Mercurial > louis > kiibohd-controller
view Bootloader/usb.h @ 308:ab4515606277
Fix whitespace
Use a consistent standard - Tabs in front for indenting, spaces after for anything else. This way everything stays nice and lined up while also letting users change there prefered indent level. Most of the new files from Haata where already in this format.
| author | Rowan Decker <Smasher816@gmail.com> |
|---|---|
| date | Sun, 08 Mar 2015 18:40:01 -0700 |
| parents | b091bb09c55f |
| children | 66eccdd9ced5 |
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/* Copyright (c) 2011,2012 Simon Schubert <2@0x2c.org>. * Modifications by Jacob Alexander 2014 <haata@kiibohd.com> * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. */ #ifndef __USB_H #define __USB_H // ----- Compiler Includes ----- #include <sys/types.h> // ----- Local Includes ----- #include "mchck.h" #include "usb-common.h" // ----- Defines ----- #define USB_CTRL_REQ_DIR_SHIFT 0 #define USB_CTRL_REQ_TYPE_SHIFT 1 #define USB_CTRL_REQ_RECP_SHIFT 3 #define USB_CTRL_REQ_CODE_SHIFT 8 #define USB_CTRL_REQ(req_inout, req_type, req_code) \ (uint16_t) \ ((USB_CTRL_REQ_##req_inout << USB_CTRL_REQ_DIR_SHIFT) \ |(USB_CTRL_REQ_##req_type << USB_CTRL_REQ_TYPE_SHIFT) \ |(USB_CTRL_REQ_##req_code << USB_CTRL_REQ_CODE_SHIFT)) // ----- Macros ----- #define USB_DESC_STRING(s) \ (const void *)&(const struct { \ struct usb_desc_string_t dsc; \ char16_t str[sizeof(s) / 2 - 1]; \ }) {{ \ .bLength = sizeof(struct usb_desc_string_t) + \ sizeof(s) - 2, \ .bDescriptorType = USB_DESC_STRING, \ }, \ s \ } #define USB_DESC_STRING_LANG_ENUS USB_DESC_STRING(u"\x0409") #define USB_DESC_STRING_SERIALNO ((const void *)1) #define USB_FUNCTION_IFACE(iface, iface_off, tx_ep_off, rx_ep_off) \ ((iface_off) + (iface)) #define USB_FUNCTION_TX_EP(ep, iface_off, tx_ep_off, rx_ep_off) \ ((tx_ep_off) + (ep)) #define USB_FUNCTION_RX_EP(ep, iface_off, tx_ep_off, rx_ep_off) \ ((rx_ep_off) + (ep)) #define USB__INCREMENT(i, _0) (i + 1) #define USB__COUNT_IFACE_EP(i, e) \ __DEFER(USB__COUNT_IFACE_EP_)(__EXPAND i, e) #define USB__COUNT_IFACE_EP_(iface, tx_ep, rx_ep, func) \ (iface + USB_FUNCTION_ ## func ## _IFACE_COUNT, \ tx_ep + USB_FUNCTION_ ## func ## _TX_EP_COUNT, \ rx_ep + USB_FUNCTION_ ## func ## _RX_EP_COUNT) #define USB__GET_FUNCTION_IFACE_COUNT(iter, func) \ USB_FUNCTION_ ## func ## _IFACE_COUNT + #define USB__DEFINE_FUNCTION_DESC(iter, func) \ USB_FUNCTION_DESC_ ## func ## _DECL __CAT(__usb_func_desc, __COUNTER__); #define USB__INIT_FUNCTION_DESC(iter, func) \ USB_FUNCTION_DESC_ ## func iter, #define USB__DEFINE_CONFIG_DESC(confignum, name, ...) \ &((const struct name { \ struct usb_desc_config_t config; \ __REPEAT_INNER(, __EAT, USB__DEFINE_FUNCTION_DESC, __VA_ARGS__) \ }){ \ .config = { \ .bLength = sizeof(struct usb_desc_config_t), \ .bDescriptorType = USB_DESC_CONFIG, \ .wTotalLength = sizeof(struct name), \ .bNumInterfaces = __REPEAT_INNER(, __EAT, USB__GET_FUNCTION_IFACE_COUNT, __VA_ARGS__) 0, \ .bConfigurationValue = confignum, \ .iConfiguration = 0, \ .one = 1, \ .bMaxPower = 50 \ }, \ __REPEAT_INNER((0, 0, 0), USB__COUNT_IFACE_EP, USB__INIT_FUNCTION_DESC, __VA_ARGS__) \ }).config #define USB__DEFINE_CONFIG(iter, args) \ __DEFER(USB__DEFINE_CONFIG_)(iter, __EXPAND args) #define USB__DEFINE_CONFIG_(confignum, initfun, ...) \ &(const struct usbd_config){ \ .init = initfun, \ .desc = USB__DEFINE_CONFIG_DESC( \ confignum, \ __CAT(__usb_desc, __COUNTER__), \ __VA_ARGS__) \ }, #define USB_INIT_DEVICE(vid, pid, manuf, product, ...) \ { \ .dev_desc = &(const struct usb_desc_dev_t){ \ .bLength = sizeof(struct usb_desc_dev_t), \ .bDescriptorType = USB_DESC_DEV, \ .bcdUSB = { .maj = 2 }, \ .bDeviceClass = USB_DEV_CLASS_SEE_IFACE, \ .bDeviceSubClass = USB_DEV_SUBCLASS_SEE_IFACE, \ .bDeviceProtocol = USB_DEV_PROTO_SEE_IFACE, \ .bMaxPacketSize0 = EP0_BUFSIZE, \ .idVendor = vid, \ .idProduct = pid, \ .bcdDevice = { .raw = 0 }, \ .iManufacturer = 1, \ .iProduct = 2, \ .iSerialNumber = 3, \ .bNumConfigurations = __PP_NARG(__VA_ARGS__), \ }, \ .string_descs = (const struct usb_desc_string_t * const []){ \ USB_DESC_STRING_LANG_ENUS, \ USB_DESC_STRING(manuf), \ USB_DESC_STRING(product), \ USB_DESC_STRING_SERIALNO, \ NULL \ }, \ .configs = { \ __REPEAT(1, USB__INCREMENT, USB__DEFINE_CONFIG, __VA_ARGS__) \ NULL \ } \ } // ----- Structs & Enumerations ----- /** * Note: bitfields ahead. * GCC fills the fields lsb-to-msb on little endian. */ /** * USB descriptors */ enum usb_desc_type { USB_DESC_DEV = 1, USB_DESC_CONFIG = 2, USB_DESC_STRING = 3, USB_DESC_IFACE = 4, USB_DESC_EP = 5, USB_DESC_DEVQUAL = 6, USB_DESC_OTHERSPEED = 7, USB_DESC_POWER = 8 }; struct usb_desc_type_t { UNION_STRUCT_START(8); enum usb_desc_type id : 5; enum usb_desc_type_type { USB_DESC_TYPE_STD = 0, USB_DESC_TYPE_CLASS = 1, USB_DESC_TYPE_VENDOR = 2 } type_type : 2; uint8_t _rsvd0 : 1; UNION_STRUCT_END; }; CTASSERT_SIZE_BYTE(struct usb_desc_type_t, 1); enum usb_dev_class { USB_DEV_CLASS_SEE_IFACE = 0, USB_DEV_CLASS_APP = 0xfe, USB_DEV_CLASS_VENDOR = 0xff }; enum usb_dev_subclass { USB_DEV_SUBCLASS_SEE_IFACE = 0, USB_DEV_SUBCLASS_VENDOR = 0xff }; enum usb_dev_proto { USB_DEV_PROTO_SEE_IFACE = 0, USB_DEV_PROTO_VENDOR = 0xff }; struct usb_bcd_t { UNION_STRUCT_START(16); struct { uint8_t sub : 4; uint8_t min : 4; uint16_t maj : 8; }; UNION_STRUCT_END; }; CTASSERT_SIZE_BYTE(struct usb_bcd_t, 2); struct usb_desc_generic_t { uint8_t bLength; struct usb_desc_type_t bDescriptorType; uint8_t data[]; }; CTASSERT_SIZE_BYTE(struct usb_desc_generic_t, 2); struct usb_desc_dev_t { uint8_t bLength; enum usb_desc_type bDescriptorType : 8; /* = USB_DESC_DEV */ struct usb_bcd_t bcdUSB; /* = 0x0200 */ enum usb_dev_class bDeviceClass : 8; enum usb_dev_subclass bDeviceSubClass : 8; enum usb_dev_proto bDeviceProtocol : 8; uint8_t bMaxPacketSize0; uint16_t idVendor; uint16_t idProduct; struct usb_bcd_t bcdDevice; uint8_t iManufacturer; uint8_t iProduct; uint8_t iSerialNumber; uint8_t bNumConfigurations; }; CTASSERT_SIZE_BYTE(struct usb_desc_dev_t, 18); struct usb_desc_ep_t { uint8_t bLength; enum usb_desc_type bDescriptorType : 8; /* = USB_DESC_EP */ union { struct { uint8_t ep_num : 4; uint8_t _rsvd0 : 3; uint8_t in : 1; }; uint8_t bEndpointAddress; }; struct { enum usb_ep_type { USB_EP_CONTROL = 0, USB_EP_ISO = 1, USB_EP_BULK = 2, USB_EP_INTR = 3 } type : 2; enum usb_ep_iso_synctype { USB_EP_ISO_NOSYNC = 0, USB_EP_ISO_ASYNC = 1, USB_EP_ISO_ADAPTIVE = 