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/*
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* SPDX - FileCopyrightText : 2015 - 2022 Espressif Systems ( Shanghai ) CO LTD
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*
* SPDX - License - Identifier : Apache - 2.0
*/
# include "sdkconfig.h"
# include <stdint.h>
# include <string.h>
# include <assert.h>
# include <sys/queue.h>
# include "freertos/FreeRTOS.h"
# include "freertos/portmacro.h"
# include "freertos/task.h"
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# include "freertos/semphr.h"
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# include "esp_err.h"
# include "esp_log.h"
# include "esp_heap_caps.h"
# include "hcd.h"
# include "usbh.h"
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# include "usb/usb_helpers.h"
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# include "usb/usb_types_ch9.h"
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//Device action flags. LISTED IN THE ORDER THEY SHOULD BE HANDLED IN within usbh_process(). Some actions are mutually exclusive
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# define DEV_FLAG_ACTION_PIPE_HALT_AND_FLUSH 0x0001 //Halt all non-default pipes then flush them (called after a device gone is gone)
# define DEV_FLAG_ACTION_DEFAULT_PIPE_FLUSH 0x0002 //Retire all URBS in the default pipe
# define DEV_FLAG_ACTION_DEFAULT_PIPE_DEQUEUE 0x0004 //Dequeue all URBs from default pipe
# define DEV_FLAG_ACTION_DEFAULT_PIPE_CLEAR 0x0008 //Move the default pipe to the active state
# define DEV_FLAG_ACTION_SEND_GONE_EVENT 0x0010 //Send a USB_HOST_CLIENT_EVENT_DEV_GONE event
# define DEV_FLAG_ACTION_FREE 0x0020 //Free the device object
# define DEV_FLAG_ACTION_FREE_AND_RECOVER 0x0040 //Free the device object, but send a USBH_HUB_REQ_PORT_RECOVER request afterwards.
# define DEV_FLAG_ACTION_PORT_DISABLE 0x0080 //Request the hub driver to disable the port of the device
# define DEV_FLAG_ACTION_SEND_NEW 0x0100 //Send a new device event
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# define EP_NUM_MIN 1
# define EP_NUM_MAX 16
typedef struct device_s device_t ;
struct device_s {
//Dynamic members require a critical section
struct {
TAILQ_ENTRY ( device_s ) tailq_entry ;
union {
struct {
uint32_t in_pending_list : 1 ;
uint32_t is_gone : 1 ;
uint32_t waiting_close : 1 ;
uint32_t waiting_port_disable : 1 ;
uint32_t waiting_free : 1 ;
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uint32_t reserved27 : 27 ;
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} ;
uint32_t val ;
} flags ;
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uint32_t action_flags ;
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int num_ctrl_xfers_inflight ;
usb_device_state_t state ;
uint32_t ref_count ;
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} dynamic ;
//Mux protected members must be protected by the USBH mux_lock when accessed
struct {
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hcd_pipe_handle_t ep_in [ EP_NUM_MAX - 1 ] ; //IN EP owner contexts. -1 to exclude the default endpoint
hcd_pipe_handle_t ep_out [ EP_NUM_MAX - 1 ] ; //OUT EP owner contexts. -1 to exclude the default endpoint
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} mux_protected ;
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//Constant members do no change after device allocation and enumeration thus do not require a critical section
struct {
hcd_pipe_handle_t default_pipe ;
hcd_port_handle_t port_hdl ;
uint8_t address ;
usb_speed_t speed ;
const usb_device_desc_t * desc ;
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const usb_config_desc_t * config_desc ;
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const usb_str_desc_t * str_desc_manu ;
const usb_str_desc_t * str_desc_product ;
const usb_str_desc_t * str_desc_ser_num ;
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} constant ;
} ;
typedef struct {
//Dynamic members require a critical section
struct {
TAILQ_HEAD ( tailhead_devs , device_s ) devs_idle_tailq ; //Tailq of all enum and configured devices
TAILQ_HEAD ( tailhead_devs_cb , device_s ) devs_pending_tailq ; //Tailq of devices that need to have their cb called
} dynamic ;
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//Mux protected members must be protected by the USBH mux_lock when accessed
struct {
uint8_t num_device ; //Number of enumerated devices
} mux_protected ;
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//Constant members do no change after installation thus do not require a critical section
struct {
usb_notif_cb_t notif_cb ;
void * notif_cb_arg ;
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usbh_hub_req_cb_t hub_req_cb ;
void * hub_req_cb_arg ;
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usbh_event_cb_t event_cb ;
void * event_cb_arg ;
usbh_ctrl_xfer_cb_t ctrl_xfer_cb ;
void * ctrl_xfer_cb_arg ;
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SemaphoreHandle_t mux_lock ;
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} constant ;
} usbh_t ;
static usbh_t * p_usbh_obj = NULL ;
static portMUX_TYPE usbh_lock = portMUX_INITIALIZER_UNLOCKED ;
const char * USBH_TAG = " USBH " ;
