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Removing USB

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Need to refine the drive to the iron tip
This commit is contained in:
Ben V. Brown
2016-09-16 19:23:29 +10:00
parent 278d29bf4c
commit 1ec2477033
45 changed files with 72 additions and 6782 deletions
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31
workspace/ts100/.cproject
View File

@@ -20,16 +20,20 @@
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<option id="fr.ac6.managedbuild.option.gnu.cross.board.1401196546" name="Board" superClass="fr.ac6.managedbuild.option.gnu.cross.board" value="ts100" valueType="string"/>
<targetPlatform archList="all" binaryParser="org.eclipse.cdt.core.ELF" id="fr.ac6.managedbuild.targetPlatform.gnu.cross.1811524023" isAbstract="false" osList="all" superClass="fr.ac6.managedbuild.targetPlatform.gnu.cross"/>
<builder buildPath="${workspace_loc:/ts100}/Debug" id="fr.ac6.managedbuild.builder.gnu.cross.727350462" keepEnvironmentInBuildfile="false" managedBuildOn="true" name="Gnu Make Builder" superClass="fr.ac6.managedbuild.builder.gnu.cross"/>
<builder buildPath="${workspace_loc:/ts100}/Debug" id="fr.ac6.managedbuild.builder.gnu.cross.727350462" keepEnvironmentInBuildfile="false" managedBuildOn="true" name="Gnu Make Builder" superClass="fr.ac6.managedbuild.builder.gnu.cross">
<outputEntries>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="outputPath" name="Debug"/>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="outputPath" name="Release"/>
</outputEntries>
</builder>
<tool id="fr.ac6.managedbuild.tool.gnu.cross.c.compiler.1500724168" name="MCU GCC Compiler" superClass="fr.ac6.managedbuild.tool.gnu.cross.c.compiler">
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<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/StdPeriph_Driver/inc&quot;"/>
<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/CMSIS/core&quot;"/>
<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/CMSIS/device&quot;"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/inc"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/StdPeriph_Driver/inc"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/CMSIS/core"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/CMSIS/device"/>
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<listOptionValue builtIn="false" value="STM32F103T8Ux"/>
@@ -45,7 +49,7 @@
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<option id="fr.ac6.managedbuild.tool.gnu.cross.c.compiler.fdata.1556802580" name="Place the data in their own section (-fdata-sections)" superClass="fr.ac6.managedbuild.tool.gnu.cross.c.compiler.fdata" useByScannerDiscovery="false" value="true" valueType="boolean"/>
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</tool>
@@ -65,10 +69,10 @@
<tool id="fr.ac6.managedbuild.tool.gnu.archiver.1926145385" name="MCU GCC Archiver" superClass="fr.ac6.managedbuild.tool.gnu.archiver"/>
<tool id="fr.ac6.managedbuild.tool.gnu.cross.assembler.104990963" name="MCU GCC Assembler" superClass="fr.ac6.managedbuild.tool.gnu.cross.assembler">
<option id="gnu.both.asm.option.include.paths.834243276" name="Include paths (-I)" superClass="gnu.both.asm.option.include.paths" valueType="includePath">
<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/inc&quot;"/>
<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/StdPeriph_Driver/inc&quot;"/>
<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/CMSIS/core&quot;"/>
<listOptionValue builtIn="false" value="&quot;${ProjDirPath}/CMSIS/device&quot;"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/inc"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/StdPeriph_Driver/inc"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/CMSIS/core"/>
<listOptionValue builtIn="false" value="/home/ralim/Repo/ts100/workspace/ts100/CMSIS/device"/>
</option>
<inputType id="cdt.managedbuild.tool.gnu.assembler.input.1754789872" superClass="cdt.managedbuild.tool.gnu.assembler.input"/>
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@@ -77,7 +81,6 @@
</folderInfo>
<sourceEntries>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="CMSIS"/>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="STM32_USB-FS-Device_Driver"/>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="StdPeriph_Driver"/>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="inc"/>
<entry flags="VALUE_WORKSPACE_PATH|RESOLVED" kind="sourcePath" name="src"/>

4
workspace/ts100/LinkerScript.ld
View File

@@ -62,8 +62,10 @@ _Min_Stack_Size = 0x400; /* required amount of stack */
MEMORY
{
RAM (xrw) : ORIGIN = 0x20000000, LENGTH = 20K
ROM (rx) : ORIGIN = 0x08004000, LENGTH = 36K
ROM (rx) : ORIGIN = 0x08000000, LENGTH = 64K
}
/*ROM (rx) : ORIGIN = 0x08004000, LENGTH = 48K*/
/*^ The rom is shortened as the last ~10K is used for storing the virtual USB Disk, and the offset at the beginning in the bootloader*/
/* Sections */
SECTIONS

