE_ENABLED | | ! port - > flags . conn_dev_ena ) {
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//The port state has unexpectedly changed
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ret = ESP_ERR_INVALID_RESPONSE ;
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goto bailout ;
}
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//Set FIFO sizes based on the selected biasing
usbh_hal_set_fifo_size ( port - > hal , port - > fifo_config ) ;
//We start periodic scheduling only after a RESET command since SOFs only start after a reset
usbh_hal_port_set_frame_list ( port - > hal , port - > frame_list , FRAME_LIST_LEN ) ;
usbh_hal_port_periodic_enable ( port - > hal ) ;
ret = ESP_OK ;
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bailout :
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if ( is_runtime_reset ) {
_port_recover_all_pipes ( port ) ;
}
exit :
return ret ;
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}
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static esp_err_t _port_cmd_bus_suspend ( port_t * port )
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{
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esp_err_t ret ;
//Port must have been previously enabled, and all pipes must already be halted
if ( port - > state = = HCD_PORT_STATE_ENABLED & & ! _port_check_all_pipes_halted ( port ) ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
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}
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//All pipes are guaranteed halted at this point. Proceed to suspend the port
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usbh_hal_port_suspend ( port - > hal ) ;
port - > state = HCD_PORT_STATE_SUSPENDED ;
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ret = ESP_OK ;
exit :
return ret ;
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}
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static esp_err_t _port_cmd_bus_resume ( port_t * port )
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{
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esp_err_t ret ;
//Port can only be resumed if it was previously suspended
if ( port - > state ! = HCD_PORT_STATE_SUSPENDED ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
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//Put and hold the bus in the K state.
usbh_hal_port_toggle_resume ( port - > hal , true ) ;
port - > state = HCD_PORT_STATE_RESUMING ;
HCD_EXIT_CRITICAL ( ) ;
vTaskDelay ( pdMS_TO_TICKS ( RESUME_HOLD_MS ) ) ;
HCD_ENTER_CRITICAL ( ) ;
//Return and hold the bus to the J state (as port of the LS EOP)
usbh_hal_port_toggle_resume ( port - > hal , false ) ;
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if ( port - > state ! = HCD_PORT_STATE_RESUMING | | ! port - > flags . conn_dev_ena ) {
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//Port state unexpectedly changed
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ret = ESP_ERR_INVALID_RESPONSE ;
goto exit ;
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}
HCD_EXIT_CRITICAL ( ) ;
vTaskDelay ( pdMS_TO_TICKS ( RESUME_RECOVERY_MS ) ) ;
HCD_ENTER_CRITICAL ( ) ;
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if ( port - > state ! = HCD_PORT_STATE_RESUMING | | ! port - > flags . conn_dev_ena ) {
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//Port state unexpectedly changed
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ret = ESP_ERR_INVALID_RESPONSE ;
goto exit ;
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}
port - > state = HCD_PORT_STATE_ENABLED ;
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ret = ESP_OK ;
exit :
return ret ;
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}
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static esp_err_t _port_cmd_disable ( port_t * port )
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{
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esp_err_t ret ;
if ( port - > state ! = HCD_PORT_STATE_ENABLED & & port - > state ! = HCD_PORT_STATE_SUSPENDED ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
//All pipes must be halted before disabling the port
if ( ! _port_check_all_pipes_halted ( port ) ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
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}
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//All pipes are guaranteed to be halted or freed at this point. Proceed to disable the port
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port - > flags . disable_requested = 1 ;
usbh_hal_port_disable ( port - > hal ) ;
_internal_port_event_wait ( port ) ;
if ( port - > state ! = HCD_PORT_STATE_DISABLED ) {
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//Port state unexpectedly changed
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ret = ESP_ERR_INVALID_RESPONSE ;
goto exit ;
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}
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ret = ESP_OK ;
exit :
return ret ;
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}
// ----------------------- Public --------------------------
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esp_err_t hcd_port_init ( int port_number , const hcd_port_config_t * port_config , hcd_port_handle_t * port_hdl )
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{
HCD_CHECK ( port_number > 0 & & port_config ! = NULL & & port_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
HCD_CHECK ( port_number < = NUM_PORTS , ESP_ERR_NOT_FOUND ) ;
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//Get a pointer to the correct FIFO bias constant values
const usbh_hal_fifo_config_t * fifo_config ;
const fifo_mps_limits_t * mps_limits ;
switch ( port_config - > fifo_bias ) {
case HCD_PORT_FIFO_BIAS_BALANCED :
fifo_config = & fifo_config_default ;
mps_limits = & mps_limits_default ;
break ;
case HCD_PORT_FIFO_BIAS_RX :
fifo_config = & fifo_config_bias_rx ;
mps_limits = & mps_limits_bias_rx ;
break ;
case HCD_PORT_FIFO_BIAS_PTX :
fifo_config = & fifo_config_bias_ptx ;
mps_limits = & mps_limits_bias_ptx ;
break ;
default :
fifo_config = NULL ;
mps_limits = NULL ;
abort ( ) ;
break ;
}
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HCD_ENTER_CRITICAL ( ) ;
HCD_CHECK_FROM_CRIT ( s_hcd_obj ! = NULL & & ! s_hcd_obj - > port_obj - > initialized , ESP_ERR_INVALID_STATE ) ;
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//Port object memory and resources (such as the mutex) already be allocated. Just need to initialize necessary fields only
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port_t * port_obj = s_hcd_obj - > port_obj ;
TAILQ_INIT ( & port_obj - > pipes_idle_tailq ) ;
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TAILQ_INIT ( & port_obj - > pipes_active_tailq ) ;
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port_obj - > state = HCD_PORT_STATE_NOT_POWERED ;
port_obj - > last_event = HCD_PORT_EVENT_NONE ;
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port_obj - > fifo_config = fifo_config ;
port_obj - > fifo_mps_limits = mps_limits ;
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port_obj - > callback = port_config - > callback ;
port_obj - > callback_arg = port_config - > callback_arg ;
port_obj - > context = port_config - > context ;
usbh_hal_init ( port_obj - > hal ) ;
port_obj - > initialized = true ;
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//Clear the frame list. We set the frame list register and enable periodic scheduling after a successful reset
memset ( port_obj - > frame_list , 0 , FRAME_LIST_LEN * sizeof ( uint32_t ) ) ;
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esp_intr_enable ( s_hcd_obj - > isr_hdl ) ;
* port_hdl = ( hcd_port_handle_t ) port_obj ;
HCD_EXIT_CRITICAL ( ) ;
vTaskDelay ( pdMS_TO_TICKS ( INIT_DELAY_MS ) ) ; //Need a short delay before host mode takes effect
return ESP_OK ;
}
esp_err_t hcd_port_deinit ( hcd_port_handle_t port_hdl )
{
port_t * port = ( port_t * ) port_hdl ;
HCD_ENTER_CRITICAL ( ) ;
HCD_CHECK_FROM_CRIT ( s_hcd_obj ! = NULL & & port - > initialized
& & port - > num_pipes_idle = = 0 & & port - > num_pipes_queued = = 0
& & ( port - > state = = HCD_PORT_STATE_NOT_POWERED | | port - > state = = HCD_PORT_STATE_RECOVERY )
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& & port - > task_waiting_port_notif = = NULL ,
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ESP_ERR_INVALID_STATE ) ;
port - > initialized = false ;
esp_intr_disable ( s_hcd_obj - > isr_hdl ) ;
usbh_hal_deinit ( port - > hal ) ;
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
esp_err_t hcd_port_command ( hcd_port_handle_t port_hdl , hcd_port_cmd_t command )
{
esp_err_t ret = ESP_ERR_INVALID_STATE ;
port_t * port = ( port_t * ) port_hdl ;
xSemaphoreTake ( port - > port_mux , portMAX_DELAY ) ;
HCD_ENTER_CRITICAL ( ) ;
if ( port - > initialized & & ! port - > flags . event_pending ) { //Port events need to be handled first before issuing a command
port - > flags . cmd_processing = 1 ;
switch ( command ) {
case HCD_PORT_CMD_POWER_ON : {