# define USBH_ENTER_CRITICAL_ISR() portENTER_CRITICAL_ISR(&usbh_lock)
# define USBH_EXIT_CRITICAL_ISR() portEXIT_CRITICAL_ISR(&usbh_lock)
# define USBH_ENTER_CRITICAL() portENTER_CRITICAL(&usbh_lock)
# define USBH_EXIT_CRITICAL() portEXIT_CRITICAL(&usbh_lock)
# define USBH_ENTER_CRITICAL_SAFE() portENTER_CRITICAL_SAFE(&usbh_lock)
# define USBH_EXIT_CRITICAL_SAFE() portEXIT_CRITICAL_SAFE(&usbh_lock)
# define USBH_CHECK(cond, ret_val) ({ \
if ( ! ( cond ) ) { \
return ( ret_val ) ; \
} \
} )
# define USBH_CHECK_FROM_CRIT(cond, ret_val) ({ \
if ( ! ( cond ) ) { \
USBH_EXIT_CRITICAL ( ) ; \
return ret_val ; \
} \
} )
// --------------------------------------------------- Allocation ------------------------------------------------------
static esp_err_t device_alloc ( hcd_port_handle_t port_hdl , usb_speed_t speed , device_t * * dev_obj_ret )
{
esp_err_t ret ;
device_t * dev_obj = heap_caps_calloc ( 1 , sizeof ( device_t ) , MALLOC_CAP_DEFAULT ) ;
usb_device_desc_t * dev_desc = heap_caps_calloc ( 1 , sizeof ( usb_device_desc_t ) , MALLOC_CAP_DEFAULT ) ;
if ( dev_obj = = NULL | | dev_desc = = NULL ) {
ret = ESP_ERR_NO_MEM ;
goto err ;
}
//Allocate default pipe. We set the pipe callback to NULL for now
hcd_pipe_config_t pipe_config = {
. callback = NULL ,
. callback_arg = NULL ,
. context = ( void * ) dev_obj ,
. ep_desc = NULL , //No endpoint descriptor means we're allocating a default pipe
. dev_speed = speed ,
. dev_addr = 0 ,
} ;
hcd_pipe_handle_t default_pipe_hdl ;
ret = hcd_pipe_alloc ( port_hdl , & pipe_config , & default_pipe_hdl ) ;
if ( ret ! = ESP_OK ) {
goto err ;
}
//Initialize device object
dev_obj - > dynamic . state = USB_DEVICE_STATE_DEFAULT ;
dev_obj - > constant . default_pipe = default_pipe_hdl ;
dev_obj - > constant . port_hdl = port_hdl ;
//Note: dev_obj->constant.address is assigned later during enumeration
dev_obj - > constant . speed = speed ;
dev_obj - > constant . desc = dev_desc ;
* dev_obj_ret = dev_obj ;
ret = ESP_OK ;
return ret ;
err :
heap_caps_free ( dev_desc ) ;
heap_caps_free ( dev_obj ) ;
return ret ;
}
static void device_free ( device_t * dev_obj )
{
if ( dev_obj = = NULL ) {
return ;
}
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//Configuration might not have been allocated (in case of early enumeration failure)
if ( dev_obj - > constant . config_desc ) {
heap_caps_free ( ( usb_config_desc_t * ) dev_obj - > constant . config_desc ) ;
}
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//String descriptors might not have been allocated (in case of early enumeration failure)
if ( dev_obj - > constant . str_desc_manu ) {
heap_caps_free ( ( usb_str_desc_t * ) dev_obj - > constant . str_desc_manu ) ;
}
if ( dev_obj - > constant . str_desc_product ) {
heap_caps_free ( ( usb_str_desc_t * ) dev_obj - > constant . str_desc_product ) ;
}
if ( dev_obj - > constant . str_desc_ser_num ) {
heap_caps_free ( ( usb_str_desc_t * ) dev_obj - > constant . str_desc_ser_num ) ;
}
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heap_caps_free ( ( usb_device_desc_t * ) dev_obj - > constant . desc ) ;
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ESP_ERROR_CHECK ( hcd_pipe_free ( dev_obj - > constant . default_pipe ) ) ;
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heap_caps_free ( dev_obj ) ;
}
// -------------------------------------------------- Event Related ----------------------------------------------------
static bool _dev_set_actions ( device_t * dev_obj , uint32_t action_flags )
{
if ( action_flags = = 0 ) {
return false ;
}
bool call_notif_cb ;
//Check if device is already on the callback list
if ( ! dev_obj - > dynamic . flags . in_pending_list ) {
//Move device form idle device list to callback device list
TAILQ_REMOVE ( & p_usbh_obj - > dynamic . devs_idle_tailq , dev_obj , dynamic . tailq_entry ) ;
TAILQ_INSERT_TAIL ( & p_usbh_obj - > dynamic . devs_pending_tailq , dev_obj , dynamic . tailq_entry ) ;
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dev_obj - > dynamic . action_flags | = action_flags ;
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dev_obj - > dynamic . flags . in_pending_list = 1 ;
call_notif_cb = true ;
} else {
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// The device is already on the callback list, thus a processing request is already pending.
dev_obj - > dynamic . action_flags | = action_flags ;
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call_notif_cb = false ;
}
return call_notif_cb ;
}
static bool default_pipe_callback ( hcd_pipe_handle_t pipe_hdl , hcd_pipe_event_t pipe_event , void * user_arg , bool in_isr )
{
uint32_t action_flags ;
device_t * dev_obj = ( device_t * ) user_arg ;
switch ( pipe_event ) {
case HCD_PIPE_EVENT_URB_DONE :
//A control transfer completed on the default pipe. We need to dequeue it
action_flags = DEV_FLAG_ACTION_DEFAULT_PIPE_DEQUEUE ;
break ;
case HCD_PIPE_EVENT_ERROR_XFER :
case HCD_PIPE_EVENT_ERROR_URB_NOT_AVAIL :
case HCD_PIPE_EVENT_ERROR_OVERFLOW :
//The default pipe has encountered an error. We need to retire all URBs, dequeue them, then make the pipe active again
action_flags = DEV_FLAG_ACTION_DEFAULT_PIPE_FLUSH |
DEV_FLAG_ACTION_DEFAULT_PIPE_DEQUEUE |
DEV_FLAG_ACTION_DEFAULT_PIPE_CLEAR ;
if ( in_isr ) {
ESP_EARLY_LOGE ( USBH_TAG , " Dev %d EP 0 Error " , dev_obj - > constant . address ) ;
} else {
ESP_LOGE ( USBH_TAG , " Dev %d EP 0 Error " , dev_obj - > constant . address ) ;
}
break ;
case HCD_PIPE_EVENT_ERROR_STALL :
//The default pipe encountered a "protocol stall". We just need to dequeue URBs then make the pipe active again