259
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_core.h
View File

@@ -1,259 +0,0 @@
/**
******************************************************************************
* @file usb_core.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Standard protocol processing functions prototypes
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_CORE_H
#define __USB_CORE_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
typedef enum _CONTROL_STATE
{
WAIT_SETUP, /* 0 */
SETTING_UP, /* 1 */
IN_DATA, /* 2 */
OUT_DATA, /* 3 */
LAST_IN_DATA, /* 4 */
LAST_OUT_DATA, /* 5 */
WAIT_STATUS_IN, /* 7 */
WAIT_STATUS_OUT, /* 8 */
STALLED, /* 9 */
PAUSE /* 10 */
} CONTROL_STATE; /* The state machine states of a control pipe */
typedef struct OneDescriptor
{
uint8_t *Descriptor;
uint16_t Descriptor_Size;
}
ONE_DESCRIPTOR, *PONE_DESCRIPTOR;
/* All the request process routines return a value of this type
If the return value is not SUCCESS or NOT_READY,
the software will STALL the correspond endpoint */
typedef enum _RESULT
{
USB_SUCCESS = 0, /* Process successfully */
USB_ERROR,
USB_UNSUPPORT,
USB_NOT_READY /* The process has not been finished, endpoint will be
NAK to further request */
} RESULT;
/*-*-*-*-*-*-*-*-*-*-* Definitions for endpoint level -*-*-*-*-*-*-*-*-*-*-*-*/
typedef struct _ENDPOINT_INFO
{
/* When send data out of the device,
CopyData() is used to get data buffer 'Length' bytes data
if Length is 0,
CopyData() returns the total length of the data
if the request is not supported, returns 0
(NEW Feature )
if CopyData() returns -1, the calling routine should not proceed
further and will resume the SETUP process by the class device
if Length is not 0,
CopyData() returns a pointer to indicate the data location
Usb_wLength is the data remain to be sent,
Usb_wOffset is the Offset of original data
When receive data from the host,
CopyData() is used to get user data buffer which is capable
of Length bytes data to copy data from the endpoint buffer.
if Length is 0,
CopyData() returns the available data length,
if Length is not 0,
CopyData() returns user buffer address
Usb_rLength is the data remain to be received,
Usb_rPointer is the Offset of data buffer
*/
uint16_t Usb_wLength;
uint16_t Usb_wOffset;
uint16_t PacketSize;
uint8_t *(*CopyData)(uint16_t Length);
}ENDPOINT_INFO;
/*-*-*-*-*-*-*-*-*-*-*-* Definitions for device level -*-*-*-*-*-*-*-*-*-*-*-*/
typedef struct _DEVICE
{
uint8_t Total_Endpoint; /* Number of endpoints that are used */
uint8_t Total_Configuration;/* Number of configuration available */
}
DEVICE;
typedef union
{
uint16_t w;
struct BW
{
uint8_t bb1;
uint8_t bb0;
}
bw;
} uint16_t_uint8_t;
typedef struct _DEVICE_INFO
{
uint8_t USBbmRequestType; /* bmRequestType */
uint8_t USBbRequest; /* bRequest */
uint16_t_uint8_t USBwValues; /* wValue */
uint16_t_uint8_t USBwIndexs; /* wIndex */
uint16_t_uint8_t USBwLengths; /* wLength */
uint8_t ControlState; /* of type CONTROL_STATE */
uint8_t Current_Feature;
uint8_t Current_Configuration; /* Selected configuration */
uint8_t Current_Interface; /* Selected interface of current configuration */
uint8_t Current_AlternateSetting;/* Selected Alternate Setting of current
interface*/
ENDPOINT_INFO Ctrl_Info;
}DEVICE_INFO;
typedef struct _DEVICE_PROP
{
void (*Init)(void); /* Initialize the device */
void (*Reset)(void); /* Reset routine of this device */
/* Device dependent process after the status stage */
void (*Process_Status_IN)(void);
void (*Process_Status_OUT)(void);
/* Procedure of process on setup stage of a class specified request with data stage */
/* All class specified requests with data stage are processed in Class_Data_Setup
Class_Data_Setup()
responses to check all special requests and fills ENDPOINT_INFO
according to the request
If IN tokens are expected, then wLength & wOffset will be filled
with the total transferring bytes and the starting position
If OUT tokens are expected, then rLength & rOffset will be filled
with the total expected bytes and the starting position in the buffer
If the request is valid, Class_Data_Setup returns SUCCESS, else UNSUPPORT
CAUTION:
Since GET_CONFIGURATION & GET_INTERFACE are highly related to
the individual classes, they will be checked and processed here.
*/
RESULT (*Class_Data_Setup)(uint8_t RequestNo);
/* Procedure of process on setup stage of a class specified request without data stage */
/* All class specified requests without data stage are processed in Class_NoData_Setup
Class_NoData_Setup
responses to check all special requests and perform the request
CAUTION:
Since SET_CONFIGURATION & SET_INTERFACE are highly related to
the individual classes, they will be checked and processed here.
*/
RESULT (*Class_NoData_Setup)(uint8_t RequestNo);
/*Class_Get_Interface_Setting
This function is used by the file usb_core.c to test if the selected Interface
and Alternate Setting (uint8_t Interface, uint8_t AlternateSetting) are supported by
the application.
This function is writing by user. It should return "SUCCESS" if the Interface
and Alternate Setting are supported by the application or "UNSUPPORT" if they
are not supported. */
RESULT (*Class_Get_Interface_Setting)(uint8_t Interface, uint8_t AlternateSetting);
uint8_t* (*GetDeviceDescriptor)(uint16_t Length);
uint8_t* (*GetConfigDescriptor)(uint16_t Length);
uint8_t* (*GetStringDescriptor)(uint16_t Length);
/* This field is not used in current library version. It is kept only for
compatibility with previous versions */
void* RxEP_buffer;
uint8_t MaxPacketSize;
}DEVICE_PROP;
typedef struct _USER_STANDARD_REQUESTS
{
void (*User_GetConfiguration)(void); /* Get Configuration */
void (*User_SetConfiguration)(void); /* Set Configuration */
void (*User_GetInterface)(void); /* Get Interface */
void (*User_SetInterface)(void); /* Set Interface */
void (*User_GetStatus)(void); /* Get Status */
void (*User_ClearFeature)(void); /* Clear Feature */
void (*User_SetEndPointFeature)(void); /* Set Endpoint Feature */
void (*User_SetDeviceFeature)(void); /* Set Device Feature */
void (*User_SetDeviceAddress)(void); /* Set Device Address */
}
USER_STANDARD_REQUESTS;
/* Exported constants --------------------------------------------------------*/
#define Type_Recipient (pInformation->USBbmRequestType & (REQUEST_TYPE | RECIPIENT))
#define Usb_rLength Usb_wLength
#define Usb_rOffset Usb_wOffset
#define USBwValue USBwValues.w
#define USBwValue0 USBwValues.bw.bb0
#define USBwValue1 USBwValues.bw.bb1
#define USBwIndex USBwIndexs.w
#define USBwIndex0 USBwIndexs.bw.bb0
#define USBwIndex1 USBwIndexs.bw.bb1
#define USBwLength USBwLengths.w
#define USBwLength0 USBwLengths.bw.bb0
#define USBwLength1 USBwLengths.bw.bb1
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
uint8_t Setup0_Process(void);
uint8_t Post0_Process(void);
uint8_t Out0_Process(void);
uint8_t In0_Process(void);
RESULT Standard_SetEndPointFeature(void);
RESULT Standard_SetDeviceFeature(void);
uint8_t *Standard_GetConfiguration(uint16_t Length);
RESULT Standard_SetConfiguration(void);
uint8_t *Standard_GetInterface(uint16_t Length);
RESULT Standard_SetInterface(void);
uint8_t *Standard_GetDescriptorData(uint16_t Length, PONE_DESCRIPTOR pDesc);
uint8_t *Standard_GetStatus(uint16_t Length);
RESULT Standard_ClearFeature(void);
void SetDeviceAddress(uint8_t);
void NOP_Process(void);
extern DEVICE_PROP Device_Property;
extern USER_STANDARD_REQUESTS User_Standard_Requests;
extern DEVICE Device_Table;
extern DEVICE_INFO Device_Info;
/* cells saving status during interrupt servicing */
extern volatile uint16_t SaveRState;
extern volatile uint16_t SaveTState;
#endif /* __USB_CORE_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