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ret = _port_cmd_power_on ( port ) ;
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break ;
}
case HCD_PORT_CMD_POWER_OFF : {
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ret = _port_cmd_power_off ( port ) ;
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break ;
}
case HCD_PORT_CMD_RESET : {
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ret = _port_cmd_reset ( port ) ;
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break ;
}
case HCD_PORT_CMD_SUSPEND : {
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ret = _port_cmd_bus_suspend ( port ) ;
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break ;
}
case HCD_PORT_CMD_RESUME : {
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ret = _port_cmd_bus_resume ( port ) ;
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break ;
}
case HCD_PORT_CMD_DISABLE : {
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ret = _port_cmd_disable ( port ) ;
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break ;
}
}
port - > flags . cmd_processing = 0 ;
}
HCD_EXIT_CRITICAL ( ) ;
xSemaphoreGive ( port - > port_mux ) ;
return ret ;
}
hcd_port_state_t hcd_port_get_state ( hcd_port_handle_t port_hdl )
{
port_t * port = ( port_t * ) port_hdl ;
hcd_port_state_t ret ;
HCD_ENTER_CRITICAL ( ) ;
ret = port - > state ;
HCD_EXIT_CRITICAL ( ) ;
return ret ;
}
esp_err_t hcd_port_get_speed ( hcd_port_handle_t port_hdl , usb_speed_t * speed )
{
port_t * port = ( port_t * ) port_hdl ;
HCD_CHECK ( speed ! = NULL , ESP_ERR_INVALID_ARG ) ;
HCD_ENTER_CRITICAL ( ) ;
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//Device speed is only valid if there is device connected to the port that has been reset
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HCD_CHECK_FROM_CRIT ( port - > flags . conn_dev_ena , ESP_ERR_INVALID_STATE ) ;
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usb_priv_speed_t hal_speed = usbh_hal_port_get_conn_speed ( port - > hal ) ;
if ( hal_speed = = USB_PRIV_SPEED_FULL ) {
* speed = USB_SPEED_FULL ;
} else {
* speed = USB_SPEED_LOW ;
}
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HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
hcd_port_event_t hcd_port_handle_event ( hcd_port_handle_t port_hdl )
{
port_t * port = ( port_t * ) port_hdl ;
hcd_port_event_t ret = HCD_PORT_EVENT_NONE ;
xSemaphoreTake ( port - > port_mux , portMAX_DELAY ) ;
HCD_ENTER_CRITICAL ( ) ;
if ( port - > initialized & & port - > flags . event_pending ) {
port - > flags . event_pending = 0 ;
port - > flags . event_processing = 1 ;
ret = port - > last_event ;
switch ( ret ) {
case HCD_PORT_EVENT_CONNECTION : {
if ( _port_debounce ( port ) ) {
ret = HCD_PORT_EVENT_CONNECTION ;
}
break ;
}
case HCD_PORT_EVENT_DISCONNECTION :
case HCD_PORT_EVENT_ERROR :
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case HCD_PORT_EVENT_OVERCURRENT : {
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break ;
}
default : {
break ;
}
}
port - > flags . event_processing = 0 ;
} else {
ret = HCD_PORT_EVENT_NONE ;
}
HCD_EXIT_CRITICAL ( ) ;
xSemaphoreGive ( port - > port_mux ) ;
return ret ;
}
esp_err_t hcd_port_recover ( hcd_port_handle_t port_hdl )
{
port_t * port = ( port_t * ) port_hdl ;
HCD_ENTER_CRITICAL ( ) ;
HCD_CHECK_FROM_CRIT ( s_hcd_obj ! = NULL & & port - > initialized & & port - > state = = HCD_PORT_STATE_RECOVERY
& & port - > num_pipes_idle = = 0 & & port - > num_pipes_queued = = 0
& & port - > flags . val = = 0 & & port - > task_waiting_port_notif = = NULL ,
ESP_ERR_INVALID_STATE ) ;
//We are about to do a soft reset on the peripheral. Disable the peripheral throughout
esp_intr_disable ( s_hcd_obj - > isr_hdl ) ;
usbh_hal_core_soft_reset ( port - > hal ) ;
port - > state = HCD_PORT_STATE_NOT_POWERED ;
port - > last_event = HCD_PORT_EVENT_NONE ;
port - > flags . val = 0 ;
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//Soft reset wipes all registers so we need to reinitialize the HAL
usbh_hal_init ( port - > hal ) ;
//Clear the frame list. We set the frame list register and enable periodic scheduling after a successful reset
memset ( port - > frame_list , 0 , FRAME_LIST_LEN * sizeof ( uint32_t ) ) ;
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esp_intr_enable ( s_hcd_obj - > isr_hdl ) ;
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
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void * hcd_port_get_context ( hcd_port_handle_t port_hdl )
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{
port_t * port = ( port_t * ) port_hdl ;
void * ret ;
HCD_ENTER_CRITICAL ( ) ;
ret = port - > context ;
HCD_EXIT_CRITICAL ( ) ;
return ret ;
}
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esp_err_t hcd_port_set_fifo_bias ( hcd_port_handle_t port_hdl , hcd_port_fifo_bias_t bias )
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{
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esp_err_t ret ;
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//Get a pointer to the correct FIFO bias constant values
const usbh_hal_fifo_config_t * fifo_config ;
const fifo_mps_limits_t * mps_limits ;
switch ( bias ) {
case HCD_PORT_FIFO_BIAS_BALANCED :
fifo_config = & fifo_config_default ;
mps_limits = & mps_limits_default ;
break ;
case HCD_PORT_FIFO_BIAS_RX :
fifo_config = & fifo_config_bias_rx ;
mps_limits = & mps_limits_bias_rx ;
break ;
case HCD_PORT_FIFO_BIAS_PTX :
fifo_config = & fifo_config_bias_ptx ;
mps_limits = & mps_limits_bias_ptx ;
break ;
default :
fifo_config = NULL ;
mps_limits = NULL ;
abort ( ) ;
break ;
}
//Configure the new FIFO sizes and store the pointers
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port_t * port = ( port_t * ) port_hdl ;
xSemaphoreTake ( port - > port_mux , portMAX_DELAY ) ;
HCD_ENTER_CRITICAL ( ) ;
//Check that port is in the correct state to update FIFO sizes
if ( port - > initialized & & ! port - > flags . event_pending & & port - > num_pipes_idle = = 0 & & port - > num_pipes_queued = = 0 ) {
usbh_hal_set_fifo_size ( port - > hal , fifo_config ) ;
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port - > fifo_config = fifo_config ;
port - > fifo_mps_limits = mps_limits ;
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ret = ESP_OK ;
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} else {
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ret = ESP_ERR_INVALID_STATE ;
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}
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HCD_EXIT_CRITICAL ( ) ;
xSemaphoreGive ( port - > port_mux ) ;
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return ret ;
}
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// --------------------------------------------------- HCD Pipes -------------------------------------------------------
// ----------------------- Private -------------------------
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static inline hcd_pipe_event_t pipe_decode_error_event ( usbh_hal_chan_error_t chan_error )
{
hcd_pipe_event_t event = HCD_PIPE_EVENT_NONE ;
switch ( chan_error ) {
case USBH_HAL_CHAN_ERROR_XCS_XACT :
event = HCD_PIPE_EVENT_ERROR_XFER ;
break ;
case USBH_HAL_CHAN_ERROR_BNA :
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event = HCD_PIPE_EVENT_ERROR_URB_NOT_AVAIL ;
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break ;
case USBH_HAL_CHAN_ERROR_PKT_BBL :
event = HCD_PIPE_EVENT_ERROR_OVERFLOW ;
break ;
case USBH_HAL_CHAN_ERROR_STALL :
event = HCD_PIPE_EVENT_ERROR_STALL ;
break ;
}
return event ;
}
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static dma_buffer_block_t * buffer_block_alloc ( usb_transfer_type_t type )
{
int desc_list_len ;
switch ( type ) {
case USB_TRANSFER_TYPE_CTRL :
desc_list_len = XFER_LIST_LEN_CTRL ;
break ;
case USB_TRANSFER_TYPE_ISOCHRONOUS :
desc_list_len = XFER_LIST_LEN_ISOC ;
break ;
case USB_TRANSFER_TYPE_BULK :
desc_list_len = XFER_LIST_LEN_BULK ;
break ;
default : //USB_TRANSFER_TYPE_INTR:
desc_list_len = XFER_LIST_LEN_INTR ;
break ;
}
dma_buffer_block_t * buffer = calloc ( 1 , sizeof ( dma_buffer_block_t ) ) ;
void * xfer_desc_list = heap_caps_aligned_calloc ( USBH_HAL_DMA_MEM_ALIGN , desc_list_len , sizeof ( usbh_ll_dma_qtd_t ) , MALLOC_CAP_DMA ) ;
if ( buffer = = NULL | | xfer_desc_list = = NULL ) {
free ( buffer ) ;
heap_caps_free ( xfer_desc_list ) ;
return NULL ;
}
buffer - > xfer_desc_list = xfer_desc_list ;
return buffer ;
}
static void buffer_block_free ( dma_buffer_block_t * buffer )
{
if ( buffer = = NULL ) {
return ;
}
heap_caps_free ( buffer - > xfer_desc_list ) ;
free ( buffer ) ;
}
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static bool pipe_alloc_check_args ( const hcd_pipe_config_t * pipe_config , usb_speed_t port_speed , const fifo_mps_limits_t * mps_limits , usb_transfer_type_t type , bool is_default_pipe )
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{
//Check if pipe can be supported
if ( port_speed = = USB_SPEED_LOW & & pipe_config - > dev_speed = = USB_SPEED_FULL ) {
//Low speed port does not supported full speed pipe
return false ;
}
