rockbox/utils/hwstub/include/hwstub_protocol.h

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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2012 by Amaury Pouly
*
* 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 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#ifndef __HWSTUB_PROTOCOL__
#define __HWSTUB_PROTOCOL__
#include <stdint.h>
/**
* This file contains the data structures used in the USB and network protocol.
* All USB data uses the standard USB byte order which is little-endian.
*/
/**
* HWStub protocol version
*/
#define HWSTUB_VERSION_MAJOR 4
#define HWSTUB_VERSION_MINOR 2
#define HWSTUB_VERSION__(maj, min) #maj"."#min
#define HWSTUB_VERSION_(maj, min) HWSTUB_VERSION__(maj, min)
#define HWSTUB_VERSION HWSTUB_VERSION_(HWSTUB_VERSION_MAJOR, HWSTUB_VERSION_MINOR)
/**
* A device can use any VID:PID but in case hwstub is in full control of the
* device, the preferred VID:PID is the following.
*/
#define HWSTUB_USB_VID 0xfee1
#define HWSTUB_USB_PID 0xdead
/**
* The device class should be per interface and the hwstub interface must use
* the following class, subclass and protocol.
*/
#define HWSTUB_CLASS 0xff
#define HWSTUB_SUBCLASS 0xde
#define HWSTUB_PROTOCOL 0xad
/**********************************
* Descriptors
**********************************/
/**
* Descriptors can be retrieved using configuration descriptor or individually
* using the standard GetDescriptor request on the interface.
*/
#define HWSTUB_DT_VERSION 0x41 /* mandatory */
#define HWSTUB_DT_LAYOUT 0x42 /* mandatory */
#define HWSTUB_DT_TARGET 0x43 /* mandatory */
#define HWSTUB_DT_STMP 0x44 /* mandatory for STMP */
#define HWSTUB_DT_PP 0x45 /* mandatory for PP */
#define HWSTUB_DT_JZ 0x46 /* mandatory for JZ */
struct hwstub_version_desc_t
{
uint8_t bLength;
uint8_t bDescriptorType;
/* full version information */
uint8_t bMajor;
uint8_t bMinor;
uint8_t bRevision;
} __attribute__((packed));
struct hwstub_layout_desc_t
{
uint8_t bLength;
uint8_t bDescriptorType;
/* describe the range of memory used by the running code */
uint32_t dCodeStart;
uint32_t dCodeSize;
/* describe the range of memory used by the stack */
uint32_t dStackStart;
uint32_t dStackSize;
/* describe the range of memory available as a buffer */
uint32_t dBufferStart;
uint32_t dBufferSize;
} __attribute__((packed));
struct hwstub_stmp_desc_t
{
uint8_t bLength;
uint8_t bDescriptorType;
/* Chip ID and revision */
uint16_t wChipID; /* 0x3780 for STMP3780 for example */
uint8_t bRevision; /* 0=TA1 on STMP3780 for example */
uint8_t bPackage; /* 0=169BGA for example */
} __attribute__((packed));
struct hwstub_pp_desc_t
{
uint8_t bLength;
uint8_t bDescriptorType;
/* Chip ID and revision */
uint16_t wChipID; /* 0x5002 for PP5002 for example */
uint8_t bRevision[2]; /* 'B1' for B1 for example */
} __attribute__((packed));
struct hwstub_jz_desc_t
{
uint8_t bLength;
uint8_t bDescriptorType;
/* Chip ID and revision */
uint16_t wChipID; /* 0x4760 for Jz4760 for example */
uint8_t bRevision; /* 0 for Jz4760, 'B' for JZ4760B */
} __attribute__((packed));
#define HWSTUB_TARGET_UNK ('U' | 'N' << 8 | 'K' << 16 | ' ' << 24)
#define HWSTUB_TARGET_STMP ('S' | 'T' << 8 | 'M' << 16 | 'P' << 24)
#define HWSTUB_TARGET_RK27 ('R' | 'K' << 8 | '2' << 16 | '7' << 24)
#define HWSTUB_TARGET_PP ('P' | 'P' << 8 | ' ' << 16 | ' ' << 24)
#define HWSTUB_TARGET_ATJ ('A' | 'T' << 8 | 'J' << 16 | ' ' << 24)
#define HWSTUB_TARGET_JZ ('J' | 'Z' << 8 | '4' << 16 | '7' << 24)
struct hwstub_target_desc_t
{
uint8_t bLength;
uint8_t bDescriptorType;
/* Target ID and name */
uint32_t dID;
char bName[58];
} __attribute__((packed));
/**
* Socket command packet header: any transfer (in both directions) start with this.
* All data is transmitted in network byte order.
*/
#define HWSTUB_NET_ARGS 4
struct hwstub_net_hdr_t
{
uint32_t magic; /* magic value (HWSERVER_MAGIC) */
uint32_t cmd; /* command (OR'ed with (N)ACK on response) */
uint32_t length; /* length of the data following this header */
uint32_t args[HWSTUB_NET_ARGS]; /* command arguments */
} __attribute__((packed));
/**
* Control commands
*
* These commands are sent to the interface, using the standard bRequest field
* of the SETUP packet. The wIndex contains the interface number. The wValue
* contains an ID which is used for requests requiring several transfers.