action_flags = DEV_FLAG_ACTION_DEFAULT_PIPE_DEQUEUE | DEV_FLAG_ACTION_DEFAULT_PIPE_CLEAR ;
if ( in_isr ) {
ESP_EARLY_LOGE ( USBH_TAG , " Dev %d EP 0 STALL " , dev_obj - > constant . address ) ;
} else {
ESP_LOGE ( USBH_TAG , " Dev %d EP 0 STALL " , dev_obj - > constant . address ) ;
}
break ;
default :
action_flags = 0 ;
break ;
}
USBH_ENTER_CRITICAL_SAFE ( ) ;
bool call_notif_cb = _dev_set_actions ( dev_obj , action_flags ) ;
USBH_EXIT_CRITICAL_SAFE ( ) ;
bool yield = false ;
if ( call_notif_cb ) {
yield = p_usbh_obj - > constant . notif_cb ( USB_NOTIF_SOURCE_USBH , in_isr , p_usbh_obj - > constant . notif_cb_arg ) ;
}
return yield ;
}
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static void handle_pipe_halt_and_flush ( device_t * dev_obj )
{
//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
//Halt then flush all non-default IN pipes
for ( int i = 0 ; i < ( EP_NUM_MAX - 1 ) ; i + + ) {
if ( dev_obj - > mux_protected . ep_in [ i ] ! = NULL ) {
ESP_ERROR_CHECK ( hcd_pipe_command ( dev_obj - > mux_protected . ep_in [ i ] , HCD_PIPE_CMD_HALT ) ) ;
ESP_ERROR_CHECK ( hcd_pipe_command ( dev_obj - > mux_protected . ep_in [ i ] , HCD_PIPE_CMD_FLUSH ) ) ;
}
if ( dev_obj - > mux_protected . ep_out [ i ] ! = NULL ) {
ESP_ERROR_CHECK ( hcd_pipe_command ( dev_obj - > mux_protected . ep_out [ i ] , HCD_PIPE_CMD_HALT ) ) ;
ESP_ERROR_CHECK ( hcd_pipe_command ( dev_obj - > mux_protected . ep_out [ i ] , HCD_PIPE_CMD_FLUSH ) ) ;
}
}
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
}
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static bool handle_dev_free ( device_t * dev_obj )
{
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//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
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USBH_ENTER_CRITICAL ( ) ;
//Remove the device object for it's containing list
if ( dev_obj - > dynamic . flags . in_pending_list ) {
dev_obj - > dynamic . flags . in_pending_list = 0 ;
TAILQ_REMOVE ( & p_usbh_obj - > dynamic . devs_pending_tailq , dev_obj , dynamic . tailq_entry ) ;
} else {
TAILQ_REMOVE ( & p_usbh_obj - > dynamic . devs_idle_tailq , dev_obj , dynamic . tailq_entry ) ;
}
USBH_EXIT_CRITICAL ( ) ;
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p_usbh_obj - > mux_protected . num_device - - ;
bool all_free = ( p_usbh_obj - > mux_protected . num_device = = 0 ) ;
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
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device_free ( dev_obj ) ;
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return all_free ;
}
// ------------------------------------------------- USBH Functions ----------------------------------------------------
esp_err_t usbh_install ( const usbh_config_t * usbh_config )
{
USBH_CHECK ( usbh_config ! = NULL , ESP_ERR_INVALID_ARG ) ;
USBH_ENTER_CRITICAL ( ) ;
USBH_CHECK_FROM_CRIT ( p_usbh_obj = = NULL , ESP_ERR_INVALID_STATE ) ;
USBH_EXIT_CRITICAL ( ) ;
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esp_err_t ret ;
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usbh_t * usbh_obj = heap_caps_calloc ( 1 , sizeof ( usbh_t ) , MALLOC_CAP_DEFAULT ) ;
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SemaphoreHandle_t mux_lock = xSemaphoreCreateMutex ( ) ;
if ( usbh_obj = = NULL | | mux_lock = = NULL ) {
ret = ESP_ERR_NO_MEM ;
goto alloc_err ;
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}
//Install HCD
ret = hcd_install ( & usbh_config - > hcd_config ) ;
if ( ret ! = ESP_OK ) {
goto hcd_install_err ;
}
//Initialize usbh object
TAILQ_INIT ( & usbh_obj - > dynamic . devs_idle_tailq ) ;
TAILQ_INIT ( & usbh_obj - > dynamic . devs_pending_tailq ) ;
usbh_obj - > constant . notif_cb = usbh_config - > notif_cb ;
usbh_obj - > constant . notif_cb_arg = usbh_config - > notif_cb_arg ;
usbh_obj - > constant . event_cb = usbh_config - > event_cb ;
usbh_obj - > constant . event_cb_arg = usbh_config - > event_cb_arg ;
usbh_obj - > constant . ctrl_xfer_cb = usbh_config - > ctrl_xfer_cb ;
usbh_obj - > constant . ctrl_xfer_cb_arg = usbh_config - > ctrl_xfer_cb_arg ;
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usbh_obj - > constant . mux_lock = mux_lock ;
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//Assign usbh object pointer
USBH_ENTER_CRITICAL ( ) ;
if ( p_usbh_obj ! = NULL ) {
USBH_EXIT_CRITICAL ( ) ;
ret = ESP_ERR_INVALID_STATE ;
goto assign_err ;
}
p_usbh_obj = usbh_obj ;
USBH_EXIT_CRITICAL ( ) ;
ret = ESP_OK ;
return ret ;
assign_err :
ESP_ERROR_CHECK ( hcd_uninstall ( ) ) ;
hcd_install_err :
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alloc_err :
if ( mux_lock ! = NULL ) {
vSemaphoreDelete ( mux_lock ) ;
}
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heap_caps_free ( usbh_obj ) ;
return ret ;
}
esp_err_t usbh_uninstall ( void )
{
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//Check that USBH is in a state to be uninstalled
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USBH_ENTER_CRITICAL ( ) ;
USBH_CHECK_FROM_CRIT ( p_usbh_obj ! = NULL , ESP_ERR_INVALID_STATE ) ;
usbh_t * usbh_obj = p_usbh_obj ;
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USBH_EXIT_CRITICAL ( ) ;
esp_err_t ret ;
//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
if ( p_usbh_obj - > mux_protected . num_device > 0 ) {
//There are still devices allocated. Can't uninstall right now.