if ( pipe_config - > dev_speed = = USB_SPEED_LOW & & ( type = = USB_TRANSFER_TYPE_BULK | | type = = USB_TRANSFER_TYPE_ISOCHRONOUS ) ) {
//Low speed does not support Bulk or Isochronous pipes
return false ;
}
//Check interval of pipe
if ( type = = USB_TRANSFER_TYPE_INTR & &
( pipe_config - > ep_desc - > bInterval > 0 & & pipe_config - > ep_desc - > bInterval > 32 ) ) {
//Interval not supported for interrupt pipe
return false ;
}
if ( type = = USB_TRANSFER_TYPE_ISOCHRONOUS & &
( pipe_config - > ep_desc - > bInterval > 0 & & pipe_config - > ep_desc - > bInterval > 6 ) ) {
//Interval not supported for isochronous pipe (where 0 < 2^(bInterval - 1) <= 32)
return false ;
}
if ( is_default_pipe ) {
return true ;
}
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int limit ;
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if ( USB_EP_DESC_GET_EP_DIR ( pipe_config - > ep_desc ) ) { //IN
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limit = mps_limits - > in_mps ;
} else { //OUT
if ( type = = USB_TRANSFER_TYPE_CTRL | | type = = USB_TRANSFER_TYPE_BULK ) {
limit = mps_limits - > non_periodic_out_mps ;
} else {
limit = mps_limits - > periodic_out_mps ;
}
}
return ( pipe_config - > ep_desc - > wMaxPacketSize < = limit ) ;
}
static void pipe_set_ep_char ( const hcd_pipe_config_t * pipe_config , usb_transfer_type_t type , bool is_default_pipe , int pipe_idx , usb_speed_t port_speed , usbh_hal_ep_char_t * ep_char )
{
//Initialize EP characteristics
usb_priv_xfer_type_t hal_xfer_type ;
switch ( type ) {
case USB_TRANSFER_TYPE_CTRL :
hal_xfer_type = USB_PRIV_XFER_TYPE_CTRL ;
break ;
case USB_TRANSFER_TYPE_ISOCHRONOUS :
hal_xfer_type = USB_PRIV_XFER_TYPE_ISOCHRONOUS ;
break ;
case USB_TRANSFER_TYPE_BULK :
hal_xfer_type = USB_PRIV_XFER_TYPE_BULK ;
break ;
default : //USB_TRANSFER_TYPE_INTR
hal_xfer_type = USB_PRIV_XFER_TYPE_INTR ;
break ;
}
ep_char - > type = hal_xfer_type ;
if ( is_default_pipe ) {
ep_char - > bEndpointAddress = 0 ;
//Set the default pipe's MPS to the worst case MPS for the device's speed
ep_char - > mps = ( pipe_config - > dev_speed = = USB_SPEED_FULL ) ? CTRL_EP_MAX_MPS_FS : CTRL_EP_MAX_MPS_LS ;
} else {
ep_char - > bEndpointAddress = pipe_config - > ep_desc - > bEndpointAddress ;
ep_char - > mps = pipe_config - > ep_desc - > wMaxPacketSize ;
}
ep_char - > dev_addr = pipe_config - > dev_addr ;
ep_char - > ls_via_fs_hub = ( port_speed = = USB_SPEED_FULL & & pipe_config - > dev_speed = = USB_SPEED_LOW ) ;
//Calculate the pipe's interval in terms of USB frames
if ( type = = USB_TRANSFER_TYPE_INTR | | type = = USB_TRANSFER_TYPE_ISOCHRONOUS ) {
int interval_frames ;
if ( type = = USB_TRANSFER_TYPE_INTR ) {
interval_frames = pipe_config - > ep_desc - > bInterval ;
} else {
interval_frames = ( 1 < < ( pipe_config - > ep_desc - > bInterval - 1 ) ) ;
}
//Round down interval to nearest power of 2
if ( interval_frames > = 32 ) {
interval_frames = 32 ;
} else if ( interval_frames > = 16 ) {
interval_frames = 16 ;
} else if ( interval_frames > = 8 ) {
interval_frames = 8 ;
} else if ( interval_frames > = 4 ) {
interval_frames = 4 ;
} else if ( interval_frames > = 2 ) {
interval_frames = 2 ;
} else if ( interval_frames > = 1 ) {
interval_frames = 1 ;
}
ep_char - > periodic . interval = interval_frames ;
//We are the Nth pipe to be allocated. Use N as a phase offset
ep_char - > periodic . phase_offset_frames = pipe_idx & ( XFER_LIST_LEN_ISOC - 1 ) ;
} else {
ep_char - > periodic . interval = 0 ;
ep_char - > periodic . phase_offset_frames = 0 ;
}
}
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// ---------------------- Commands -------------------------
static esp_err_t _pipe_cmd_halt ( pipe_t * pipe )
{
esp_err_t ret ;
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//If pipe is already halted, just return.
if ( pipe - > state = = HCD_PIPE_STATE_HALTED ) {
ret = ESP_OK ;
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goto exit ;
}
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//If the pipe's port is invalid, we just mark the pipe as halted without needing to halt the underlying channel
if ( pipe - > port - > flags . conn_dev_ena //Skip halting the underlying channel if the port is invalid
& & ! usbh_hal_chan_request_halt ( pipe - > chan_obj ) ) { //Check if the channel is already halted
//Channel is not halted, we need to request and wait for a haltWe need to wait for channel to be halted.
pipe - > cs_flags . waiting_halt = 1 ;
_internal_pipe_event_wait ( pipe ) ;
//State should have been updated in the ISR
assert ( pipe - > state = = HCD_PIPE_STATE_HALTED ) ;
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} else {
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//We are already halted, just need to update the state
usbh_hal_chan_mark_halted ( pipe - > chan_obj ) ;
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pipe - > state = HCD_PIPE_STATE_HALTED ;
}
ret = ESP_OK ;
exit :
return ret ;
}
static esp_err_t _pipe_cmd_flush ( pipe_t * pipe )
{
esp_err_t ret ;
//The pipe must be halted in order to be flushed
if ( pipe - > state ! = HCD_PIPE_STATE_HALTED ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
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//If the port is still valid, we are canceling transfers. Otherwise, we are flushing due to a port error
bool canceled = pipe - > port - > flags . conn_dev_ena ;
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bool call_pipe_cb ;
//Flush any filled buffers
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call_pipe_cb = _buffer_flush_all ( pipe , canceled ) ;
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//Move all URBs from the pending tailq to the done tailq
if ( pipe - > num_urb_pending > 0 ) {
//Process all remaining pending URBs
urb_t * urb ;
TAILQ_FOREACH ( urb , & pipe - > pending_urb_tailq , tailq_entry ) {
//Update the URB's current state
urb - > hcd_var = URB_HCD_STATE_DONE ;
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//URBs were never executed, Update the actual_num_bytes and status
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urb - > transfer . actual_num_bytes = 0 ;
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urb - > transfer . status = ( canceled ) ? USB_TRANSFER_STATUS_CANCELED : USB_TRANSFER_STATUS_NO_DEVICE ;
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if ( pipe - > ep_char . type = = USB_PRIV_XFER_TYPE_ISOCHRONOUS ) {
//Update the URB's isoc packet descriptors as well
for ( int pkt_idx = 0 ; pkt_idx < urb - > transfer . num_isoc_packets ; pkt_idx + + ) {
urb - > transfer . isoc_packet_desc [ pkt_idx ] . actual_num_bytes = 0 ;
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urb - > transfer . isoc_packet_desc [ pkt_idx ] . status = ( canceled ) ? USB_TRANSFER_STATUS_CANCELED : USB_TRANSFER_STATUS_NO_DEVICE ;
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}
}
}
//Concatenated pending tailq to the done tailq
TAILQ_CONCAT ( & pipe - > done_urb_tailq , & pipe - > pending_urb_tailq , tailq_entry ) ;
pipe - > num_urb_done + = pipe - > num_urb_pending ;
pipe - > num_urb_pending = 0 ;
call_pipe_cb = true ;
}
if ( call_pipe_cb ) {
//One or more URBs can be dequeued as a result of the flush. We need to call the callback
HCD_EXIT_CRITICAL ( ) ;
pipe - > callback ( ( hcd_pipe_handle_t ) pipe , HCD_PIPE_EVENT_URB_DONE , pipe - > callback_arg , false ) ;
HCD_ENTER_CRITICAL ( ) ;
}
ret = ESP_OK ;
exit :
return ret ;
}
static esp_err_t _pipe_cmd_clear ( pipe_t * pipe )
{
esp_err_t ret ;
//Pipe must be in the halted state in order to be made active, and there must be an enabled device on the port
if ( pipe - > state ! = HCD_PIPE_STATE_HALTED | | ! pipe - > port - > flags . conn_dev_ena ) {
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
//Update the pipe's state
pipe - > state = HCD_PIPE_STATE_ACTIVE ;
if ( pipe - > num_urb_pending > 0 ) {
//Fill as many buffers as possible
while ( _buffer_can_fill ( pipe ) ) {
_buffer_fill ( pipe ) ;
}
}
//Execute any filled buffers
if ( _buffer_can_exec ( pipe ) ) {
_buffer_exec ( pipe ) ;
}
ret = ESP_OK ;
exit :
return ret ;
}
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// ----------------------- Public --------------------------
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esp_err_t hcd_pipe_alloc ( hcd_port_handle_t port_hdl , const hcd_pipe_config_t * pipe_config , hcd_pipe_handle_t * pipe_hdl )
{
HCD_CHECK ( port_hdl ! = NULL & & pipe_config ! = NULL & & pipe_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
port_t * port = ( port_t * ) port_hdl ;
HCD_ENTER_CRITICAL ( ) ;
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//Can only allocate a pipe if the target port is initialized and connected to an enabled device
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HCD_CHECK_FROM_CRIT ( port - > initialized & & port - > flags . conn_dev_ena , ESP_ERR_INVALID_STATE ) ;
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usb_speed_t port_speed = port - > speed ;
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const fifo_mps_limits_t * mps_limits = port - > fifo_mps_limits ;
