/* Copyright 2015 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef __CROS_EC_USB_HW_H #define __CROS_EC_USB_HW_H #include #include /* Event types for the endpoint event handler. */ enum usb_ep_event { USB_EVENT_RESET, USB_EVENT_DEVICE_RESUME, /* Device-initiated wake completed. */ }; #if defined(CHIP_FAMILY_STM32F4) #include "usb_dwc_hw.h" #else /* * The STM32 has dedicated USB RAM visible on the APB1 bus (so all reads & * writes are 16-bits wide). The endpoint tables and the data buffers live in * this RAM. */ /* Primitive to access the words in USB RAM */ typedef CONFIG_USB_RAM_ACCESS_TYPE usb_uint; /* Linker symbol for start of USB RAM */ extern usb_uint __usb_ram_start[]; /* Attribute to define a buffer variable in USB RAM */ #define __usb_ram __attribute__((section(".usb_ram.99_data"))) struct stm32_endpoint { volatile usb_uint tx_addr; volatile usb_uint tx_count; volatile usb_uint rx_addr; volatile usb_uint rx_count; }; extern struct stm32_endpoint btable_ep[]; /* Attribute to put the endpoint table in USB RAM */ #define __usb_btable __attribute__((section(".usb_ram.00_btable"))) /* Read from USB RAM into a usb_setup_packet struct */ struct usb_setup_packet; void usb_read_setup_packet(usb_uint *buffer, struct usb_setup_packet *packet); /* * Copy data to and from the USB dedicated RAM and take care of the weird * addressing. These functions correctly handle unaligned accesses to the USB * memory. They have the same prototype as memcpy, allowing them to be used * in places that expect memcpy. The void pointer used to represent a location * in the USB dedicated RAM should be the offset in that address space, not the * AHB address space. * * The USB packet RAM is attached to the processor via the AHB2APB bridge. This * bridge performs manipulations of read and write accesses as per the note in * section 2.1 of RM0091. The upshot is that custom memcpy-like routines need * to be employed. */ void *memcpy_to_usbram(void *dest, const void *src, size_t n); void *memcpy_from_usbram(void *dest, const void *src, size_t n); /* * Descriptor patching support, useful to change a few values in the descriptor * (typically, length or bitfields) without having to move descriptors to RAM. */ enum usb_desc_patch_type { #ifdef CONFIG_USB_HID_KEYBOARD_BACKLIGHT USB_DESC_KEYBOARD_BACKLIGHT, #endif USB_DESC_PATCH_COUNT, }; /* * Set patch in table: replace uint16_t at address (STM32 flash) with data. * * The patches need to be setup before _before_ usb_init is executed (or, at * least, before the first call to memcpy_to_usbram_ep0_patch). */ void set_descriptor_patch(enum usb_desc_patch_type type, const void *address, uint16_t data); /* Copy to USB ram, applying patches to src as required. */ void *memcpy_to_usbram_ep0_patch(const void *src, size_t n); /* Compute the address inside dedicate SRAM for the USB controller */ #define usb_sram_addr(x) ((x - __usb_ram_start) * sizeof(uint16_t)) /* Helpers for endpoint declaration */ #define _EP_HANDLER2(num, suffix) CONCAT3(ep_, num, suffix) #define _EP_TX_HANDLER(num) _EP_HANDLER2(num, _tx) #define _EP_RX_HANDLER(num) _EP_HANDLER2(num, _rx) #define _EP_EVENT_HANDLER(num) _EP_HANDLER2(num, _evt) /* Used to check function types are correct (attribute alias does not do it) */ #define _EP_TX_HANDLER_TYPECHECK(num) _EP_HANDLER2(num, _tx_typecheck) #define _EP_RX_HANDLER_TYPECHECK(num) _EP_HANDLER2(num, _rx_typecheck) #define _EP_EVENT_HANDLER_TYPECHECK(num) _EP_HANDLER2(num, _evt_typecheck) #define USB_DECLARE_EP(num, tx_handler, rx_handler, evt_handler) \ void _EP_TX_HANDLER(num)(void) \ __attribute__ ((alias(STRINGIFY(tx_handler)))); \ void _EP_RX_HANDLER(num)(void) \ __attribute__ ((alias(STRINGIFY(rx_handler)))); \ void _EP_EVENT_HANDLER(num)(enum usb_ep_event evt) \ __attribute__ ((alias(STRINGIFY(evt_handler)))); \ static __unused void \ (*_EP_TX_HANDLER_TYPECHECK(num))(void) = tx_handler; \ static __unused void \ (*_EP_RX_HANDLER_TYPECHECK(num))(void) = rx_handler; \ static __unused void \ (*_EP_EVENT_HANDLER_TYPECHECK(num))(enum usb_ep_event evt)\ = evt_handler /* arrays with all endpoint callbacks */ extern void (*usb_ep_tx[]) (void); extern void (*usb_ep_rx[]) (void); extern void (*usb_ep_event[]) (enum usb_ep_event evt); /* array with interface-specific control request callbacks */ extern int (*usb_iface_request[]) (usb_uint *ep0_buf_rx, usb_uint *ep0_buf_tx); /* * Interface handler returns -1 on error, 0 if it wrote the last chunk of data, * or 1 if more data needs to be transferred on the next control request. */ #define _IFACE_HANDLER(num) CONCAT3(iface_, num, _request) #define USB_DECLARE_IFACE(num, handler) \ int _IFACE_HANDLER(num)(usb_uint *ep0_buf_rx, \ usb_uint *epo_buf_tx) \ __attribute__ ((alias(STRINGIFY(handler)))); #endif #endif /* __CROS_EC_USB_HW_H */