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
//Check again if we can uninstall
USBH_ENTER_CRITICAL ( ) ;
assert ( p_usbh_obj = = usbh_obj ) ;
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p_usbh_obj = NULL ;
USBH_EXIT_CRITICAL ( ) ;
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xSemaphoreGive ( usbh_obj - > constant . mux_lock ) ;
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//Uninstall HCD, free resources
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ESP_ERROR_CHECK ( hcd_uninstall ( ) ) ;
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vSemaphoreDelete ( usbh_obj - > constant . mux_lock ) ;
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heap_caps_free ( usbh_obj ) ;
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ret = ESP_OK ;
return ret ;
exit :
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
return ret ;
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}
esp_err_t usbh_process ( void )
{
USBH_ENTER_CRITICAL ( ) ;
USBH_CHECK_FROM_CRIT ( p_usbh_obj ! = NULL , ESP_ERR_INVALID_STATE ) ;
//Keep clearing devices with events
while ( ! TAILQ_EMPTY ( & p_usbh_obj - > dynamic . devs_pending_tailq ) ) {
//Move the device back into the idle device list,
device_t * dev_obj = TAILQ_FIRST ( & p_usbh_obj - > dynamic . devs_pending_tailq ) ;
TAILQ_REMOVE ( & p_usbh_obj - > dynamic . devs_pending_tailq , dev_obj , dynamic . tailq_entry ) ;
TAILQ_INSERT_TAIL ( & p_usbh_obj - > dynamic . devs_idle_tailq , dev_obj , dynamic . tailq_entry ) ;
//Clear the device's flags
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uint32_t action_flags = dev_obj - > dynamic . action_flags ;
dev_obj - > dynamic . action_flags = 0 ;
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dev_obj - > dynamic . flags . in_pending_list = 0 ;
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/* ---------------------------------------------------------------------
Exit critical section to handle device action flags in their listed order
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
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USBH_EXIT_CRITICAL ( ) ;
ESP_LOGD ( USBH_TAG , " Processing actions 0x%x " , action_flags ) ;
//Sanity check. If the device is being freed, there must not be any other action flags set
assert ( ! ( action_flags & DEV_FLAG_ACTION_FREE ) | | action_flags = = DEV_FLAG_ACTION_FREE ) ;
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if ( action_flags & DEV_FLAG_ACTION_PIPE_HALT_AND_FLUSH ) {
handle_pipe_halt_and_flush ( dev_obj ) ;
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}
if ( action_flags & DEV_FLAG_ACTION_DEFAULT_PIPE_FLUSH ) {
ESP_ERROR_CHECK ( hcd_pipe_command ( dev_obj - > constant . default_pipe , HCD_PIPE_CMD_HALT ) ) ;
ESP_ERROR_CHECK ( hcd_pipe_command ( dev_obj - > constant . default_pipe , HCD_PIPE_CMD_FLUSH ) ) ;
}
if ( action_flags & DEV_FLAG_ACTION_DEFAULT_PIPE_DEQUEUE ) {
//Empty URBs from default pipe and trigger a control transfer callback
ESP_LOGD ( USBH_TAG , " Default pipe device %d " , dev_obj - > constant . address ) ;
int num_urbs = 0 ;
urb_t * urb = hcd_urb_dequeue ( dev_obj - > constant . default_pipe ) ;
while ( urb ! = NULL ) {
num_urbs + + ;
p_usbh_obj - > constant . ctrl_xfer_cb ( ( usb_device_handle_t ) dev_obj , urb , p_usbh_obj - > constant . ctrl_xfer_cb_arg ) ;
urb = hcd_urb_dequeue ( dev_obj - > constant . default_pipe ) ;
}
USBH_ENTER_CRITICAL ( ) ;
dev_obj - > dynamic . num_ctrl_xfers_inflight - = num_urbs ;
USBH_EXIT_CRITICAL ( ) ;
}
if ( action_flags & DEV_FLAG_ACTION_DEFAULT_PIPE_CLEAR ) {
//We allow the pipe command to fail just in case the pipe becomes invalid mid command
hcd_pipe_command ( dev_obj - > constant . default_pipe , HCD_PIPE_CMD_CLEAR ) ;
}
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if ( action_flags & DEV_FLAG_ACTION_SEND_GONE_EVENT ) {
//Flush the default pipe. Then do an event gone
ESP_LOGE ( USBH_TAG , " Device %d gone " , dev_obj - > constant . address ) ;
p_usbh_obj - > constant . event_cb ( ( usb_device_handle_t ) dev_obj , USBH_EVENT_DEV_GONE , p_usbh_obj - > constant . event_cb_arg ) ;
}
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/*
Note : We make these action flags mutually exclusive in case they happen in rapid succession . They are handled
in the order of precedence
For example
- New device event is requested followed immediately by a disconnection
- Port disable requested followed immediately by a disconnection
*/
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if ( action_flags & ( DEV_FLAG_ACTION_FREE | DEV_FLAG_ACTION_FREE_AND_RECOVER ) ) {
//Cache a copy of the port handle as we are about to free the device object
hcd_port_handle_t port_hdl = dev_obj - > constant . port_hdl ;
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ESP_LOGD ( USBH_TAG , " Freeing device %d " , dev_obj - > constant . address ) ;
if ( handle_dev_free ( dev_obj ) ) {
ESP_LOGD ( USBH_TAG , " Device all free " ) ;
p_usbh_obj - > constant . event_cb ( ( usb_device_handle_t ) NULL , USBH_EVENT_DEV_ALL_FREE , p_usbh_obj - > constant . event_cb_arg ) ;
}
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//Check if we need to recover the device's port
if ( action_flags & DEV_FLAG_ACTION_FREE_AND_RECOVER ) {
p_usbh_obj - > constant . hub_req_cb ( port_hdl , USBH_HUB_REQ_PORT_RECOVER , p_usbh_obj - > constant . hub_req_cb_arg ) ;
}
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} else if ( action_flags & DEV_FLAG_ACTION_PORT_DISABLE ) {
//Request that the HUB disables this device's port
ESP_LOGD ( USBH_TAG , " Disable device port %d " , dev_obj - > constant . address ) ;
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p_usbh_obj - > constant . hub_req_cb ( dev_obj - > constant . port_hdl , USBH_HUB_REQ_PORT_DISABLE , p_usbh_obj - > constant . hub_req_cb_arg ) ;
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} else if ( action_flags & DEV_FLAG_ACTION_SEND_NEW ) {
ESP_LOGD ( USBH_TAG , " New device %d " , dev_obj - > constant . address ) ;
p_usbh_obj - > constant . event_cb ( ( usb_device_handle_t ) dev_obj , USBH_EVENT_DEV_NEW , p_usbh_obj - > constant . event_cb_arg ) ;
}
USBH_ENTER_CRITICAL ( ) ;
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/* ---------------------------------------------------------------------
Re - enter critical sections . All device action flags should have been handled .