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int pipe_idx = port - > num_pipes_idle + port - > num_pipes_queued ;
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HCD_EXIT_CRITICAL ( ) ;
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usb_transfer_type_t type ;
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bool is_default ;
if ( pipe_config - > ep_desc = = NULL ) {
type = USB_TRANSFER_TYPE_CTRL ;
is_default = true ;
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} else {
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type = USB_EP_DESC_GET_XFERTYPE ( pipe_config - > ep_desc ) ;
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is_default = false ;
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}
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//Check if pipe configuration can be supported
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if ( ! pipe_alloc_check_args ( pipe_config , port_speed , mps_limits , type , is_default ) ) {
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return ESP_ERR_NOT_SUPPORTED ;
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}
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esp_err_t ret ;
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//Allocate the pipe resources
pipe_t * pipe = calloc ( 1 , sizeof ( pipe_t ) ) ;
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usbh_hal_chan_t * chan_obj = calloc ( 1 , sizeof ( usbh_hal_chan_t ) ) ;
dma_buffer_block_t * buffers [ NUM_BUFFERS ] = { 0 } ;
if ( pipe = = NULL | | chan_obj = = NULL ) {
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ret = ESP_ERR_NO_MEM ;
goto err ;
}
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for ( int i = 0 ; i < NUM_BUFFERS ; i + + ) {
buffers [ i ] = buffer_block_alloc ( type ) ;
if ( buffers [ i ] = = NULL ) {
ret = ESP_ERR_NO_MEM ;
goto err ;
}
}
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//Initialize pipe object
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TAILQ_INIT ( & pipe - > pending_urb_tailq ) ;
TAILQ_INIT ( & pipe - > done_urb_tailq ) ;
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for ( int i = 0 ; i < NUM_BUFFERS ; i + + ) {
pipe - > buffers [ i ] = buffers [ i ] ;
}
pipe - > multi_buffer_control . buffer_num_to_fill = NUM_BUFFERS ;
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pipe - > port = port ;
pipe - > chan_obj = chan_obj ;
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usbh_hal_ep_char_t ep_char ;
pipe_set_ep_char ( pipe_config , type , is_default , pipe_idx , port_speed , & ep_char ) ;
memcpy ( & pipe - > ep_char , & ep_char , sizeof ( usbh_hal_ep_char_t ) ) ;
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pipe - > state = HCD_PIPE_STATE_ACTIVE ;
pipe - > callback = pipe_config - > callback ;
pipe - > callback_arg = pipe_config - > callback_arg ;
pipe - > context = pipe_config - > context ;
//Allocate channel
HCD_ENTER_CRITICAL ( ) ;
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if ( ! port - > initialized | | ! port - > flags . conn_dev_ena ) {
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HCD_EXIT_CRITICAL ( ) ;
ret = ESP_ERR_INVALID_STATE ;
goto err ;
}
bool chan_allocated = usbh_hal_chan_alloc ( port - > hal , pipe - > chan_obj , ( void * ) pipe ) ;
if ( ! chan_allocated ) {
HCD_EXIT_CRITICAL ( ) ;
ret = ESP_ERR_NOT_SUPPORTED ;
goto err ;
}
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usbh_hal_chan_set_ep_char ( port - > hal , pipe - > chan_obj , & pipe - > ep_char ) ;
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//Add the pipe to the list of idle pipes in the port object
TAILQ_INSERT_TAIL ( & port - > pipes_idle_tailq , pipe , tailq_entry ) ;
port - > num_pipes_idle + + ;
HCD_EXIT_CRITICAL ( ) ;
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* pipe_hdl = ( hcd_pipe_handle_t ) pipe ;
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return ESP_OK ;
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err :
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for ( int i = 0 ; i < NUM_BUFFERS ; i + + ) {
buffer_block_free ( buffers [ i ] ) ;
}
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free ( chan_obj ) ;
free ( pipe ) ;
return ret ;
}
esp_err_t hcd_pipe_free ( hcd_pipe_handle_t pipe_hdl )
{
pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
HCD_ENTER_CRITICAL ( ) ;
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//Check that all URBs have been removed and pipe has no pending events
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HCD_CHECK_FROM_CRIT ( ! pipe - > multi_buffer_control . buffer_is_executing
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& & ! pipe - > cs_flags . has_urb
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& & ! pipe - > cs_flags . reset_lock ,
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ESP_ERR_INVALID_STATE ) ;
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//Remove pipe from the list of idle pipes (it must be in the idle list because it should have no queued URBs)
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TAILQ_REMOVE ( & pipe - > port - > pipes_idle_tailq , pipe , tailq_entry ) ;
pipe - > port - > num_pipes_idle - - ;
usbh_hal_chan_free ( pipe - > port - > hal , pipe - > chan_obj ) ;
HCD_EXIT_CRITICAL ( ) ;
//Free pipe resources
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for ( int i = 0 ; i < NUM_BUFFERS ; i + + ) {
buffer_block_free ( pipe - > buffers [ i ] ) ;
}
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free ( pipe - > chan_obj ) ;
free ( pipe ) ;
return ESP_OK ;
}
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esp_err_t hcd_pipe_update_mps ( hcd_pipe_handle_t pipe_hdl , int mps )
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{
pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
HCD_ENTER_CRITICAL ( ) ;
//Check if pipe is in the correct state to be updated
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HCD_CHECK_FROM_CRIT ( ! pipe - > cs_flags . pipe_cmd_processing & &
! pipe - > cs_flags . has_urb & &
! pipe - > cs_flags . reset_lock ,
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ESP_ERR_INVALID_STATE ) ;
pipe - > ep_char . mps = mps ;
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//Update the underlying channel's registers
usbh_hal_chan_set_ep_char ( pipe - > port - > hal , pipe - > chan_obj , & pipe - > ep_char ) ;
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HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
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esp_err_t hcd_pipe_update_dev_addr ( hcd_pipe_handle_t pipe_hdl , uint8_t dev_addr )
{
pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
HCD_ENTER_CRITICAL ( ) ;
//Check if pipe is in the correct state to be updated
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HCD_CHECK_FROM_CRIT ( ! pipe - > cs_flags . pipe_cmd_processing & &
! pipe - > cs_flags . has_urb & &
! pipe - > cs_flags . reset_lock ,
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ESP_ERR_INVALID_STATE ) ;
pipe - > ep_char . dev_addr = dev_addr ;
//Update the underlying channel's registers
usbh_hal_chan_set_ep_char ( pipe - > port - > hal , pipe - > chan_obj , & pipe - > ep_char ) ;
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
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esp_err_t hcd_pipe_update_callback ( hcd_pipe_handle_t pipe_hdl , hcd_pipe_callback_t callback , void * user_arg )
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{
pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
HCD_ENTER_CRITICAL ( ) ;
//Check if pipe is in the correct state to be updated
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HCD_CHECK_FROM_CRIT ( ! pipe - > cs_flags . pipe_cmd_processing & &
! pipe - > cs_flags . has_urb & &
! pipe - > cs_flags . reset_lock ,
ESP_ERR_INVALID_STATE ) ;
pipe - > callback = callback ;
pipe - > callback_arg = user_arg ;
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
esp_err_t hcd_pipe_set_persist_reset ( hcd_pipe_handle_t pipe_hdl )
{
pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
HCD_ENTER_CRITICAL ( ) ;
//Check if pipe is in the correct state to be updated
HCD_CHECK_FROM_CRIT ( ! pipe - > cs_flags . pipe_cmd_processing & &
! pipe - > cs_flags . has_urb & &
! pipe - > cs_flags . reset_lock ,
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ESP_ERR_INVALID_STATE ) ;
pipe - > cs_flags . persist = 1 ;
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
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void * hcd_pipe_get_context ( hcd_pipe_handle_t pipe_hdl )
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{
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pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
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void * ret ;
HCD_ENTER_CRITICAL ( ) ;
ret = pipe - > context ;
HCD_EXIT_CRITICAL ( ) ;
return ret ;
}
hcd_pipe_state_t hcd_pipe_get_state ( hcd_pipe_handle_t pipe_hdl )
{
hcd_pipe_state_t ret ;
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pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