92
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_def.h
View File

@@ -1,92 +0,0 @@
/**
******************************************************************************
* @file usb_def.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Definitions related to USB Core
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_DEF_H
#define __USB_DEF_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
typedef enum _RECIPIENT_TYPE
{
DEVICE_RECIPIENT, /* Recipient device */
INTERFACE_RECIPIENT, /* Recipient interface */
ENDPOINT_RECIPIENT, /* Recipient endpoint */
OTHER_RECIPIENT
} RECIPIENT_TYPE;
typedef enum _STANDARD_REQUESTS
{
GET_STATUS = 0,
CLEAR_FEATURE,
RESERVED1,
SET_FEATURE,
RESERVED2,
SET_ADDRESS,
GET_DESCRIPTOR,
SET_DESCRIPTOR,
GET_CONFIGURATION,
SET_CONFIGURATION,
GET_INTERFACE,
SET_INTERFACE,
TOTAL_sREQUEST, /* Total number of Standard request */
SYNCH_FRAME = 12
} STANDARD_REQUESTS;
/* Definition of "USBwValue" */
typedef enum _DESCRIPTOR_TYPE
{
DEVICE_DESCRIPTOR = 1,
CONFIG_DESCRIPTOR,
STRING_DESCRIPTOR,
INTERFACE_DESCRIPTOR,
ENDPOINT_DESCRIPTOR
} DESCRIPTOR_TYPE;
/* Feature selector of a SET_FEATURE or CLEAR_FEATURE */
typedef enum _FEATURE_SELECTOR
{
ENDPOINT_STALL,
DEVICE_REMOTE_WAKEUP
} FEATURE_SELECTOR;
/* Exported constants --------------------------------------------------------*/
/* Definition of "USBbmRequestType" */
#define REQUEST_TYPE 0x60 /* Mask to get request type */
#define STANDARD_REQUEST 0x00 /* Standard request */
#define CLASS_REQUEST 0x20 /* Class request */
#define VENDOR_REQUEST 0x40 /* Vendor request */
#define RECIPIENT 0x1F /* Mask to get recipient */
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
#endif /* __USB_DEF_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

62
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_init.h
View File

@@ -1,62 +0,0 @@
/**
******************************************************************************
* @file usb_init.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Initialization routines & global variables
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_INIT_H
#define __USB_INIT_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
void USB_Init(void);
/* External variables --------------------------------------------------------*/
/* The number of current endpoint, it will be used to specify an endpoint */
extern uint8_t EPindex;
/* The number of current device, it is an index to the Device_Table */
/*extern uint8_t Device_no; */
/* Points to the DEVICE_INFO structure of current device */
/* The purpose of this register is to speed up the execution */
extern DEVICE_INFO* pInformation;
/* Points to the DEVICE_PROP structure of current device */
/* The purpose of this register is to speed up the execution */
extern DEVICE_PROP* pProperty;
/* Temporary save the state of Rx & Tx status. */
/* Whenever the Rx or Tx state is changed, its value is saved */
/* in this variable first and will be set to the EPRB or EPRA */
/* at the end of interrupt process */
extern USER_STANDARD_REQUESTS *pUser_Standard_Requests;
extern uint16_t SaveState ;
extern uint16_t wInterrupt_Mask;
#endif /* __USB_INIT_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

45
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_int.h
View File

@@ -1,45 +0,0 @@
/**
******************************************************************************
* @file usb_int.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Endpoint CTR (Low and High) interrupt's service routines prototypes
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_INT_H
#define __USB_INT_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
void CTR_LP(void);
void CTR_HP(void);
/* External variables --------------------------------------------------------*/
#endif /* __USB_INT_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

51
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_lib.h
View File

@@ -1,51 +0,0 @@
/**
******************************************************************************
* @file usb_lib.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief USB library include files
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_LIB_H
#define __USB_LIB_H
/* Includes ------------------------------------------------------------------*/
#include "usb_type.h"
#include "usb_regs.h"
#include "usb_def.h"
#include "usb_core.h"
#include "usb_init.h"
#include "usb_sil.h"
#include "usb_mem.h"
#include "usb_int.h"
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
/* External variables --------------------------------------------------------*/
#endif /* __USB_LIB_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

45
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_mem.h
View File

@@ -1,45 +0,0 @@
/**
******************************************************************************
* @file usb_mem.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Utility prototypes functions for memory/PMA transfers
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_MEM_H
#define __USB_MEM_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
void UserToPMABufferCopy(uint8_t *pbUsrBuf, uint16_t wPMABufAddr, uint16_t wNBytes);
void PMAToUserBufferCopy(uint8_t *pbUsrBuf, uint16_t wPMABufAddr, uint16_t wNBytes);
/* External variables --------------------------------------------------------*/
#endif /*__USB_MEM_H*/
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

32
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_mem1.h
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@@ -1,32 +0,0 @@
/******************** (C) COPYRIGHT 2007 STMicroelectronics ********************
* File Name : usb_mem.h
* Author : MCD Application Team
* Version : V1.0
* Date : 10/08/2007
* Description : Utility prototypes functions for memory/PMA transfers
********************************************************************************
* THE PRESENT SOFTWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
* CONTENT OF SUCH SOFTWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*******************************************************************************/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_MEM_H
#define __USB_MEM_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
void UserToPMABufferCopy(uint8_t *pbUsrBuf, uint16_t wPMABufAddr, uint16_t wNBytes);
void PMAToUserBufferCopy(uint8_t *pbUsrBuf, uint16_t wPMABufAddr, uint16_t wNBytes);
/* External variables --------------------------------------------------------*/
#endif /*__USB_MEM_H*/
/******************* (C) COPYRIGHT 2007 STMicroelectronics *****END OF FILE****/