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - */
2021-08-24 11:20:50 -04:00
}
USBH_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
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esp_err_t usbh_num_devs ( int * num_devs_ret )
{
USBH_CHECK ( num_devs_ret ! = NULL , ESP_ERR_INVALID_ARG ) ;
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
* num_devs_ret = p_usbh_obj - > mux_protected . num_device ;
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
return ESP_OK ;
}
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// ------------------------------------------------ Device Functions ---------------------------------------------------
// --------------------- Device Pool -----------------------
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esp_err_t usbh_dev_addr_list_fill ( int list_len , uint8_t * dev_addr_list , int * num_dev_ret )
{
USBH_CHECK ( dev_addr_list ! = NULL & & num_dev_ret ! = NULL , ESP_ERR_INVALID_ARG ) ;
USBH_ENTER_CRITICAL ( ) ;
int num_filled = 0 ;
device_t * dev_obj ;
//Fill list with devices from idle tailq
TAILQ_FOREACH ( dev_obj , & p_usbh_obj - > dynamic . devs_idle_tailq , dynamic . tailq_entry ) {
if ( num_filled < list_len ) {
dev_addr_list [ num_filled ] = dev_obj - > constant . address ;
num_filled + + ;
} else {
break ;
}
}
//Fill list with devices from pending tailq
TAILQ_FOREACH ( dev_obj , & p_usbh_obj - > dynamic . devs_pending_tailq , dynamic . tailq_entry ) {
if ( num_filled < list_len ) {
dev_addr_list [ num_filled ] = dev_obj - > constant . address ;
num_filled + + ;
} else {
break ;
}
}
USBH_EXIT_CRITICAL ( ) ;
//Write back number of devices filled
* num_dev_ret = num_filled ;
return ESP_OK ;
}
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esp_err_t usbh_dev_open ( uint8_t dev_addr , usb_device_handle_t * dev_hdl )
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
esp_err_t ret ;
USBH_ENTER_CRITICAL ( ) ;
//Go through the device lists to find the device with the specified address
device_t * found_dev_obj = NULL ;
device_t * dev_obj ;
TAILQ_FOREACH ( dev_obj , & p_usbh_obj - > dynamic . devs_idle_tailq , dynamic . tailq_entry ) {
if ( dev_obj - > constant . address = = dev_addr ) {
found_dev_obj = dev_obj ;
goto exit ;
}
}
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TAILQ_FOREACH ( dev_obj , & p_usbh_obj - > dynamic . devs_pending_tailq , dynamic . tailq_entry ) {
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if ( dev_obj - > constant . address = = dev_addr ) {
found_dev_obj = dev_obj ;
goto exit ;
}
}
exit :
if ( found_dev_obj ! = NULL ) {
//The device is not in a state to be referenced
if ( dev_obj - > dynamic . flags . is_gone | | dev_obj - > dynamic . flags . waiting_port_disable | | dev_obj - > dynamic . flags . waiting_free ) {
ret = ESP_ERR_INVALID_STATE ;
} else {
dev_obj - > dynamic . ref_count + + ;
* dev_hdl = ( usb_device_handle_t ) found_dev_obj ;
ret = ESP_OK ;
}
} else {
ret = ESP_ERR_NOT_FOUND ;
}
USBH_EXIT_CRITICAL ( ) ;
return ret ;
}
esp_err_t usbh_dev_close ( usb_device_handle_t dev_hdl )
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
USBH_ENTER_CRITICAL ( ) ;
dev_obj - > dynamic . ref_count - - ;
bool call_notif_cb = false ;
if ( dev_obj - > dynamic . ref_count = = 0 ) {
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//Sanity check.
assert ( dev_obj - > dynamic . num_ctrl_xfers_inflight = = 0 ) ; //There cannot be any control transfer inflight
assert ( ! dev_obj - > dynamic . flags . waiting_free ) ; //This can only be set when ref count reaches 0
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if ( dev_obj - > dynamic . flags . is_gone ) {
//Device is already gone so it's port is already disabled. Trigger the USBH process to free the device
dev_obj - > dynamic . flags . waiting_free = 1 ;
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call_notif_cb = _dev_set_actions ( dev_obj , DEV_FLAG_ACTION_FREE_AND_RECOVER ) ; //Port error occurred so we need to recover it
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} else if ( dev_obj - > dynamic . flags . waiting_close ) {
//Device is still connected but is no longer needed. Trigger the USBH process to request device's port be disabled
dev_obj - > dynamic . flags . waiting_port_disable = 1 ;
call_notif_cb = _dev_set_actions ( dev_obj , DEV_FLAG_ACTION_PORT_DISABLE ) ;
}
//Else, there's nothing to do. Leave the device allocated
}
USBH_EXIT_CRITICAL ( ) ;
if ( call_notif_cb ) {
p_usbh_obj - > constant . notif_cb ( USB_NOTIF_SOURCE_USBH , false , p_usbh_obj - > constant . notif_cb_arg ) ;
}
return ESP_OK ;
}
esp_err_t usbh_dev_mark_all_free ( void )
{
USBH_ENTER_CRITICAL ( ) ;
/*
Go through the device list and mark each device as waiting to be closed . If the device is not opened at all , we can
disable it immediately .
Note : We manually traverse the list because we need to add / remove items while traversing
*/
bool call_notif_cb = false ;
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bool wait_for_free = false ;
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for ( int i = 0 ; i < 2 ; i + + ) {
device_t * dev_obj_cur ;
device_t * dev_obj_next ;
//Go through pending list first as it's more efficient
if ( i = = 0 ) {
dev_obj_cur = TAILQ_FIRST ( & p_usbh_obj - > dynamic . devs_pending_tailq ) ;
} else {
dev_obj_cur = TAILQ_FIRST ( & p_usbh_obj - > dynamic . devs_idle_tailq ) ;
}
while ( dev_obj_cur ! = NULL ) {
assert ( ! dev_obj_cur - > dynamic . flags . waiting_close ) ; //Sanity check
//Keep a copy of the next item first in case we remove the current item
dev_obj_next = TAILQ_NEXT ( dev_obj_cur , dynamic . tailq_entry ) ;
if ( dev_obj_cur - > dynamic . ref_count = = 0 & & ! dev_obj_cur - > dynamic . flags . is_gone ) {
//Device is not opened as is not gone, so we can disable it now
dev_obj_cur - > dynamic . flags . waiting_port_disable = 1 ;
call_notif_cb | = _dev_set_actions ( dev_obj_cur , DEV_FLAG_ACTION_PORT_DISABLE ) ;
} else {
//Device is still opened. Just mark it as waiting to be closed
dev_obj_cur - > dynamic . flags . waiting_close = 1 ;
}
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wait_for_free = true ; //As long as there is still a device, we need to wait for an event indicating it is freed
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dev_obj_cur = dev_obj_next ;
}
}
USBH_EXIT_CRITICAL ( ) ;
if ( call_notif_cb ) {