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HCD_ENTER_CRITICAL ( ) ;
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ret = pipe - > state ;
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HCD_EXIT_CRITICAL ( ) ;
return ret ;
}
esp_err_t hcd_pipe_command ( hcd_pipe_handle_t pipe_hdl , hcd_pipe_cmd_t command )
{
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pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
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esp_err_t ret = ESP_OK ;
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HCD_ENTER_CRITICAL ( ) ;
//Cannot execute pipe commands the pipe is already executing a command, or if the pipe or its port are no longer valid
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if ( pipe - > cs_flags . reset_lock ) {
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ret = ESP_ERR_INVALID_STATE ;
} else {
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pipe - > cs_flags . pipe_cmd_processing = 1 ;
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switch ( command ) {
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case HCD_PIPE_CMD_HALT : {
ret = _pipe_cmd_halt ( pipe ) ;
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break ;
}
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case HCD_PIPE_CMD_FLUSH : {
ret = _pipe_cmd_flush ( pipe ) ;
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break ;
}
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case HCD_PIPE_CMD_CLEAR : {
ret = _pipe_cmd_clear ( pipe ) ;
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break ;
}
}
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pipe - > cs_flags . pipe_cmd_processing = 0 ;
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}
HCD_EXIT_CRITICAL ( ) ;
return ret ;
}
hcd_pipe_event_t hcd_pipe_get_event ( hcd_pipe_handle_t pipe_hdl )
{
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pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
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hcd_pipe_event_t ret ;
HCD_ENTER_CRITICAL ( ) ;
ret = pipe - > last_event ;
pipe - > last_event = HCD_PIPE_EVENT_NONE ;
HCD_EXIT_CRITICAL ( ) ;
return ret ;
}
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// ------------------------------------------------- Buffer Control ----------------------------------------------------
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static inline void _buffer_fill_ctrl ( dma_buffer_block_t * buffer , usb_transfer_t * transfer )
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{
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//Get information about the control transfer by analyzing the setup packet (the first 8 bytes of the URB's data)
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usb_setup_packet_t * setup_pkt = ( usb_setup_packet_t * ) transfer - > data_buffer ;
bool data_stg_in = ( setup_pkt - > bmRequestType & USB_BM_REQUEST_TYPE_DIR_IN ) ;
bool data_stg_skip = ( setup_pkt - > wLength = = 0 ) ;
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//Fill setup stage
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 0 , transfer - > data_buffer , sizeof ( usb_setup_packet_t ) ,
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USBH_HAL_XFER_DESC_FLAG_SETUP | USBH_HAL_XFER_DESC_FLAG_HOC ) ;
//Fill data stage
if ( data_stg_skip ) {
//Not data stage. Fill with an empty descriptor
usbh_hal_xfer_desc_clear ( buffer - > xfer_desc_list , 1 ) ;
} else {
//Fill data stage
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 1 , transfer - > data_buffer + sizeof ( usb_setup_packet_t ) , setup_pkt - > wLength ,
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( ( data_stg_in ) ? USBH_HAL_XFER_DESC_FLAG_IN : 0 ) | USBH_HAL_XFER_DESC_FLAG_HOC ) ;
}
//Fill status stage (i.e., a zero length packet). If data stage is skipped, the status stage is always IN.
usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 2 , NULL , 0 ,
( ( data_stg_in & & ! data_stg_skip ) ? 0 : USBH_HAL_XFER_DESC_FLAG_IN ) | USBH_HAL_XFER_DESC_FLAG_HOC ) ;
//Update buffer flags
buffer - > flags . ctrl . data_stg_in = data_stg_in ;
buffer - > flags . ctrl . data_stg_skip = data_stg_skip ;
buffer - > flags . ctrl . cur_stg = 0 ;
}
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static inline void _buffer_fill_bulk ( dma_buffer_block_t * buffer , usb_transfer_t * transfer , bool is_in )
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{
if ( is_in ) {
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 0 , transfer - > data_buffer , transfer - > num_bytes ,
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USBH_HAL_XFER_DESC_FLAG_IN | USBH_HAL_XFER_DESC_FLAG_HOC ) ;
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} else if ( transfer - > flags & USB_TRANSFER_FLAG_ZERO_PACK ) {
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//We need to add an extra zero length packet, so two descriptors are used
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 0 , transfer - > data_buffer , transfer - > num_bytes , 0 ) ;
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 1 , NULL , 0 , USBH_HAL_XFER_DESC_FLAG_HOC ) ;
} else {
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , 0 , transfer - > data_buffer , transfer - > num_bytes , USBH_HAL_XFER_DESC_FLAG_HOC ) ;
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}
//Update buffer flags
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buffer - > flags . bulk . zero_len_packet = ( is_in & & ( transfer - > flags & USB_TRANSFER_FLAG_ZERO_PACK ) ) ? 1 : 0 ;
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}
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static inline void _buffer_fill_intr ( dma_buffer_block_t * buffer , usb_transfer_t * transfer , bool is_in , int mps )
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{
int num_qtds ;
if ( is_in ) {
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assert ( transfer - > num_bytes % mps = = 0 ) ; //IN transfers MUST be integer multiple of MPS
num_qtds = transfer - > num_bytes / mps ;
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} else {
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num_qtds = transfer - > num_bytes / mps ; //Floor division for number of MPS packets
if ( transfer - > num_bytes % transfer - > num_bytes > 0 ) {
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num_qtds + + ; //For the last shot packet
}
}
assert ( num_qtds < = XFER_LIST_LEN_INTR ) ;
//Fill all but last descriptor
int bytes_filled = 0 ;
for ( int i = 0 ; i < num_qtds - 1 ; i + + ) {
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , i , & transfer - > data_buffer [ bytes_filled ] , mps , ( is_in ) ? USBH_HAL_XFER_DESC_FLAG_IN : 0 ) ;
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bytes_filled + = mps ;
}
//Fill in the last descriptor with HOC flag
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , num_qtds - 1 , & transfer - > data_buffer [ bytes_filled ] , transfer - > num_bytes - bytes_filled ,
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( ( is_in ) ? USBH_HAL_XFER_DESC_FLAG_IN : 0 ) | USBH_HAL_XFER_DESC_FLAG_HOC ) ;
//Update buffer members and flags
buffer - > flags . intr . num_qtds = num_qtds ;
}
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static inline void _buffer_fill_isoc ( dma_buffer_block_t * buffer , usb_transfer_t * transfer , bool is_in , int mps , int interval , int start_idx )
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{
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assert ( interval > 0 ) ;
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int total_num_desc = transfer - > num_isoc_packets * interval ;
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assert ( total_num_desc < = XFER_LIST_LEN_ISOC ) ;
int desc_idx = start_idx ;
int bytes_filled = 0 ;
//For each packet, fill in a descriptor and a interval-1 blank descriptor after it
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for ( int pkt_idx = 0 ; pkt_idx < transfer - > num_isoc_packets ; pkt_idx + + ) {
int xfer_len = transfer - > isoc_packet_desc [ pkt_idx ] . num_bytes ;
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uint32_t flags = ( is_in ) ? USBH_HAL_XFER_DESC_FLAG_IN : 0 ;
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if ( pkt_idx = = transfer - > num_isoc_packets - 1 ) {
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//Last packet, set the the HOC flag
flags | = USBH_HAL_XFER_DESC_FLAG_HOC ;
}
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usbh_hal_xfer_desc_fill ( buffer - > xfer_desc_list , desc_idx , & transfer - > data_buffer [ bytes_filled ] , xfer_len , flags ) ;
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bytes_filled + = xfer_len ;
if ( + + desc_idx > = XFER_LIST_LEN_ISOC ) {
desc_idx = 0 ;
}
//Clear descriptors for unscheduled frames
for ( int i = 0 ; i < interval - 1 ; i + + ) {
usbh_hal_xfer_desc_clear ( buffer - > xfer_desc_list , desc_idx ) ;
if ( + + desc_idx > = XFER_LIST_LEN_ISOC ) {
desc_idx = 0 ;
}
}
}
//Update buffer members and flags