685
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_regs.h
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@@ -1,685 +0,0 @@
/**
******************************************************************************
* @file usb_regs.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Interface prototype functions to USB cell registers
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_REGS_H
#define __USB_REGS_H
/* Includes ------------------------------------------------------------------*/
#ifdef STM32F30X
#include "stm32f30x.h"
#else
#include "stm32f10x.h"
#endif
/* Exported types ------------------------------------------------------------*/
typedef enum _EP_DBUF_DIR
{
/* double buffered endpoint direction */
EP_DBUF_ERR,
EP_DBUF_OUT,
EP_DBUF_IN
}EP_DBUF_DIR;
/* endpoint buffer number */
enum EP_BUF_NUM
{
EP_NOBUF,
EP_BUF0,
EP_BUF1
};
/* Exported constants --------------------------------------------------------*/
#define RegBase (0x40005C00L) /* USB_IP Peripheral Registers base address */
#define PMAAddr (0x40006000L) /* USB_IP Packet Memory Area base address */
/******************************************************************************/
/* General registers */
/******************************************************************************/
/* Control register */
#define CNTR ((__IO unsigned *)(RegBase + 0x40))
/* Interrupt status register */
#define ISTR ((__IO unsigned *)(RegBase + 0x44))
/* Frame number register */
#define FNR ((__IO unsigned *)(RegBase + 0x48))
/* Device address register */
#define DADDR ((__IO unsigned *)(RegBase + 0x4C))
/* Buffer Table address register */
#define BTABLE ((__IO unsigned *)(RegBase + 0x50))
/******************************************************************************/
/* Endpoint registers */
/******************************************************************************/
#define EP0REG ((__IO unsigned *)(RegBase)) /* endpoint 0 register address */
/* Endpoint Addresses (w/direction) */
#define EP0_OUT ((uint8_t)0x00)
#define EP0_IN ((uint8_t)0x80)
#define EP1_OUT ((uint8_t)0x01)
#define EP1_IN ((uint8_t)0x81)
#define EP2_OUT ((uint8_t)0x02)
#define EP2_IN ((uint8_t)0x82)
#define EP3_OUT ((uint8_t)0x03)
#define EP3_IN ((uint8_t)0x83)
#define EP4_OUT ((uint8_t)0x04)
#define EP4_IN ((uint8_t)0x84)
#define EP5_OUT ((uint8_t)0x05)
#define EP5_IN ((uint8_t)0x85)
#define EP6_OUT ((uint8_t)0x06)
#define EP6_IN ((uint8_t)0x86)
#define EP7_OUT ((uint8_t)0x07)
#define EP7_IN ((uint8_t)0x87)
/* endpoints enumeration */
#define ENDP0 ((uint8_t)0)
#define ENDP1 ((uint8_t)1)
#define ENDP2 ((uint8_t)2)
#define ENDP3 ((uint8_t)3)
#define ENDP4 ((uint8_t)4)
#define ENDP5 ((uint8_t)5)
#define ENDP6 ((uint8_t)6)
#define ENDP7 ((uint8_t)7)
/******************************************************************************/
/* ISTR interrupt events */
/******************************************************************************/
#define ISTR_CTR (0x8000) /* Correct TRansfer (clear-only bit) */
#define ISTR_DOVR (0x4000) /* DMA OVeR/underrun (clear-only bit) */
#define ISTR_ERR (0x2000) /* ERRor (clear-only bit) */
#define ISTR_WKUP (0x1000) /* WaKe UP (clear-only bit) */
#define ISTR_SUSP (0x0800) /* SUSPend (clear-only bit) */
#define ISTR_RESET (0x0400) /* RESET (clear-only bit) */
#define ISTR_SOF (0x0200) /* Start Of Frame (clear-only bit) */
#define ISTR_ESOF (0x0100) /* Expected Start Of Frame (clear-only bit) */
#define ISTR_DIR (0x0010) /* DIRection of transaction (read-only bit) */
#define ISTR_EP_ID (0x000F) /* EndPoint IDentifier (read-only bit) */
#define CLR_CTR (~ISTR_CTR) /* clear Correct TRansfer bit */
#define CLR_DOVR (~ISTR_DOVR) /* clear DMA OVeR/underrun bit*/
#define CLR_ERR (~ISTR_ERR) /* clear ERRor bit */
#define CLR_WKUP (~ISTR_WKUP) /* clear WaKe UP bit */
#define CLR_SUSP (~ISTR_SUSP) /* clear SUSPend bit */
#define CLR_RESET (~ISTR_RESET) /* clear RESET bit */
#define CLR_SOF (~ISTR_SOF) /* clear Start Of Frame bit */
#define CLR_ESOF (~ISTR_ESOF) /* clear Expected Start Of Frame bit */
/******************************************************************************/
/* CNTR control register bits definitions */
/******************************************************************************/
#define CNTR_CTRM (0x8000) /* Correct TRansfer Mask */
#define CNTR_DOVRM (0x4000) /* DMA OVeR/underrun Mask */
#define CNTR_ERRM (0x2000) /* ERRor Mask */
#define CNTR_WKUPM (0x1000) /* WaKe UP Mask */
#define CNTR_SUSPM (0x0800) /* SUSPend Mask */
#define CNTR_RESETM (0x0400) /* RESET Mask */
#define CNTR_SOFM (0x0200) /* Start Of Frame Mask */
#define CNTR_ESOFM (0x0100) /* Expected Start Of Frame Mask */
#define CNTR_RESUME (0x0010) /* RESUME request */
#define CNTR_FSUSP (0x0008) /* Force SUSPend */
#define CNTR_LPMODE (0x0004) /* Low-power MODE */
#define CNTR_PDWN (0x0002) /* Power DoWN */
#define CNTR_FRES (0x0001) /* Force USB RESet */
/******************************************************************************/
/* FNR Frame Number Register bit definitions */
/******************************************************************************/
#define FNR_RXDP (0x8000) /* status of D+ data line */