p_usbh_obj - > constant . notif_cb ( USB_NOTIF_SOURCE_USBH , false , p_usbh_obj - > constant . notif_cb_arg ) ;
}
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return ( wait_for_free ) ? ESP_ERR_NOT_FINISHED : ESP_OK ;
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}
// ------------------- Single Device ----------------------
esp_err_t usbh_dev_get_addr ( usb_device_handle_t dev_hdl , uint8_t * dev_addr )
{
USBH_CHECK ( dev_hdl ! = NULL & & dev_addr ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
USBH_ENTER_CRITICAL ( ) ;
USBH_CHECK_FROM_CRIT ( dev_obj - > constant . address > 0 , ESP_ERR_INVALID_STATE ) ;
* dev_addr = dev_obj - > constant . address ;
USBH_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
esp_err_t usbh_dev_get_info ( usb_device_handle_t dev_hdl , usb_device_info_t * dev_info )
{
USBH_CHECK ( dev_hdl ! = NULL & & dev_info ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
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esp_err_t ret ;
//Device must be configured, or not attached (if it suddenly disconnected)
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USBH_ENTER_CRITICAL ( ) ;
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if ( ! ( dev_obj - > dynamic . state = = USB_DEVICE_STATE_CONFIGURED | | dev_obj - > dynamic . state = = USB_DEVICE_STATE_NOT_ATTACHED ) ) {
USBH_EXIT_CRITICAL ( ) ;
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
//Critical section for the dynamic members
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dev_info - > speed = dev_obj - > constant . speed ;
dev_info - > dev_addr = dev_obj - > constant . address ;
dev_info - > bMaxPacketSize0 = dev_obj - > constant . desc - > bMaxPacketSize0 ;
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USBH_EXIT_CRITICAL ( ) ;
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assert ( dev_obj - > constant . config_desc ) ;
dev_info - > bConfigurationValue = dev_obj - > constant . config_desc - > bConfigurationValue ;
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//String descriptors are allowed to be NULL as not all devices support them
dev_info - > str_desc_manufacturer = dev_obj - > constant . str_desc_manu ;
dev_info - > str_desc_product = dev_obj - > constant . str_desc_product ;
dev_info - > str_desc_serial_num = dev_obj - > constant . str_desc_ser_num ;
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ret = ESP_OK ;
exit :
return ret ;
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}
esp_err_t usbh_dev_get_desc ( usb_device_handle_t dev_hdl , const usb_device_desc_t * * dev_desc_ret )
{
USBH_CHECK ( dev_hdl ! = NULL & & dev_desc_ret ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
USBH_ENTER_CRITICAL ( ) ;
USBH_CHECK_FROM_CRIT ( dev_obj - > dynamic . state = = USB_DEVICE_STATE_CONFIGURED , ESP_ERR_INVALID_STATE ) ;
USBH_EXIT_CRITICAL ( ) ;
* dev_desc_ret = dev_obj - > constant . desc ;
return ESP_OK ;
}
esp_err_t usbh_dev_get_config_desc ( usb_device_handle_t dev_hdl , const usb_config_desc_t * * config_desc_ret )
{
USBH_CHECK ( dev_hdl ! = NULL & & config_desc_ret ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
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esp_err_t ret ;
//Device must be in the configured state
2021-08-24 11:20:50 -04:00
USBH_ENTER_CRITICAL ( ) ;
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if ( dev_obj - > dynamic . state ! = USB_DEVICE_STATE_CONFIGURED ) {
USBH_EXIT_CRITICAL ( ) ;
ret = ESP_ERR_INVALID_STATE ;
goto exit ;
}
2021-08-24 11:20:50 -04:00
USBH_EXIT_CRITICAL ( ) ;
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assert ( dev_obj - > constant . config_desc ) ;
* config_desc_ret = dev_obj - > constant . config_desc ;
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ret = ESP_OK ;
exit :
return ret ;
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}
esp_err_t usbh_dev_submit_ctrl_urb ( usb_device_handle_t dev_hdl , urb_t * urb )
{
USBH_CHECK ( dev_hdl ! = NULL & & urb ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
USBH_ENTER_CRITICAL ( ) ;
USBH_CHECK_FROM_CRIT ( dev_obj - > dynamic . state = = USB_DEVICE_STATE_CONFIGURED , ESP_ERR_INVALID_STATE ) ;
//Increment the control transfer count first
dev_obj - > dynamic . num_ctrl_xfers_inflight + + ;
USBH_EXIT_CRITICAL ( ) ;
esp_err_t ret ;
if ( hcd_pipe_get_state ( dev_obj - > constant . default_pipe ) ! = HCD_PIPE_STATE_ACTIVE ) {
ret = ESP_ERR_INVALID_STATE ;
goto hcd_err ;
}
ret = hcd_urb_enqueue ( dev_obj - > constant . default_pipe , urb ) ;
if ( ret ! = ESP_OK ) {
goto hcd_err ;
}
ret = ESP_OK ;
return ret ;
hcd_err :
USBH_ENTER_CRITICAL ( ) ;
dev_obj - > dynamic . num_ctrl_xfers_inflight - - ;
USBH_EXIT_CRITICAL ( ) ;
return ret ;
}
// ----------------------------------------------- Interface Functions -------------------------------------------------
esp_err_t usbh_ep_alloc ( usb_device_handle_t dev_hdl , usbh_ep_config_t * ep_config , hcd_pipe_handle_t * pipe_hdl_ret )
{
USBH_CHECK ( dev_hdl ! = NULL & & ep_config ! = NULL & & pipe_hdl_ret ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
esp_err_t ret ;
2021-12-23 05:22:55 -05:00
2021-08-24 11:20:50 -04:00
//Allocate HCD pipe
hcd_pipe_config_t pipe_config = {
. callback = ep_config - > pipe_cb ,
. callback_arg = ep_config - > pipe_cb_arg ,
. context = ep_config - > context ,
. ep_desc = ep_config - > ep_desc ,
. dev_speed = dev_obj - > constant . speed ,
. dev_addr = dev_obj - > constant . address ,
} ;
hcd_pipe_handle_t pipe_hdl ;
ret = hcd_pipe_alloc ( dev_obj - > constant . port_hdl , & pipe_config , & pipe_hdl ) ;
if ( ret ! = ESP_OK ) {
goto pipe_alloc_err ;
}
bool is_in = ep_config - > ep_desc - > bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_DIR_MASK ;
uint8_t addr = ep_config - > ep_desc - > bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_NUM_MASK ;
bool assigned = false ;
2021-10-27 09:15:46 -04:00
//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
2021-12-23 05:22:55 -05:00
USBH_ENTER_CRITICAL ( ) ;
//Check the device's state before we assign the pipes to the endpoint
if ( dev_obj - > dynamic . state ! = USB_DEVICE_STATE_CONFIGURED ) {
USBH_EXIT_CRITICAL ( ) ;
ret = ESP_ERR_INVALID_STATE ;
goto assign_err ;
}
USBH_EXIT_CRITICAL ( ) ;
//Assign the allocated pipe to the correct endpoint
if ( is_in & & dev_obj - > mux_protected . ep_in [ addr - 1 ] = = NULL ) { //Is an IN EP