buffer - > flags . isoc . num_qtds = total_num_desc ;
buffer - > flags . isoc . interval = interval ;
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buffer - > flags . isoc . start_idx = start_idx ;
buffer - > flags . isoc . next_start_idx = desc_idx ;
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}
static void _buffer_fill ( pipe_t * pipe )
{
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//Get an URB from the pending tailq
urb_t * urb = TAILQ_FIRST ( & pipe - > pending_urb_tailq ) ;
assert ( pipe - > num_urb_pending > 0 & & urb ! = NULL ) ;
TAILQ_REMOVE ( & pipe - > pending_urb_tailq , urb , tailq_entry ) ;
pipe - > num_urb_pending - - ;
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//Select the inactive buffer
assert ( pipe - > multi_buffer_control . buffer_num_to_exec < = NUM_BUFFERS ) ;
dma_buffer_block_t * buffer_to_fill = pipe - > buffers [ pipe - > multi_buffer_control . wr_idx ] ;
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buffer_to_fill - > status_flags . val = 0 ; //Clear the buffer's status flags
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assert ( buffer_to_fill - > urb = = NULL ) ;
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bool is_in = pipe - > ep_char . bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_DIR_MASK ;
int mps = pipe - > ep_char . mps ;
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usb_transfer_t * transfer = & urb - > transfer ;
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switch ( pipe - > ep_char . type ) {
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case USB_PRIV_XFER_TYPE_CTRL : {
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_buffer_fill_ctrl ( buffer_to_fill , transfer ) ;
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break ;
}
case USB_PRIV_XFER_TYPE_ISOCHRONOUS : {
uint32_t start_idx ;
if ( pipe - > multi_buffer_control . buffer_num_to_exec = = 0 ) {
//There are no more previously filled buffers to execute. We need to calculate a new start index based on HFNUM and the pipe's schedule
uint32_t cur_frame_num = usbh_hal_port_get_cur_frame_num ( pipe - > port - > hal ) ;
uint32_t cur_mod_idx_no_offset = ( cur_frame_num - pipe - > ep_char . periodic . phase_offset_frames ) & ( XFER_LIST_LEN_ISOC - 1 ) ; //Get the modulated index (i.e., the Nth desc in the descriptor list)
//This is the non-offset modulated QTD index of the last scheduled interval
uint32_t last_interval_mod_idx_no_offset = ( cur_mod_idx_no_offset / pipe - > ep_char . periodic . interval ) * pipe - > ep_char . periodic . interval ; //Floor divide and the multiply again
uint32_t next_interval_idx_no_offset = ( last_interval_mod_idx_no_offset + pipe - > ep_char . periodic . interval ) ;
//We want at least a half interval or 2 frames of buffer space
if ( next_interval_idx_no_offset - cur_mod_idx_no_offset > ( pipe - > ep_char . periodic . interval / 2 )
& & next_interval_idx_no_offset - cur_mod_idx_no_offset > = 2 ) {
start_idx = ( next_interval_idx_no_offset + pipe - > ep_char . periodic . phase_offset_frames ) & ( XFER_LIST_LEN_ISOC - 1 ) ;
} else {
//Not enough time until the next schedule, add another interval to it.
start_idx = ( next_interval_idx_no_offset + pipe - > ep_char . periodic . interval + pipe - > ep_char . periodic . phase_offset_frames ) & ( XFER_LIST_LEN_ISOC - 1 ) ;
}
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} else {
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//Start index is based on previously filled buffer
uint32_t prev_buffer_idx = ( pipe - > multi_buffer_control . wr_idx - 1 ) & ( NUM_BUFFERS - 1 ) ;
dma_buffer_block_t * prev_filled_buffer = pipe - > buffers [ prev_buffer_idx ] ;
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start_idx = prev_filled_buffer - > flags . isoc . next_start_idx ;
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}
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_buffer_fill_isoc ( buffer_to_fill , transfer , is_in , mps , ( int ) pipe - > ep_char . periodic . interval , start_idx ) ;
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break ;
}
case USB_PRIV_XFER_TYPE_BULK : {
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_buffer_fill_bulk ( buffer_to_fill , transfer , is_in ) ;
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break ;
}
case USB_PRIV_XFER_TYPE_INTR : {
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_buffer_fill_intr ( buffer_to_fill , transfer , is_in , mps ) ;
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break ;
}
default : {
abort ( ) ;
break ;
}
}
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buffer_to_fill - > urb = urb ;
urb - > hcd_var = URB_HCD_STATE_INFLIGHT ;
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//Update multi buffer flags
pipe - > multi_buffer_control . wr_idx + + ;
pipe - > multi_buffer_control . buffer_num_to_fill - - ;
pipe - > multi_buffer_control . buffer_num_to_exec + + ;
}
static void _buffer_exec ( pipe_t * pipe )
{
assert ( pipe - > multi_buffer_control . rd_idx ! = pipe - > multi_buffer_control . wr_idx | | pipe - > multi_buffer_control . buffer_num_to_exec > 0 ) ;
dma_buffer_block_t * buffer_to_exec = pipe - > buffers [ pipe - > multi_buffer_control . rd_idx ] ;
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assert ( buffer_to_exec - > urb ! = NULL ) ;
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uint32_t start_idx ;
int desc_list_len ;
switch ( pipe - > ep_char . type ) {
case USB_PRIV_XFER_TYPE_CTRL : {
start_idx = 0 ;
desc_list_len = XFER_LIST_LEN_CTRL ;
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//Set the channel's direction to OUT and PID to 0 respectively for the the setup stage
usbh_hal_chan_set_dir ( pipe - > chan_obj , false ) ; //Setup stage is always OUT
usbh_hal_chan_set_pid ( pipe - > chan_obj , 0 ) ; //Setup stage always has a PID of DATA0
break ;
}
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case USB_PRIV_XFER_TYPE_ISOCHRONOUS : {
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start_idx = buffer_to_exec - > flags . isoc . start_idx ;
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desc_list_len = XFER_LIST_LEN_ISOC ;
break ;
}
case USB_PRIV_XFER_TYPE_BULK : {
start_idx = 0 ;
desc_list_len = ( buffer_to_exec - > flags . bulk . zero_len_packet ) ? XFER_LIST_LEN_BULK : 1 ;
break ;
}
case USB_PRIV_XFER_TYPE_INTR : {
start_idx = 0 ;
desc_list_len = buffer_to_exec - > flags . intr . num_qtds ;
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break ;
}
default : {
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start_idx = 0 ;
desc_list_len = 0 ;
abort ( ) ;
break ;
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}
}
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//Update buffer and multi buffer flags
buffer_to_exec - > status_flags . executing = 1 ;
pipe - > multi_buffer_control . buffer_is_executing = 1 ;
usbh_hal_chan_activate ( pipe - > chan_obj , buffer_to_exec - > xfer_desc_list , desc_list_len , start_idx ) ;
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}
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static void _buffer_exec_cont ( pipe_t * pipe )
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{
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//This should only ever be called on control transfers
assert ( pipe - > ep_char . type = = USB_PRIV_XFER_TYPE_CTRL ) ;
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dma_buffer_block_t * buffer_inflight = pipe - > buffers [ pipe - > multi_buffer_control . rd_idx ] ;
bool next_dir_is_in ;
int next_pid ;
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assert ( buffer_inflight - > flags . ctrl . cur_stg ! = 2 ) ;
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if ( buffer_inflight - > flags . ctrl . cur_stg = = 0 ) { //Just finished control stage
if ( buffer_inflight - > flags . ctrl . data_stg_skip ) {
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//Skipping data stage. Go straight to status stage
next_dir_is_in = true ; //With no data stage, status stage must be IN
next_pid = 1 ; //Status stage always has a PID of DATA1
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buffer_inflight - > flags . ctrl . cur_stg = 2 ; //Skip over the null descriptor representing the skipped data stage
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} else {
//Go to data stage
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next_dir_is_in = buffer_inflight - > flags . ctrl . data_stg_in ;
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next_pid = 1 ; //Data stage always starts with a PID of DATA1
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buffer_inflight - > flags . ctrl . cur_stg = 1 ;
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}
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} else { //cur_stg == 1. //Just finished data stage. Go to status stage
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next_dir_is_in = ! buffer_inflight - > flags . ctrl . data_stg_in ; //Status stage is always the opposite direction of data stage