#define FNR_RXDM (0x4000) /* status of D- data line */
#define FNR_LCK (0x2000) /* LoCKed */
#define FNR_LSOF (0x1800) /* Lost SOF */
#define FNR_FN (0x07FF) /* Frame Number */
/******************************************************************************/
/* DADDR Device ADDRess bit definitions */
/******************************************************************************/
#define DADDR_EF (0x80)
#define DADDR_ADD (0x7F)
/******************************************************************************/
/* Endpoint register */
/******************************************************************************/
/* bit positions */
#define EP_CTR_RX (0x8000) /* EndPoint Correct TRansfer RX */
#define EP_DTOG_RX (0x4000) /* EndPoint Data TOGGLE RX */
#define EPRX_STAT (0x3000) /* EndPoint RX STATus bit field */
#define EP_SETUP (0x0800) /* EndPoint SETUP */
#define EP_T_FIELD (0x0600) /* EndPoint TYPE */
#define EP_KIND (0x0100) /* EndPoint KIND */
#define EP_CTR_TX (0x0080) /* EndPoint Correct TRansfer TX */
#define EP_DTOG_TX (0x0040) /* EndPoint Data TOGGLE TX */
#define EPTX_STAT (0x0030) /* EndPoint TX STATus bit field */
#define EPADDR_FIELD (0x000F) /* EndPoint ADDRess FIELD */
/* EndPoint REGister MASK (no toggle fields) */
#define EPREG_MASK (EP_CTR_RX|EP_SETUP|EP_T_FIELD|EP_KIND|EP_CTR_TX|EPADDR_FIELD)
/* EP_TYPE[1:0] EndPoint TYPE */
#define EP_TYPE_MASK (0x0600) /* EndPoint TYPE Mask */
#define EP_BULK (0x0000) /* EndPoint BULK */
#define EP_CONTROL (0x0200) /* EndPoint CONTROL */
#define EP_ISOCHRONOUS (0x0400) /* EndPoint ISOCHRONOUS */
#define EP_INTERRUPT (0x0600) /* EndPoint INTERRUPT */
#define EP_T_MASK (~EP_T_FIELD & EPREG_MASK)
/* EP_KIND EndPoint KIND */
#define EPKIND_MASK (~EP_KIND & EPREG_MASK)
/* STAT_TX[1:0] STATus for TX transfer */
#define EP_TX_DIS (0x0000) /* EndPoint TX DISabled */
#define EP_TX_STALL (0x0010) /* EndPoint TX STALLed */
#define EP_TX_NAK (0x0020) /* EndPoint TX NAKed */
#define EP_TX_VALID (0x0030) /* EndPoint TX VALID */
#define EPTX_DTOG1 (0x0010) /* EndPoint TX Data TOGgle bit1 */
#define EPTX_DTOG2 (0x0020) /* EndPoint TX Data TOGgle bit2 */
#define EPTX_DTOGMASK (EPTX_STAT|EPREG_MASK)
/* STAT_RX[1:0] STATus for RX transfer */
#define EP_RX_DIS (0x0000) /* EndPoint RX DISabled */
#define EP_RX_STALL (0x1000) /* EndPoint RX STALLed */
#define EP_RX_NAK (0x2000) /* EndPoint RX NAKed */
#define EP_RX_VALID (0x3000) /* EndPoint RX VALID */
#define EPRX_DTOG1 (0x1000) /* EndPoint RX Data TOGgle bit1 */
#define EPRX_DTOG2 (0x2000) /* EndPoint RX Data TOGgle bit1 */
#define EPRX_DTOGMASK (EPRX_STAT|EPREG_MASK)
/* Exported macro ------------------------------------------------------------*/
/* SetCNTR */
#define _SetCNTR(wRegValue) (*CNTR = (uint16_t)wRegValue)
/* SetISTR */
#define _SetISTR(wRegValue) (*ISTR = (uint16_t)wRegValue)
/* SetDADDR */
#define _SetDADDR(wRegValue) (*DADDR = (uint16_t)wRegValue)
/* SetBTABLE */
#define _SetBTABLE(wRegValue)(*BTABLE = (uint16_t)(wRegValue & 0xFFF8))
/* GetCNTR */
#define _GetCNTR() ((uint16_t) *CNTR)
/* GetISTR */
#define _GetISTR() ((uint16_t) *ISTR)
/* GetFNR */
#define _GetFNR() ((uint16_t) *FNR)
/* GetDADDR */
#define _GetDADDR() ((uint16_t) *DADDR)
/* GetBTABLE */
#define _GetBTABLE() ((uint16_t) *BTABLE)
/* SetENDPOINT */
#define _SetENDPOINT(bEpNum,wRegValue) (*(EP0REG + bEpNum)= \
(uint16_t)wRegValue)
/* GetENDPOINT */
#define _GetENDPOINT(bEpNum) ((uint16_t)(*(EP0REG + bEpNum)))
/*******************************************************************************
* Macro Name : SetEPType
* Description : sets the type in the endpoint register(bits EP_TYPE[1:0])
* Input : bEpNum: Endpoint Number.
* wType
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPType(bEpNum,wType) (_SetENDPOINT(bEpNum,\
((_GetENDPOINT(bEpNum) & EP_T_MASK) | wType )))
/*******************************************************************************
* Macro Name : GetEPType
* Description : gets the type in the endpoint register(bits EP_TYPE[1:0])
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint Type
*******************************************************************************/
#define _GetEPType(bEpNum) (_GetENDPOINT(bEpNum) & EP_T_FIELD)
/*******************************************************************************
* Macro Name : SetEPTxStatus
* Description : sets the status for tx transfer (bits STAT_TX[1:0]).
* Input : bEpNum: Endpoint Number.
* wState: new state
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPTxStatus(bEpNum,wState) {\
register uint16_t _wRegVal; \
_wRegVal = _GetENDPOINT(bEpNum) & EPTX_DTOGMASK;\
/* toggle first bit ? */ \
if((EPTX_DTOG1 & wState)!= 0) \
_wRegVal ^= EPTX_DTOG1; \
/* toggle second bit ? */ \
if((EPTX_DTOG2 & wState)!= 0) \
_wRegVal ^= EPTX_DTOG2; \
_SetENDPOINT(bEpNum, (_wRegVal | EP_CTR_RX|EP_CTR_TX)); \
} /* _SetEPTxStatus */
/*******************************************************************************
* Macro Name : SetEPRxStatus
* Description : sets the status for rx transfer (bits STAT_TX[1:0])
* Input : bEpNum: Endpoint Number.
* wState: new state.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPRxStatus(bEpNum,wState) {\
register uint16_t _wRegVal; \
\