2021-10-27 09:15:46 -04:00
dev_obj - > mux_protected . ep_in [ addr - 1 ] = pipe_hdl ;
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assigned = true ;
2022-10-10 05:52:48 -04:00
} else if ( ! is_in & & dev_obj - > mux_protected . ep_out [ addr - 1 ] = = NULL ) { //Is an OUT EP
2021-10-27 09:15:46 -04:00
dev_obj - > mux_protected . ep_out [ addr - 1 ] = pipe_hdl ;
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assigned = true ;
}
2021-10-27 09:15:46 -04:00
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
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if ( ! assigned ) {
ret = ESP_ERR_INVALID_STATE ;
goto assign_err ;
}
//Write back output
* pipe_hdl_ret = pipe_hdl ;
ret = ESP_OK ;
return ret ;
assign_err :
ESP_ERROR_CHECK ( hcd_pipe_free ( pipe_hdl ) ) ;
pipe_alloc_err :
return ret ;
}
esp_err_t usbh_ep_free ( usb_device_handle_t dev_hdl , uint8_t bEndpointAddress )
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
2021-10-27 09:15:46 -04:00
esp_err_t ret ;
2021-08-24 11:20:50 -04:00
bool is_in = bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_DIR_MASK ;
uint8_t addr = bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_NUM_MASK ;
hcd_pipe_handle_t pipe_hdl ;
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//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
//Check if the EP was previously allocated. If so, set it to NULL
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if ( is_in ) {
2021-10-27 09:15:46 -04:00
if ( dev_obj - > mux_protected . ep_in [ addr - 1 ] ! = NULL ) {
pipe_hdl = dev_obj - > mux_protected . ep_in [ addr - 1 ] ;
dev_obj - > mux_protected . ep_in [ addr - 1 ] = NULL ;
ret = ESP_OK ;
} else {
ret = ESP_ERR_INVALID_STATE ;
}
2021-08-24 11:20:50 -04:00
} else {
2021-10-27 09:15:46 -04:00
//EP must have been previously allocated
if ( dev_obj - > mux_protected . ep_out [ addr - 1 ] ! = NULL ) {
pipe_hdl = dev_obj - > mux_protected . ep_out [ addr - 1 ] ;
dev_obj - > mux_protected . ep_out [ addr - 1 ] = NULL ;
ret = ESP_OK ;
} else {
ret = ESP_ERR_INVALID_STATE ;
}
2021-08-24 11:20:50 -04:00
}
2021-10-27 09:15:46 -04:00
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
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2021-10-27 09:15:46 -04:00
if ( ret = = ESP_OK ) {
ESP_ERROR_CHECK ( hcd_pipe_free ( pipe_hdl ) ) ;
}
return ret ;
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}
esp_err_t usbh_ep_get_context ( usb_device_handle_t dev_hdl , uint8_t bEndpointAddress , void * * context_ret )
{
bool is_in = bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_DIR_MASK ;
uint8_t addr = bEndpointAddress & USB_B_ENDPOINT_ADDRESS_EP_NUM_MASK ;
USBH_CHECK ( dev_hdl ! = NULL & &
addr > = EP_NUM_MIN & & //Control endpoints are owned by the USBH
addr < = EP_NUM_MAX & &
context_ret ! = NULL ,
ESP_ERR_INVALID_ARG ) ;
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esp_err_t ret ;
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device_t * dev_obj = ( device_t * ) dev_hdl ;
2021-10-27 09:15:46 -04:00
hcd_pipe_handle_t pipe_hdl ;
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2021-10-27 09:15:46 -04:00
//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
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//Get the endpoint's corresponding pipe
if ( is_in ) {
2021-10-27 09:15:46 -04:00
pipe_hdl = dev_obj - > mux_protected . ep_in [ addr - 1 ] ;
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} else {
2021-10-27 09:15:46 -04:00
pipe_hdl = dev_obj - > mux_protected . ep_out [ addr - 1 ] ;
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}
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//Check if the EP was allocated to begin with
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if ( pipe_hdl = = NULL ) {
ret = ESP_ERR_NOT_FOUND ;
goto exit ;
}
//Return the context of the pipe
void * context = hcd_pipe_get_context ( pipe_hdl ) ;
* context_ret = context ;
ret = ESP_OK ;
exit :
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xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
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return ret ;
}
// -------------------------------------------------- Hub Functions ----------------------------------------------------
// ------------------- Device Related ----------------------
2021-12-14 05:28:04 -05:00
esp_err_t usbh_hub_is_installed ( usbh_hub_req_cb_t hub_req_callback , void * callback_arg )
2021-08-24 11:20:50 -04:00
{
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USBH_CHECK ( hub_req_callback ! = NULL , ESP_ERR_INVALID_ARG ) ;
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USBH_ENTER_CRITICAL ( ) ;
//Check that USBH is already installed
USBH_CHECK_FROM_CRIT ( p_usbh_obj ! = NULL , ESP_ERR_INVALID_STATE ) ;
//Check that Hub has not be installed yet
2021-12-14 05:28:04 -05:00
USBH_CHECK_FROM_CRIT ( p_usbh_obj - > constant . hub_req_cb = = NULL , ESP_ERR_INVALID_STATE ) ;
p_usbh_obj - > constant . hub_req_cb = hub_req_callback ;
p_usbh_obj - > constant . hub_req_cb_arg = callback_arg ;
2021-08-24 11:20:50 -04:00
USBH_EXIT_CRITICAL ( ) ;
return ESP_OK ;
}
esp_err_t usbh_hub_add_dev ( hcd_port_handle_t port_hdl , usb_speed_t dev_speed , usb_device_handle_t * new_dev_hdl , hcd_pipe_handle_t * default_pipe_hdl )
{
//Note: Parent device handle can be NULL if it's connected to the root hub
USBH_CHECK ( new_dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
esp_err_t ret ;
device_t * dev_obj ;
ret = device_alloc ( port_hdl , dev_speed , & dev_obj ) ;
if ( ret ! = ESP_OK ) {
return ret ;
}
//Write-back device handle
* new_dev_hdl = ( usb_device_handle_t ) dev_obj ;
* default_pipe_hdl = dev_obj - > constant . default_pipe ;
ret = ESP_OK ;
return ret ;
}
2021-12-14 05:28:04 -05:00
esp_err_t usbh_hub_pass_event ( usb_device_handle_t dev_hdl , usbh_hub_event_t hub_event )
2021-08-24 11:20:50 -04:00
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
bool call_notif_cb ;
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switch ( hub_event ) {
case USBH_HUB_EVENT_PORT_ERROR : {
USBH_ENTER_CRITICAL ( ) ;
dev_obj - > dynamic . flags . is_gone = 1 ;
//Check if the device can be freed now
if ( dev_obj - > dynamic . ref_count = = 0 ) {
dev_obj - > dynamic . flags . waiting_free = 1 ;
//Device is already waiting free so none of it's pipes will be in use. Can free immediately.