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next_pid = 1 ; //Status stage always has a PID of DATA1
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buffer_inflight - > flags . ctrl . cur_stg = 2 ;
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}
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//Continue the control transfer
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usbh_hal_chan_set_dir ( pipe - > chan_obj , next_dir_is_in ) ;
usbh_hal_chan_set_pid ( pipe - > chan_obj , next_pid ) ;
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usbh_hal_chan_activate ( pipe - > chan_obj , buffer_inflight - > xfer_desc_list , XFER_LIST_LEN_CTRL , buffer_inflight - > flags . ctrl . cur_stg ) ;
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}
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static inline void _buffer_parse_ctrl ( dma_buffer_block_t * buffer )
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{
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usb_transfer_t * transfer = & buffer - > urb - > transfer ;
//Update URB's actual number of bytes
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if ( buffer - > flags . ctrl . data_stg_skip ) {
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//There was no data stage. Just set the actual length to the size of the setup packet
transfer - > actual_num_bytes = sizeof ( usb_setup_packet_t ) ;
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} else {
//Parse the data stage for the remaining length
int rem_len ;
int desc_status ;
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , 1 , & rem_len , & desc_status ) ;
assert ( desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
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assert ( rem_len < = ( transfer - > num_bytes - sizeof ( usb_setup_packet_t ) ) ) ;
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transfer - > actual_num_bytes = transfer - > num_bytes - rem_len ;
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}
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//Update URB status
transfer - > status = USB_TRANSFER_STATUS_COMPLETED ;
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//Clear the descriptor list
memset ( buffer - > xfer_desc_list , XFER_LIST_LEN_CTRL , sizeof ( usbh_ll_dma_qtd_t ) ) ;
}
static inline void _buffer_parse_bulk ( dma_buffer_block_t * buffer )
{
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usb_transfer_t * transfer = & buffer - > urb - > transfer ;
//Update URB's actual number of bytes
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int rem_len ;
int desc_status ;
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , 0 , & rem_len , & desc_status ) ;
assert ( desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
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assert ( rem_len < = transfer - > num_bytes ) ;
transfer - > actual_num_bytes = transfer - > num_bytes - rem_len ;
//Update URB's status
transfer - > status = USB_TRANSFER_STATUS_COMPLETED ;
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//Clear the descriptor list
memset ( buffer - > xfer_desc_list , XFER_LIST_LEN_BULK , sizeof ( usbh_ll_dma_qtd_t ) ) ;
}
static inline void _buffer_parse_intr ( dma_buffer_block_t * buffer , bool is_in , int mps )
{
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usb_transfer_t * transfer = & buffer - > urb - > transfer ;
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int intr_stop_idx = buffer - > status_flags . stop_idx ;
if ( is_in ) {
if ( intr_stop_idx > 0 ) { //This is an early stop (short packet)
assert ( intr_stop_idx < = buffer - > flags . intr . num_qtds ) ;
int rem_len ;
int desc_status ;
for ( int i = 0 ; i < intr_stop_idx - 1 ; i + + ) { //Check all packets before the short
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , i , & rem_len , & desc_status ) ;
assert ( rem_len = = 0 & & desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
}
//Check the short packet
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , intr_stop_idx - 1 , & rem_len , & desc_status ) ;
assert ( rem_len > 0 & & desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
//Update actual bytes
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transfer - > actual_num_bytes = ( mps * intr_stop_idx - 2 ) + ( mps - rem_len ) ;
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} else {
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//Check that all but the last packet transmitted MPS
for ( int i = 0 ; i < buffer - > flags . intr . num_qtds - 1 ; i + + ) {
int rem_len ;
int desc_status ;
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , i , & rem_len , & desc_status ) ;
assert ( rem_len = = 0 & & desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
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}
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//Check the last packet
int last_packet_rem_len ;
int last_packet_desc_status ;
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , buffer - > flags . intr . num_qtds - 1 , & last_packet_rem_len , & last_packet_desc_status ) ;
assert ( last_packet_desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
//All packets except last MUST be MPS. So just deduct the remaining length of the last packet to get actual number of bytes
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transfer - > actual_num_bytes = transfer - > num_bytes - last_packet_rem_len ;
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}
} else {
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//OUT INTR transfers can only complete successfully if all MPS packets have been transmitted. Double check
for ( int i = 0 ; i < buffer - > flags . intr . num_qtds ; i + + ) {
int rem_len ;
int desc_status ;
usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , i , & rem_len , & desc_status ) ;
assert ( rem_len = = 0 & & desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS ) ;
}
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transfer - > actual_num_bytes = transfer - > num_bytes ;
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}
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//Update URB's status
transfer - > status = USB_TRANSFER_STATUS_COMPLETED ;
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//Clear the descriptor list
memset ( buffer - > xfer_desc_list , XFER_LIST_LEN_INTR , sizeof ( usbh_ll_dma_qtd_t ) ) ;
}
static inline void _buffer_parse_isoc ( dma_buffer_block_t * buffer , bool is_in )
{
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usb_transfer_t * transfer = & buffer - > urb - > transfer ;
int desc_idx = buffer - > flags . isoc . start_idx ; //Descriptor index tracks which descriptor in the QTD list
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int total_actual_num_bytes = 0 ;
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for ( int pkt_idx = 0 ; pkt_idx < transfer - > num_isoc_packets ; pkt_idx + + ) {
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//Clear the filled descriptor
int rem_len ;
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int desc_status ;
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usbh_hal_xfer_desc_parse ( buffer - > xfer_desc_list , desc_idx , & rem_len , & desc_status ) ;
usbh_hal_xfer_desc_clear ( buffer - > xfer_desc_list , desc_idx ) ;
assert ( rem_len = = 0 | | is_in ) ;
assert ( desc_status = = USBH_HAL_XFER_DESC_STS_SUCCESS | | USBH_HAL_XFER_DESC_STS_NOT_EXECUTED ) ;
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assert ( rem_len < = transfer - > isoc_packet_desc [ pkt_idx ] . num_bytes ) ; //Check for DMA errata
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//Update ISO packet actual length and status
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transfer - > isoc_packet_desc [ pkt_idx ] . actual_num_bytes = transfer - > isoc_packet_desc [ pkt_idx ] . num_bytes - rem_len ;
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total_actual_num_bytes + = transfer - > isoc_packet_desc [ pkt_idx ] . actual_num_bytes ;
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transfer - > isoc_packet_desc [ pkt_idx ] . status = ( desc_status = = USBH_HAL_XFER_DESC_STS_NOT_EXECUTED ) ? USB_TRANSFER_STATUS_SKIPPED : USB_TRANSFER_STATUS_COMPLETED ;
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//A descriptor is also allocated for unscheduled frames. We need to skip over them
desc_idx + = buffer - > flags . isoc . interval ;
if ( desc_idx > = XFER_LIST_LEN_INTR ) {
desc_idx - = XFER_LIST_LEN_INTR ;
}
}
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//Write back the actual_num_bytes and statue of entire transfer
assert ( total_actual_num_bytes < = transfer - > num_bytes ) ;
transfer - > actual_num_bytes = total_actual_num_bytes ;
transfer - > status = USB_TRANSFER_STATUS_COMPLETED ;
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}
static inline void _buffer_parse_error ( dma_buffer_block_t * buffer )
{
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//The URB had an error in one of its packet, or a port error), so we the entire URB an error.