_wRegVal = _GetENDPOINT(bEpNum) & EPRX_DTOGMASK;\
/* toggle first bit ? */ \
if((EPRX_DTOG1 & wState)!= 0) \
_wRegVal ^= EPRX_DTOG1; \
/* toggle second bit ? */ \
if((EPRX_DTOG2 & wState)!= 0) \
_wRegVal ^= EPRX_DTOG2; \
_SetENDPOINT(bEpNum, (_wRegVal | EP_CTR_RX|EP_CTR_TX)); \
} /* _SetEPRxStatus */
/*******************************************************************************
* Macro Name : SetEPRxTxStatus
* Description : sets the status for rx & tx (bits STAT_TX[1:0] & STAT_RX[1:0])
* Input : bEpNum: Endpoint Number.
* wStaterx: new state.
* wStatetx: new state.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPRxTxStatus(bEpNum,wStaterx,wStatetx) {\
register uint32_t _wRegVal; \
\
_wRegVal = _GetENDPOINT(bEpNum) & (EPRX_DTOGMASK |EPTX_STAT) ;\
/* toggle first bit ? */ \
if((EPRX_DTOG1 & wStaterx)!= 0) \
_wRegVal ^= EPRX_DTOG1; \
/* toggle second bit ? */ \
if((EPRX_DTOG2 & wStaterx)!= 0) \
_wRegVal ^= EPRX_DTOG2; \
/* toggle first bit ? */ \
if((EPTX_DTOG1 & wStatetx)!= 0) \
_wRegVal ^= EPTX_DTOG1; \
/* toggle second bit ? */ \
if((EPTX_DTOG2 & wStatetx)!= 0) \
_wRegVal ^= EPTX_DTOG2; \
_SetENDPOINT(bEpNum, _wRegVal | EP_CTR_RX|EP_CTR_TX); \
} /* _SetEPRxTxStatus */
/*******************************************************************************
* Macro Name : GetEPTxStatus / GetEPRxStatus
* Description : gets the status for tx/rx transfer (bits STAT_TX[1:0]
* /STAT_RX[1:0])
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : status .
*******************************************************************************/
#define _GetEPTxStatus(bEpNum) ((uint16_t)_GetENDPOINT(bEpNum) & EPTX_STAT)
#define _GetEPRxStatus(bEpNum) ((uint16_t)_GetENDPOINT(bEpNum) & EPRX_STAT)
/*******************************************************************************
* Macro Name : SetEPTxValid / SetEPRxValid
* Description : sets directly the VALID tx/rx-status into the enpoint register
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPTxValid(bEpNum) (_SetEPTxStatus(bEpNum, EP_TX_VALID))
#define _SetEPRxValid(bEpNum) (_SetEPRxStatus(bEpNum, EP_RX_VALID))
/*******************************************************************************
* Macro Name : GetTxStallStatus / GetRxStallStatus.
* Description : checks stall condition in an endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : TRUE = endpoint in stall condition.
*******************************************************************************/
#define _GetTxStallStatus(bEpNum) (_GetEPTxStatus(bEpNum) \
== EP_TX_STALL)
#define _GetRxStallStatus(bEpNum) (_GetEPRxStatus(bEpNum) \
== EP_RX_STALL)
/*******************************************************************************
* Macro Name : SetEP_KIND / ClearEP_KIND.
* Description : set & clear EP_KIND bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEP_KIND(bEpNum) (_SetENDPOINT(bEpNum, \
(EP_CTR_RX|EP_CTR_TX|((_GetENDPOINT(bEpNum) | EP_KIND) & EPREG_MASK))))
#define _ClearEP_KIND(bEpNum) (_SetENDPOINT(bEpNum, \
(EP_CTR_RX|EP_CTR_TX|(_GetENDPOINT(bEpNum) & EPKIND_MASK))))
/*******************************************************************************
* Macro Name : Set_Status_Out / Clear_Status_Out.
* Description : Sets/clears directly STATUS_OUT bit in the endpoint register.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _Set_Status_Out(bEpNum) _SetEP_KIND(bEpNum)
#define _Clear_Status_Out(bEpNum) _ClearEP_KIND(bEpNum)
/*******************************************************************************
* Macro Name : SetEPDoubleBuff / ClearEPDoubleBuff.
* Description : Sets/clears directly EP_KIND bit in the endpoint register.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPDoubleBuff(bEpNum) _SetEP_KIND(bEpNum)
#define _ClearEPDoubleBuff(bEpNum) _ClearEP_KIND(bEpNum)
/*******************************************************************************
* Macro Name : ClearEP_CTR_RX / ClearEP_CTR_TX.
* Description : Clears bit CTR_RX / CTR_TX in the endpoint register.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _ClearEP_CTR_RX(bEpNum) (_SetENDPOINT(bEpNum,\
_GetENDPOINT(bEpNum) & 0x7FFF & EPREG_MASK))
#define _ClearEP_CTR_TX(bEpNum) (_SetENDPOINT(bEpNum,\
_GetENDPOINT(bEpNum) & 0xFF7F & EPREG_MASK))
/*******************************************************************************
* Macro Name : ToggleDTOG_RX / ToggleDTOG_TX .
* Description : Toggles DTOG_RX / DTOG_TX bit in the endpoint register.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _ToggleDTOG_RX(bEpNum) (_SetENDPOINT(bEpNum, \
EP_CTR_RX|EP_CTR_TX|EP_DTOG_RX | (_GetENDPOINT(bEpNum) & EPREG_MASK)))
#define _ToggleDTOG_TX(bEpNum) (_SetENDPOINT(bEpNum, \
EP_CTR_RX|EP_CTR_TX|EP_DTOG_TX | (_GetENDPOINT(bEpNum) & EPREG_MASK)))
/*******************************************************************************
* Macro Name : ClearDTOG_RX / ClearDTOG_TX.
* Description : Clears DTOG_RX / DTOG_TX bit in the endpoint register.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _ClearDTOG_RX(bEpNum) if((_GetENDPOINT(bEpNum) & EP_DTOG_RX) != 0)\
_ToggleDTOG_RX(bEpNum)
#define _ClearDTOG_TX(bEpNum) if((_GetENDPOINT(bEpNum) & EP_DTOG_TX) != 0)\
_ToggleDTOG_TX(bEpNum)
/*******************************************************************************