2, USB_EP_ISO_SYNC = 3 } sync_type : 2; enum usb_ep_iso_usagetype { USB_EP_ISO_DATA = 0, USB_EP_ISO_FEEDBACK = 1, USB_EP_ISO_IMPLICIT = 2 } usage_type : 2; uint8_t _rsvd1 : 2; }; struct { uint16_t wMaxPacketSize : 11; uint16_t _rsvd2 : 5; }; uint8_t bInterval; } __packed; CTASSERT_SIZE_BYTE(struct usb_desc_ep_t, 7); struct usb_desc_iface_t { uint8_t bLength; enum usb_desc_type bDescriptorType : 8; /* = USB_DESC_IFACE */ uint8_t bInterfaceNumber; uint8_t bAlternateSetting; uint8_t bNumEndpoints; enum usb_dev_class bInterfaceClass : 8; enum usb_dev_subclass bInterfaceSubClass: 8; enum usb_dev_proto bInterfaceProtocol : 8; uint8_t iInterface; }; CTASSERT_SIZE_BYTE(struct usb_desc_iface_t, 9); struct usb_desc_config_t { uint8_t bLength; enum usb_desc_type bDescriptorType : 8; /* = USB_DESC_CONFIG */ uint16_t wTotalLength; /* size of config, iface, ep */ uint8_t bNumInterfaces; uint8_t bConfigurationValue; uint8_t iConfiguration; struct { uint8_t _rsvd0 : 5; uint8_t remote_wakeup : 1; uint8_t self_powered : 1; uint8_t one : 1; /* = 1 for historical reasons */ }; uint8_t bMaxPower; /* units of 2mA */ } __packed; CTASSERT_SIZE_BYTE(struct usb_desc_config_t, 9); struct usb_desc_string_t { uint8_t bLength; enum usb_desc_type bDescriptorType : 8; /* = USB_DESC_STRING */ const char16_t bString[]; }; CTASSERT_SIZE_BYTE(struct usb_desc_string_t, 2); struct usb_ctrl_req_t { union /* reqtype and request & u16 */ { struct /* reqtype and request */ { union /* reqtype in bitfield & u8 */ { struct /* reqtype */ { enum usb_ctrl_req_recp { USB_CTRL_REQ_DEV = 0, USB_CTRL_REQ_IFACE = 1, USB_CTRL_REQ_EP = 2, USB_CTRL_REQ_OTHER = 3 } recp : 5; enum usb_ctrl_req_type { USB_CTRL_REQ_STD = 0, USB_CTRL_REQ_CLASS = 1, USB_CTRL_REQ_VENDOR = 2 } type : 2; enum usb_ctrl_req_dir { USB_CTRL_REQ_OUT = 0, USB_CTRL_REQ_IN = 1 } in : 1; }; uint8_t bmRequestType; }; /* union */ enum usb_ctrl_req_code { USB_CTRL_REQ_GET_STATUS = 0, USB_CTRL_REQ_CLEAR_FEATURE = 1, USB_CTRL_REQ_SET_FEATURE = 3, USB_CTRL_REQ_SET_ADDRESS = 5, USB_CTRL_REQ_GET_DESCRIPTOR = 6, USB_CTRL_REQ_SET_DESCRIPTOR = 7, USB_CTRL_REQ_GET_CONFIGURATION = 8, USB_CTRL_REQ_SET_CONFIGURATION = 9, USB_CTRL_REQ_GET_INTERFACE = 10, USB_CTRL_REQ_SET_INTERFACE = 11, USB_CTRL_REQ_SYNC_FRAME = 12 } bRequest : 8; }; /* struct */ uint16_t type_and_req; }; /* union */ union { uint16_t wValue; struct { uint8_t wValueLow; uint8_t wValueHigh; }; }; uint16_t wIndex; uint16_t wLength; }; CTASSERT_SIZE_BYTE(struct usb_ctrl_req_t, 8); /** * status replies for GET_STATUS. */ struct usb_ctrl_req_status_dev_t { uint16_t self_powered : 1; uint16_t remote_wakeup : 1; uint16_t _rsvd : 14; }; CTASSERT_SIZE_BIT(struct usb_ctrl_req_status_dev_t, 16); struct usb_ctrl_req_status_iface_t { uint16_t _rsvd; }; CTASSERT_SIZE_BIT(struct usb_ctrl_req_status_iface_t, 16); struct usb_ctrl_req_status_ep_t { uint16_t halt : 1; uint16_t _rsvd : 15; }; CTASSERT_SIZE_BIT(struct usb_ctrl_req_status_ep_t, 16); /** * Descriptor type (in req->value) for GET_DESCRIPTOR. */ struct usb_ctrl_req_desc_t { uint8_t idx; enum usb_desc_type type : 8; }; CTASSERT_SIZE_BIT(struct usb_ctrl_req_desc_t, 16); /** * Feature selector (in req->value) for CLEAR_FEATURE. */ enum usb_ctrl_req_feature { USB_CTRL_REQ_FEAT_EP_HALT = 0, USB_CTRL_REQ_FEAT_DEV_REMOTE_WKUP = 1, USB_CTRL_REQ_FEAT_TEST_MODE = 2 }; struct usb_xfer_info; typedef void (*ep_callback_t)(void *buf, ssize_t len, void *data); /** * (Artificial) function. Aggregates one or more interfaces. */ struct usbd_function { int (*configure)(int orig_iface, int iface, int altsetting, void *data); int (*control)(struct usb_ctrl_req_t *, void *); int interface_count; int ep_rx_count; int ep_tx_count; }; struct usbd_function_ctx_header { struct usbd_function_ctx_header *next; const struct usbd_function *function; int interface_offset; int ep_rx_offset; int ep_tx_offset; }; typedef void (usbd_init_fun_t)(int); typedef void (usbd_suspend_resume_fun_t)(void); /** * Configuration. Contains one or more functions which all will be * active concurrently. */ struct usbd_config { usbd_init_fun_t *init; usbd_suspend_resume_fun_t *suspend; usbd_suspend_resume_fun_t *resume; /** * We will not set a config for now, because there is not much to * configure, except for power * * const struct usb_desc_config_t *config_desc; */ const struct usb_desc_config_t *desc; const struct usbd_function *function[]; }; /** * Device. Contains one or more configurations, out of which only one * is active at a time. */ struct usbd_device { const struct usb_desc_dev_t *dev_desc; const struct usb_desc_string_t * const *string_descs; const struct usbd_config *configs[]; }; /* Provided by MD code */ struct usbd_ep_pipe_state_t; // ----- Functions ----- void *usb_get_xfer_data(struct usb_xfer_info *); enum usb_tok_pid usb_get_xfer_pid(struct usb_xfer_info *); int usb_get_xfer_ep(struct usb_xfer_info *); enum usb_ep_dir usb_get_xfer_dir(struct usb_xfer_info *); void usb_enable_xfers(void); void usb_set_addr(int); void usb_ep_stall(int); size_t usb_ep_get_transfer_size(struct usbd_ep_pipe_state_t *); void usb_queue_next(struct usbd_ep_pipe_state_t *, void *, size_t); void usb_pipe_stall(struct usbd_ep_pipe_state_t *); void usb_pipe_unstall(struct usbd_ep_pipe_state_t *); void usb_pipe_enable(struct usbd_ep_pipe_state_t *s); void usb_pipe_disable(struct usbd_ep_pipe_state_t *s); #ifdef VUSB void vusb_main_loop(void); #else void usb_poll(void); #endif int usb_tx_serialno(size_t reqlen); /* Provided by MI code */ void usb_init(const struct usbd_device *); void usb_attach_function(const struct usbd_function *function, struct usbd_function_ctx_header *ctx); void usb_handle_transaction(struct usb_xfer_info *); void usb_setup_control(void); void usb_handle_control_status_cb(ep_callback_t cb); void usb_handle_control_status(int); struct usbd_ep_pipe_state_t *usb_init_ep(struct usbd_function_ctx_header *ctx, int ep, enum usb_ep_dir dir, size_t size); int usb_rx(struct usbd_ep_pipe_state_t *, void *, size_t, ep_callback_t, void *); int usb_tx(struct usbd_ep_pipe_state_t *, const void *, size_t, size_t, ep_callback_t, void *); int usb_ep0_rx(void *, size_t, ep_callback_t, void *); void *usb_ep0_tx_inplace_prepare(size_t len); int usb_ep0_tx(void *buf, size_t len, size_t reqlen, ep_callback_t cb, void *cb_data); int usb_ep0_tx_cp(const void *, size_t, size_t, ep_callback_t, void *); // ----- DFU USB Additional Includes ----- #include "dfu.h" #endif