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usb_transfer_t * transfer = & buffer - > urb - > transfer ;
transfer - > actual_num_bytes = 0 ;
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//Update the overall status of URB. Status will depend on the pipe_event
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switch ( buffer - > status_flags . pipe_event ) {
case HCD_PIPE_EVENT_NONE :
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transfer - > status = ( buffer - > status_flags . was_canceled ) ? USB_TRANSFER_STATUS_CANCELED : USB_TRANSFER_STATUS_NO_DEVICE ;
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break ;
case HCD_PIPE_EVENT_ERROR_XFER :
transfer - > status = USB_TRANSFER_STATUS_ERROR ;
break ;
case HCD_PIPE_EVENT_ERROR_OVERFLOW :
transfer - > status = USB_TRANSFER_STATUS_OVERFLOW ;
break ;
case HCD_PIPE_EVENT_ERROR_STALL :
transfer - > status = USB_TRANSFER_STATUS_STALL ;
break ;
default :
//HCD_PIPE_EVENT_URB_DONE and HCD_PIPE_EVENT_ERROR_URB_NOT_AVAIL should not occur here
abort ( ) ;
break ;
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}
}
static void _buffer_parse ( pipe_t * pipe )
{
assert ( pipe - > multi_buffer_control . buffer_num_to_parse > 0 ) ;
dma_buffer_block_t * buffer_to_parse = pipe - > buffers [ pipe - > multi_buffer_control . fr_idx ] ;
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assert ( buffer_to_parse - > urb ! = NULL ) ;
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bool is_in = pipe - > ep_char . bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_DIR_MASK ;
int mps = pipe - > ep_char . mps ;
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//Parsing the buffer will update the buffer's corresponding URB
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if ( buffer_to_parse - > status_flags . pipe_event = = HCD_PIPE_EVENT_URB_DONE ) {
//URB was successful
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switch ( pipe - > ep_char . type ) {
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case USB_PRIV_XFER_TYPE_CTRL : {
_buffer_parse_ctrl ( buffer_to_parse ) ;
break ;
}
case USB_PRIV_XFER_TYPE_ISOCHRONOUS : {
_buffer_parse_isoc ( buffer_to_parse , is_in ) ;
break ;
}
case USB_PRIV_XFER_TYPE_BULK : {
_buffer_parse_bulk ( buffer_to_parse ) ;
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break ;
}
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case USB_PRIV_XFER_TYPE_INTR : {
_buffer_parse_intr ( buffer_to_parse , is_in , mps ) ;
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break ;
}
default : {
abort ( ) ;
break ;
}
}
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} else {
//URB failed
_buffer_parse_error ( buffer_to_parse ) ;
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}
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urb_t * urb = buffer_to_parse - > urb ;
urb - > hcd_var = URB_HCD_STATE_DONE ;
buffer_to_parse - > urb = NULL ;
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buffer_to_parse - > flags . val = 0 ; //Clear flags
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//Move the URB to the done tailq
TAILQ_INSERT_TAIL ( & pipe - > done_urb_tailq , urb , tailq_entry ) ;
pipe - > num_urb_done + + ;
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//Update multi buffer flags
pipe - > multi_buffer_control . fr_idx + + ;
pipe - > multi_buffer_control . buffer_num_to_parse - - ;
pipe - > multi_buffer_control . buffer_num_to_fill + + ;
}
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static bool _buffer_flush_all ( pipe_t * pipe , bool canceled )
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{
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int cur_num_to_mark_done = pipe - > multi_buffer_control . buffer_num_to_exec ;
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for ( int i = 0 ; i < cur_num_to_mark_done ; i + + ) {
//Mark any filled buffers as done
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_buffer_done ( pipe , 0 , HCD_PIPE_EVENT_NONE , canceled ) ;
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}
int cur_num_to_parse = pipe - > multi_buffer_control . buffer_num_to_parse ;
for ( int i = 0 ; i < cur_num_to_parse ; i + + ) {
_buffer_parse ( pipe ) ;
}
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//At this point, there should be no more filled buffers. Only URBs in the pending or done tailq
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return ( cur_num_to_parse > 0 ) ;
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}
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// ---------------------------------------------- HCD Transfer Descriptors ---------------------------------------------
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// ----------------------- Public --------------------------
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esp_err_t hcd_urb_enqueue ( hcd_pipe_handle_t pipe_hdl , urb_t * urb )
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{
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//Check that URB has not already been enqueued
HCD_CHECK ( urb - > hcd_ptr = = NULL & & urb - > hcd_var = = URB_HCD_STATE_IDLE , ESP_ERR_INVALID_STATE ) ;
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pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
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HCD_ENTER_CRITICAL ( ) ;
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//Check that pipe and port are in the correct state to receive URBs
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HCD_CHECK_FROM_CRIT ( pipe - > port - > state = = HCD_PORT_STATE_ENABLED //The pipe's port must be in the correct state
& & pipe - > state = = HCD_PIPE_STATE_ACTIVE //The pipe must be in the correct state
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& & ! pipe - > cs_flags . pipe_cmd_processing //Pipe cannot currently be processing a pipe command
& & ! pipe - > cs_flags . reset_lock , //Pipe cannot be persisting through a port reset
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ESP_ERR_INVALID_STATE ) ;
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//Use the URB's reserved_ptr to store the pipe's
urb - > hcd_ptr = ( void * ) pipe ;
//Add the URB to the pipe's pending tailq
urb - > hcd_var = URB_HCD_STATE_PENDING ;
TAILQ_INSERT_TAIL ( & pipe - > pending_urb_tailq , urb , tailq_entry ) ;
pipe - > num_urb_pending + + ;
//use the URB's reserved_flags to store the URB's current state
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if ( _buffer_can_fill ( pipe ) ) {
_buffer_fill ( pipe ) ;
}
if ( _buffer_can_exec ( pipe ) ) {
_buffer_exec ( pipe ) ;
}
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if ( ! pipe - > cs_flags . has_urb ) {
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//This is the first URB to be enqueued into the pipe. Move the pipe to the list of active pipes
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TAILQ_REMOVE ( & pipe - > port - > pipes_idle_tailq , pipe , tailq_entry ) ;
TAILQ_INSERT_TAIL ( & pipe - > port - > pipes_active_tailq , pipe , tailq_entry ) ;
pipe - > port - > num_pipes_idle - - ;
pipe - > port - > num_pipes_queued + + ;
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pipe - > cs_flags . has_urb = 1 ;
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}
HCD_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
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urb_t * hcd_urb_dequeue ( hcd_pipe_handle_t pipe_hdl )
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{
pipe_t * pipe = ( pipe_t * ) pipe_hdl ;
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urb_t * urb ;
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HCD_ENTER_CRITICAL ( ) ;
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if ( pipe - > num_urb_done > 0 ) {
urb = TAILQ_FIRST ( & pipe - > done_urb_tailq ) ;
TAILQ_REMOVE ( & pipe - > done_urb_tailq , urb , tailq_entry ) ;
pipe - > num_urb_done - - ;
//Check the URB's reserved fields then reset them
assert ( urb - > hcd_ptr = = ( void * ) pipe & & urb - > hcd_var = = URB_HCD_STATE_DONE ) ; //The URB's reserved field should have been set to this pipe
urb - > hcd_ptr = NULL ;
urb - > hcd_var = URB_HCD_STATE_IDLE ;
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if ( pipe - > cs_flags . has_urb
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& & pipe - > num_urb_pending = = 0 & & pipe - > num_urb_done = = 0
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& & pipe - > multi_buffer_control . buffer_num_to_exec = = 0 & & pipe - > multi_buffer_control . buffer_num_to_parse = = 0 ) {
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//This pipe has no more enqueued URBs. Move the pipe to the list of idle pipes
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TAILQ_REMOVE ( & pipe - > port - > pipes_active_tailq , pipe , tailq_entry ) ;
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TAILQ_INSERT_TAIL ( & pipe - > port - > pipes_idle_tailq , pipe , tailq_entry ) ;
pipe - > port - > num_pipes_idle + + ;
pipe - > port - > num_pipes_queued - - ;
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pipe - > cs_flags . has_urb = 0 ;
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}
} else {
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//No more URBs to dequeue from this pipe
urb = NULL ;
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}
HCD_EXIT_CRITICAL ( ) ;
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return urb ;
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}
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esp_err_t hcd_urb_abort ( urb_t * urb )
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{
HCD_ENTER_CRITICAL ( ) ;
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//Check that the URB was enqueued to begin with
HCD_CHECK_FROM_CRIT ( urb - > hcd_ptr ! = NULL & & urb - > hcd_var ! = URB_HCD_STATE_IDLE , ESP_ERR_INVALID_STATE ) ;
if ( urb - > hcd_var = = URB_HCD_STATE_PENDING ) {
//URB has not been executed so it can be aborted
pipe_t * pipe = ( pipe_t * ) urb - > hcd_ptr ;
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//Remove it form the pending queue
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TAILQ_REMOVE ( & pipe - > pending_urb_tailq , urb , tailq_entry ) ;
pipe - > num_urb_pending - - ;
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//Add it to the done queue
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TAILQ_INSERT_TAIL ( & pipe - > done_urb_tailq , urb , tailq_entry ) ;
pipe - > num_urb_done + + ;
//Update the URB's current state, status, and actual length
urb - > hcd_var = URB_HCD_STATE_DONE ;
if ( urb - > transfer . num_isoc_packets = = 0 ) {
urb - > transfer . actual_num_bytes = 0 ;
urb - > transfer . status = USB_TRANSFER_STATUS_CANCELED ;
} else {
//If this is an ISOC URB, update the ISO packet descriptors instead
for ( int i = 0 ; i < urb - > transfer . num_isoc_packets ; i + + ) {
urb - > transfer . isoc_packet_desc [ i ] . actual_num_bytes = 0 ;
urb - > transfer . isoc_packet_desc [ i ] . status = USB_TRANSFER_STATUS_CANCELED ;
}
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}
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} // Otherwise, the URB is in-flight or already done thus cannot be aborted
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HCD_EXIT_CRITICAL ( ) ;
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return ESP_OK ;
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}