call_notif_cb = _dev_set_actions ( dev_obj , DEV_FLAG_ACTION_FREE_AND_RECOVER ) ; //Port error occurred so we need to recover it
} else {
call_notif_cb = _dev_set_actions ( dev_obj , DEV_FLAG_ACTION_PIPE_HALT_AND_FLUSH |
DEV_FLAG_ACTION_DEFAULT_PIPE_FLUSH |
DEV_FLAG_ACTION_DEFAULT_PIPE_DEQUEUE |
DEV_FLAG_ACTION_SEND_GONE_EVENT ) ;
}
USBH_EXIT_CRITICAL ( ) ;
break ;
}
case USBH_HUB_EVENT_PORT_DISABLED : {
USBH_ENTER_CRITICAL ( ) ;
assert ( dev_obj - > dynamic . ref_count = = 0 ) ; //At this stage, the device should have been closed by all users
dev_obj - > dynamic . flags . waiting_free = 1 ;
call_notif_cb = _dev_set_actions ( dev_obj , DEV_FLAG_ACTION_FREE ) ;
USBH_EXIT_CRITICAL ( ) ;
break ;
}
default :
return ESP_ERR_INVALID_ARG ;
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}
if ( call_notif_cb ) {
p_usbh_obj - > constant . notif_cb ( USB_NOTIF_SOURCE_USBH , false , p_usbh_obj - > constant . notif_cb_arg ) ;
}
return ESP_OK ;
}
// ----------------- Enumeration Related -------------------
esp_err_t usbh_hub_enum_fill_dev_addr ( usb_device_handle_t dev_hdl , uint8_t dev_addr )
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
USBH_ENTER_CRITICAL ( ) ;
dev_obj - > dynamic . state = USB_DEVICE_STATE_ADDRESS ;
USBH_EXIT_CRITICAL ( ) ;
//We can modify the info members outside the critical section
dev_obj - > constant . address = dev_addr ;
return ESP_OK ;
}
esp_err_t usbh_hub_enum_fill_dev_desc ( usb_device_handle_t dev_hdl , const usb_device_desc_t * device_desc )
{
USBH_CHECK ( dev_hdl ! = NULL & & device_desc ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
//We can modify the info members outside the critical section
memcpy ( ( usb_device_desc_t * ) dev_obj - > constant . desc , device_desc , sizeof ( usb_device_desc_t ) ) ;
return ESP_OK ;
}
esp_err_t usbh_hub_enum_fill_config_desc ( usb_device_handle_t dev_hdl , const usb_config_desc_t * config_desc_full )
{
USBH_CHECK ( dev_hdl ! = NULL & & config_desc_full ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
//Allocate memory to store the configuration descriptor
usb_config_desc_t * config_desc = heap_caps_malloc ( config_desc_full - > wTotalLength , MALLOC_CAP_DEFAULT ) ; //Buffer to copy over full configuration descriptor (wTotalLength)
if ( config_desc = = NULL ) {
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return ESP_ERR_NO_MEM ;
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}
//Copy the configuration descriptor
memcpy ( config_desc , config_desc_full , config_desc_full - > wTotalLength ) ;
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//Assign the config desc to the device object
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assert ( dev_obj - > constant . config_desc = = NULL ) ;
dev_obj - > constant . config_desc = config_desc ;
return ESP_OK ;
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}
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esp_err_t usbh_hub_enum_fill_str_desc ( usb_device_handle_t dev_hdl , const usb_str_desc_t * str_desc , int select )
{
USBH_CHECK ( dev_hdl ! = NULL & & str_desc ! = NULL & & ( select > = 0 & & select < 3 ) , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
//Allocate memory to store the manufacturer string descriptor
usb_str_desc_t * str_desc_fill = heap_caps_malloc ( str_desc - > bLength , MALLOC_CAP_DEFAULT ) ;
if ( str_desc_fill = = NULL ) {
return ESP_ERR_NO_MEM ;
}
//Copy the string descriptor
memcpy ( str_desc_fill , str_desc , str_desc - > bLength ) ;
//Assign filled string descriptor to the device object
switch ( select ) {
case 0 :
assert ( dev_obj - > constant . str_desc_manu = = NULL ) ;
dev_obj - > constant . str_desc_manu = str_desc_fill ;
break ;
case 1 :
assert ( dev_obj - > constant . str_desc_product = = NULL ) ;
dev_obj - > constant . str_desc_product = str_desc_fill ;
break ;
default : //2
assert ( dev_obj - > constant . str_desc_ser_num = = NULL ) ;
dev_obj - > constant . str_desc_ser_num = str_desc_fill ;
break ;
}
return ESP_OK ;
}
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esp_err_t usbh_hub_enum_done ( usb_device_handle_t dev_hdl )
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
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//We need to take the mux_lock to access mux_protected members
xSemaphoreTake ( p_usbh_obj - > constant . mux_lock , portMAX_DELAY ) ;
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USBH_ENTER_CRITICAL ( ) ;
dev_obj - > dynamic . state = USB_DEVICE_STATE_CONFIGURED ;
//Add the device to list of devices, then trigger a device event
TAILQ_INSERT_TAIL ( & p_usbh_obj - > dynamic . devs_idle_tailq , dev_obj , dynamic . tailq_entry ) ; //Add it to the idle device list first
bool call_notif_cb = _dev_set_actions ( dev_obj , DEV_FLAG_ACTION_SEND_NEW ) ;
USBH_EXIT_CRITICAL ( ) ;
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p_usbh_obj - > mux_protected . num_device + + ;
xSemaphoreGive ( p_usbh_obj - > constant . mux_lock ) ;
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//Update the default pipe callback
ESP_ERROR_CHECK ( hcd_pipe_update_callback ( dev_obj - > constant . default_pipe , default_pipe_callback , ( void * ) dev_obj ) ) ;
//Call the notification callback
if ( call_notif_cb ) {
p_usbh_obj - > constant . notif_cb ( USB_NOTIF_SOURCE_USBH , false , p_usbh_obj - > constant . notif_cb_arg ) ;
}
return ESP_OK ;
}
esp_err_t usbh_hub_enum_failed ( usb_device_handle_t dev_hdl )
{
USBH_CHECK ( dev_hdl ! = NULL , ESP_ERR_INVALID_ARG ) ;
device_t * dev_obj = ( device_t * ) dev_hdl ;
device_free ( dev_obj ) ;
return ESP_OK ;
}