/* Auto-generated config file hpl_usb_config.h */
#ifndef HPL_USB_CONFIG_H
#define HPL_USB_CONFIG_H
// <<< Use Configuration Wizard in Context Menu >>>
#define CONF_USB_N_0 0
#define CONF_USB_N_1 1
#define CONF_USB_N_2 2
#define CONF_USB_N_3 3
#define CONF_USB_N_4 4
#define CONF_USB_N_5 5
#define CONF_USB_N_6 6
#define CONF_USB_N_7 7
#define CONF_USB_N_8 8
#define CONF_USB_N_9 9
#define CONF_USB_N_10 10
#define CONF_USB_N_11 11
#define CONF_USB_N_12 12
#define CONF_USB_N_13 13
#define CONF_USB_N_14 14
#define CONF_USB_N_15 15
#define CONF_USB_D_EP_N_MAX (USB_EPT_NUM - 1)
#define CONF_USB_D_N_EP_MAX (CONF_USB_D_EP_N_MAX * 2 - 1)
// USB Device HAL Configuration
// Max number of endpoints supported
// Limits the number of endpoints (described by EP address) can be used in app.
// 1 (EP0 only)
// 2 (EP0 + 1 endpoint)
// 3 (EP0 + 2 endpoints)
// 4 (EP0 + 3 endpoints)
// 5 (EP0 + 4 endpoints)
// 6 (EP0 + 5 endpoints)
// 7 (EP0 + 6 endpoints)
// 8 (EP0 + 7 endpoints)
// Max possible (by "Max Endpoint Number" config)
// usbd_num_ep_sp
#ifndef CONF_USB_D_NUM_EP_SP
#define CONF_USB_D_NUM_EP_SP CONF_USB_D_N_EP_MAX
#endif
//
// Max Endpoint Number supported
// Limits the max endpoint number.
// USB endpoint address is constructed by direction and endpoint number. Bit 8 of address set indicates the direction is IN. E.g., EP0x81 and EP0x01 have the same endpoint number, 1.
// Reduce the value according to specific device design, to cut-off memory usage.
// 0 (only EP0)
// 1 (EP 0x81 or 0x01)
// 2 (EP 0x82 or 0x02)
// 3 (EP 0x83 or 0x03)
// 4 (EP 0x84 or 0x04)
// 5 (EP 0x85 or 0x05)
// 6 (EP 0x86 or 0x06)
// 7 (EP 0x87 or 0x07)
// Max possible (by HW)
// The number of physical endpoints - 1
// usbd_arch_max_ep_n
#ifndef CONF_USB_D_MAX_EP_N
#define CONF_USB_D_MAX_EP_N CONF_USB_N_2
#endif
// USB Speed Limit
// Limits the working speed of the device.
// Full speed
// Low Speed
// usbd_arch_speed
#ifndef CONF_USB_D_SPEED
#define CONF_USB_D_SPEED USB_SPEED_FS
#endif
// Cache buffer size for EP0
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// EP0 is default control endpoint, so cache must be used to be able to receive SETUP packet at any time.
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// usb_arch_ep0_cache
#ifndef CONF_USB_EP0_CACHE
#define CONF_USB_EP0_CACHE 64
#endif
// Cache configuration EP1
// Cache buffer size for EP1 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep1_cache
#ifndef CONF_USB_EP1_CACHE
#define CONF_USB_EP1_CACHE 64
#endif
// Cache buffer size for EP1 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep1_I_CACHE
#ifndef CONF_USB_EP1_I_CACHE
#define CONF_USB_EP1_I_CACHE 0
#endif
//
// Cache configuration EP2
// Cache buffer size for EP2 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep2_cache
#ifndef CONF_USB_EP2_CACHE
#define CONF_USB_EP2_CACHE 64
#endif
// Cache buffer size for EP2 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep2_I_CACHE
#ifndef CONF_USB_EP2_I_CACHE
#define CONF_USB_EP2_I_CACHE 0
#endif
//
// Cache configuration EP3
// Cache buffer size for EP3 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep3_cache
#ifndef CONF_USB_EP3_CACHE
#define CONF_USB_EP3_CACHE 64
#endif
// Cache buffer size for EP3 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep3_I_CACHE
#ifndef CONF_USB_EP3_I_CACHE
#define CONF_USB_EP3_I_CACHE 0
#endif
//
// Cache configuration EP4
// Cache buffer size for EP4 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep4_cache
#ifndef CONF_USB_EP4_CACHE
#define CONF_USB_EP4_CACHE 64
#endif
// Cache buffer size for EP4 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep4_I_CACHE
#ifndef CONF_USB_EP4_I_CACHE
#define CONF_USB_EP4_I_CACHE 0
#endif
//
// Cache configuration EP5
// Cache buffer size for EP5 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep5_cache
#ifndef CONF_USB_EP5_CACHE
#define CONF_USB_EP5_CACHE 64
#endif
// Cache buffer size for EP5 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep5_I_CACHE
#ifndef CONF_USB_EP5_I_CACHE
#define CONF_USB_EP5_I_CACHE 0
#endif
//
// Cache configuration EP6
// Cache buffer size for EP6 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep6_cache
#ifndef CONF_USB_EP6_CACHE
#define CONF_USB_EP6_CACHE 64
#endif
// Cache buffer size for EP6 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep6_I_CACHE
#ifndef CONF_USB_EP6_I_CACHE
#define CONF_USB_EP6_I_CACHE 0
#endif
//
// Cache configuration EP7
// Cache buffer size for EP7 OUT
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_arch_ep7_cache
#ifndef CONF_USB_EP7_CACHE
#define CONF_USB_EP7_CACHE 64
#endif
// Cache buffer size for EP7 IN
// Cache is used because the USB hardware always uses DMA which requires specific memory feature.
// This cache must not be allocated if you plan to use the endpoint as control endpoint.
// No cache means IN transaction not support data buffer outside of RAM, OUT transaction not support unaligned buffer and buffer size less than endpoint max packet size
// <0=> No cache
// <8=> Cached by 8 bytes buffer
// <16=> Cached by 16 bytes buffer
// <32=> Cached by 32 bytes buffer
// <64=> Cached by 64 bytes buffer
// <128=> Cached by 128 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <256=> Cached by 256 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <512=> Cached by 512 bytes buffer (HS Bulk or interrupt or isochronous EP)
// <1024=> Cached by 1024 bytes buffer (interrupt or isochronous EP)
// usb_ep7_I_CACHE
#ifndef CONF_USB_EP7_I_CACHE
#define CONF_USB_EP7_I_CACHE 0
#endif
//
// <<< end of configuration section >>>
#endif // HPL_USB_CONFIG_H