* Macro Name : SetEPAddress.
* Description : Sets address in an endpoint register.
* Input : bEpNum: Endpoint Number.
* bAddr: Address.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPAddress(bEpNum,bAddr) _SetENDPOINT(bEpNum,\
EP_CTR_RX|EP_CTR_TX|(_GetENDPOINT(bEpNum) & EPREG_MASK) | bAddr)
/*******************************************************************************
* Macro Name : GetEPAddress.
* Description : Gets address in an endpoint register.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _GetEPAddress(bEpNum) ((uint8_t)(_GetENDPOINT(bEpNum) & EPADDR_FIELD))
#define _pEPTxAddr(bEpNum) ((uint32_t *)((_GetBTABLE()+bEpNum*8 )*2 + PMAAddr))
#define _pEPTxCount(bEpNum) ((uint32_t *)((_GetBTABLE()+bEpNum*8+2)*2 + PMAAddr))
#define _pEPRxAddr(bEpNum) ((uint32_t *)((_GetBTABLE()+bEpNum*8+4)*2 + PMAAddr))
#define _pEPRxCount(bEpNum) ((uint32_t *)((_GetBTABLE()+bEpNum*8+6)*2 + PMAAddr))
/*******************************************************************************
* Macro Name : SetEPTxAddr / SetEPRxAddr.
* Description : sets address of the tx/rx buffer.
* Input : bEpNum: Endpoint Number.
* wAddr: address to be set (must be word aligned).
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPTxAddr(bEpNum,wAddr) (*_pEPTxAddr(bEpNum) = ((wAddr >> 1) << 1))
#define _SetEPRxAddr(bEpNum,wAddr) (*_pEPRxAddr(bEpNum) = ((wAddr >> 1) << 1))
/*******************************************************************************
* Macro Name : GetEPTxAddr / GetEPRxAddr.
* Description : Gets address of the tx/rx buffer.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : address of the buffer.
*******************************************************************************/
#define _GetEPTxAddr(bEpNum) ((uint16_t)*_pEPTxAddr(bEpNum))
#define _GetEPRxAddr(bEpNum) ((uint16_t)*_pEPRxAddr(bEpNum))
/*******************************************************************************
* Macro Name : SetEPCountRxReg.
* Description : Sets counter of rx buffer with no. of blocks.
* Input : pdwReg: pointer to counter.
* wCount: Counter.
* Output : None.
* Return : None.
*******************************************************************************/
#define _BlocksOf32(dwReg,wCount,wNBlocks) {\
wNBlocks = wCount >> 5;\
if((wCount & 0x1f) == 0)\
wNBlocks--;\
*pdwReg = (uint32_t)((wNBlocks << 10) | 0x8000);\
}/* _BlocksOf32 */
#define _BlocksOf2(dwReg,wCount,wNBlocks) {\
wNBlocks = wCount >> 1;\
if((wCount & 0x1) != 0)\
wNBlocks++;\
*pdwReg = (uint32_t)(wNBlocks << 10);\
}/* _BlocksOf2 */
#define _SetEPCountRxReg(dwReg,wCount) {\
uint16_t wNBlocks;\
if(wCount > 62){_BlocksOf32(dwReg,wCount,wNBlocks);}\
else {_BlocksOf2(dwReg,wCount,wNBlocks);}\
}/* _SetEPCountRxReg */
#define _SetEPRxDblBuf0Count(bEpNum,wCount) {\
uint32_t *pdwReg = _pEPTxCount(bEpNum); \
_SetEPCountRxReg(pdwReg, wCount);\
}
/*******************************************************************************
* Macro Name : SetEPTxCount / SetEPRxCount.
* Description : sets counter for the tx/rx buffer.
* Input : bEpNum: endpoint number.
* wCount: Counter value.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPTxCount(bEpNum,wCount) (*_pEPTxCount(bEpNum) = wCount)
#define _SetEPRxCount(bEpNum,wCount) {\
uint32_t *pdwReg = _pEPRxCount(bEpNum); \
_SetEPCountRxReg(pdwReg, wCount);\
}
/*******************************************************************************
* Macro Name : GetEPTxCount / GetEPRxCount.
* Description : gets counter of the tx buffer.
* Input : bEpNum: endpoint number.
* Output : None.
* Return : Counter value.
*******************************************************************************/
#define _GetEPTxCount(bEpNum)((uint16_t)(*_pEPTxCount(bEpNum)) & 0x3ff)
#define _GetEPRxCount(bEpNum)((uint16_t)(*_pEPRxCount(bEpNum)) & 0x3ff)
/*******************************************************************************
* Macro Name : SetEPDblBuf0Addr / SetEPDblBuf1Addr.
* Description : Sets buffer 0/1 address in a double buffer endpoint.
* Input : bEpNum: endpoint number.
* : wBuf0Addr: buffer 0 address.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPDblBuf0Addr(bEpNum,wBuf0Addr) {_SetEPTxAddr(bEpNum, wBuf0Addr);}
#define _SetEPDblBuf1Addr(bEpNum,wBuf1Addr) {_SetEPRxAddr(bEpNum, wBuf1Addr);}
/*******************************************************************************
* Macro Name : SetEPDblBuffAddr.
* Description : Sets addresses in a double buffer endpoint.
* Input : bEpNum: endpoint number.
* : wBuf0Addr: buffer 0 address.
* : wBuf1Addr = buffer 1 address.
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPDblBuffAddr(bEpNum,wBuf0Addr,wBuf1Addr) { \
_SetEPDblBuf0Addr(bEpNum, wBuf0Addr);\
_SetEPDblBuf1Addr(bEpNum, wBuf1Addr);\
} /* _SetEPDblBuffAddr */
/*******************************************************************************
* Macro Name : GetEPDblBuf0Addr / GetEPDblBuf1Addr.
* Description : Gets buffer 0/1 address of a double buffer endpoint.
* Input : bEpNum: endpoint number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _GetEPDblBuf0Addr(bEpNum) (_GetEPTxAddr(bEpNum))
#define _GetEPDblBuf1Addr(bEpNum) (_GetEPRxAddr(bEpNum))
/*******************************************************************************