*/
#define HWSTUB_GET_LOG 0x40
#define HWSTUB_READ 0x41
#define HWSTUB_READ2 0x42
#define HWSTUB_WRITE 0x43
#define HWSTUB_EXEC 0x44
#define HWSTUB_READ2_ATOMIC 0x45
#define HWSTUB_WRITE_ATOMIC 0x46
/* the following commands and the ACK/NACK mechanism are net only */
#define HWSERVER_ACK(n) (0x100|(n))
#define HWSERVER_ACK_MASK 0x100
#define HWSERVER_NACK(n) (0x200|(n))
#define HWSERVER_NACK_MASK 0x200
#define HWSERVER_MAGIC ('h' << 24 | 'w' << 16 | 's' << 8 | 't')
#define HWSERVER_HELLO 0x400
#define HWSERVER_GET_DEV_LIST 0x401
#define HWSERVER_DEV_OPEN 0x402
#define HWSERVER_DEV_CLOSE 0x403
#define HWSERVER_BYE 0x404
#define HWSERVER_GET_DESC 0x405
#define HWSERVER_GET_LOG 0x406
#define HWSERVER_READ 0x407
#define HWSERVER_WRITE 0x408
#define HWSERVER_EXEC 0x409
/* net errors (always in arg[0] if command is NACKed) */
#define HWERR_OK 0 /* success */
#define HWERR_FAIL 1 /* general error from hwstub */
#define HWERR_INVALID_ID 2 /* invalid id of the device */
#define HWERR_DISCONNECTED 3 /* device got disconnected */
/* read/write flags */
#define HWSERVER_RW_ATOMIC 0x1
/**********************************
* Control Protocol
**********************************/
/**
* HWSTUB_GET_LOG:
* The log is returned as part of the control transfer.
*/
/**
* HWSTUB_READ and HWSTUB_READ2(_ATOMIC):
* Read a range of memory. The request works in two steps: first the host
* sends HWSTUB_READ with the parameters (address, length) and then
* a HWSTUB_READ2 to retrieve the buffer. Both requests must use the same
* ID in wValue, otherwise the second request will be STALLed.
* HWSTUB_READ2_ATOMIC behaves the same as HWSTUB_READ2 except that the read
* is guaranteed to be atomic (ie performed as a single memory access) and
* will be STALLed if atomicity can not be ensured.
*/
struct hwstub_read_req_t
{
uint32_t dAddress;
} __attribute__((packed));
/**
* HWSTUB_WRITE:
* Write a range of memory. The payload starts with the following header, everything
* which follows is data.
* HWSTUB_WRITE_ATOMIC behaves the same except it is atomic. See HWSTUB_READ2_ATOMIC.
*/
struct hwstub_write_req_t
{
uint32_t dAddress;
} __attribute__((packed));
/**
* HWSTUB_EXEC:
* Execute code at an address. Several options are available regarding ARM vs Thumb,
* jump vs call.
*/
#define HWSTUB_EXEC_ARM (0 << 0) /* target code is ARM */
#define HWSTUB_EXEC_THUMB (1 << 0) /* target code is Thumb */
#define HWSTUB_EXEC_JUMP (0 << 1) /* branch, code will never turn */
#define HWSTUB_EXEC_CALL (1 << 1) /* call and expect return */
struct hwstub_exec_req_t
{
uint32_t dAddress;
uint16_t bmFlags;
} __attribute__((packed));
/**
* HWSERVER_HELLO:
* Say hello to the server, give protocol version and get server version.
* Send: args[0] = major << 8 | minor, no data
* Receive: args[0] = major << 8 | minor, no data
*/
/**
* HWSERVER_GET_DEV_LIST:
* Get device list.
* Send: no argument, no data.
* Receive: no argument, data contains a list of device IDs, each ID is a uint32_t
* transmitted in network byte order.
*/
/**
* HWSERVER_DEV_OPEN:
* Open a device and return a handle.
* Send: args[0] = device ID, no data.
* Receive: args[0] = handle ID, no data.
*/
/**
* HWSERVER_DEV_CLOSE:
* Close a device handle.
* Send: args[0] = handle ID, no data.
* Receive: no argument, no data.
*/
/**
* HWSERVER_BYE:
* Say bye to the server, closing all devices and effectively stopping the communication.
* Send: no argument, no data
* Receive: no argument, no data
*/
/**
* HWSERVER_GET_DESC:
* Query a descriptor.
* Send: args[0] = handle ID, args[1] = desc ID, args[2] = requested length, no data
* Receive: no argument, data contains RAW descriptor (ie all fields are in little-endian)
*/
/**
* HWSERVER_GET_LOG:
* Query a descriptor.
* Send: args[0] = handle ID, args[1] = requested length, no data
* Receive: no argument, data contains log data
*/
/**
* HWSERVER_READ:
* Read data.
* Send: args[0] = handle ID, args[1] = addr, args[2] = length, args[3] = flags
* Receive: no argument, data read on device
*/
/**
* HWSERVER_WRITE:
* Read data.
* Send: args[0] = handle ID, args[1] = addr, args[2] = flags, data to write
* Receive: no data
*/
#endif /* __HWSTUB_PROTOCOL__ */