* Macro Name : SetEPDblBuffCount / SetEPDblBuf0Count / SetEPDblBuf1Count.
* Description : Gets buffer 0/1 address of a double buffer endpoint.
* Input : bEpNum: endpoint number.
* : bDir: endpoint dir EP_DBUF_OUT = OUT
* EP_DBUF_IN = IN
* : wCount: Counter value
* Output : None.
* Return : None.
*******************************************************************************/
#define _SetEPDblBuf0Count(bEpNum, bDir, wCount) { \
if(bDir == EP_DBUF_OUT)\
/* OUT endpoint */ \
{_SetEPRxDblBuf0Count(bEpNum,wCount);} \
else if(bDir == EP_DBUF_IN)\
/* IN endpoint */ \
*_pEPTxCount(bEpNum) = (uint32_t)wCount; \
} /* SetEPDblBuf0Count*/
#define _SetEPDblBuf1Count(bEpNum, bDir, wCount) { \
if(bDir == EP_DBUF_OUT)\
/* OUT endpoint */ \
{_SetEPRxCount(bEpNum,wCount);}\
else if(bDir == EP_DBUF_IN)\
/* IN endpoint */\
*_pEPRxCount(bEpNum) = (uint32_t)wCount; \
} /* SetEPDblBuf1Count */
#define _SetEPDblBuffCount(bEpNum, bDir, wCount) {\
_SetEPDblBuf0Count(bEpNum, bDir, wCount); \
_SetEPDblBuf1Count(bEpNum, bDir, wCount); \
} /* _SetEPDblBuffCount */
/*******************************************************************************
* Macro Name : GetEPDblBuf0Count / GetEPDblBuf1Count.
* Description : Gets buffer 0/1 rx/tx counter for double buffering.
* Input : bEpNum: endpoint number.
* Output : None.
* Return : None.
*******************************************************************************/
#define _GetEPDblBuf0Count(bEpNum) (_GetEPTxCount(bEpNum))
#define _GetEPDblBuf1Count(bEpNum) (_GetEPRxCount(bEpNum))
/* External variables --------------------------------------------------------*/
extern volatile uint16_t wIstr; /* ISTR register last read value */
/* Exported functions ------------------------------------------------------- */
void SetCNTR(uint16_t /*wRegValue*/);
void SetISTR(uint16_t /*wRegValue*/);
void SetDADDR(uint16_t /*wRegValue*/);
void SetBTABLE(uint16_t /*wRegValue*/);
void SetBTABLE(uint16_t /*wRegValue*/);
uint16_t GetCNTR(void);
uint16_t GetISTR(void);
uint16_t GetFNR(void);
uint16_t GetDADDR(void);
uint16_t GetBTABLE(void);
void SetENDPOINT(uint8_t /*bEpNum*/, uint16_t /*wRegValue*/);
uint16_t GetENDPOINT(uint8_t /*bEpNum*/);
void SetEPType(uint8_t /*bEpNum*/, uint16_t /*wType*/);
uint16_t GetEPType(uint8_t /*bEpNum*/);
void SetEPTxStatus(uint8_t /*bEpNum*/, uint16_t /*wState*/);
void SetEPRxStatus(uint8_t /*bEpNum*/, uint16_t /*wState*/);
void SetDouBleBuffEPStall(uint8_t /*bEpNum*/, uint8_t bDir);
uint16_t GetEPTxStatus(uint8_t /*bEpNum*/);
uint16_t GetEPRxStatus(uint8_t /*bEpNum*/);
void SetEPTxValid(uint8_t /*bEpNum*/);
void SetEPRxValid(uint8_t /*bEpNum*/);
uint16_t GetTxStallStatus(uint8_t /*bEpNum*/);
uint16_t GetRxStallStatus(uint8_t /*bEpNum*/);
void SetEP_KIND(uint8_t /*bEpNum*/);
void ClearEP_KIND(uint8_t /*bEpNum*/);
void Set_Status_Out(uint8_t /*bEpNum*/);
void Clear_Status_Out(uint8_t /*bEpNum*/);
void SetEPDoubleBuff(uint8_t /*bEpNum*/);
void ClearEPDoubleBuff(uint8_t /*bEpNum*/);
void ClearEP_CTR_RX(uint8_t /*bEpNum*/);
void ClearEP_CTR_TX(uint8_t /*bEpNum*/);
void ToggleDTOG_RX(uint8_t /*bEpNum*/);
void ToggleDTOG_TX(uint8_t /*bEpNum*/);
void ClearDTOG_RX(uint8_t /*bEpNum*/);
void ClearDTOG_TX(uint8_t /*bEpNum*/);
void SetEPAddress(uint8_t /*bEpNum*/, uint8_t /*bAddr*/);
uint8_t GetEPAddress(uint8_t /*bEpNum*/);
void SetEPTxAddr(uint8_t /*bEpNum*/, uint16_t /*wAddr*/);
void SetEPRxAddr(uint8_t /*bEpNum*/, uint16_t /*wAddr*/);
uint16_t GetEPTxAddr(uint8_t /*bEpNum*/);
uint16_t GetEPRxAddr(uint8_t /*bEpNum*/);
void SetEPCountRxReg(uint32_t * /*pdwReg*/, uint16_t /*wCount*/);
void SetEPTxCount(uint8_t /*bEpNum*/, uint16_t /*wCount*/);
void SetEPRxCount(uint8_t /*bEpNum*/, uint16_t /*wCount*/);
uint16_t GetEPTxCount(uint8_t /*bEpNum*/);
uint16_t GetEPRxCount(uint8_t /*bEpNum*/);
void SetEPDblBuf0Addr(uint8_t /*bEpNum*/, uint16_t /*wBuf0Addr*/);
void SetEPDblBuf1Addr(uint8_t /*bEpNum*/, uint16_t /*wBuf1Addr*/);
void SetEPDblBuffAddr(uint8_t /*bEpNum*/, uint16_t /*wBuf0Addr*/, uint16_t /*wBuf1Addr*/);
uint16_t GetEPDblBuf0Addr(uint8_t /*bEpNum*/);
uint16_t GetEPDblBuf1Addr(uint8_t /*bEpNum*/);
void SetEPDblBuffCount(uint8_t /*bEpNum*/, uint8_t /*bDir*/, uint16_t /*wCount*/);
void SetEPDblBuf0Count(uint8_t /*bEpNum*/, uint8_t /*bDir*/, uint16_t /*wCount*/);
void SetEPDblBuf1Count(uint8_t /*bEpNum*/, uint8_t /*bDir*/, uint16_t /*wCount*/);
uint16_t GetEPDblBuf0Count(uint8_t /*bEpNum*/);
uint16_t GetEPDblBuf1Count(uint8_t /*bEpNum*/);
EP_DBUF_DIR GetEPDblBufDir(uint8_t /*bEpNum*/);
void FreeUserBuffer(uint8_t bEpNum/*bEpNum*/, uint8_t bDir);
uint16_t ToWord(uint8_t, uint8_t);
uint16_t ByteSwap(uint16_t);
#endif /* __USB_REGS_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

47
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_sil.h
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@@ -1,47 +0,0 @@
/**
******************************************************************************
* @file usb_sil.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Simplified Interface Layer function prototypes.
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_SIL_H
#define __USB_SIL_H
/* Includes ------------------------------------------------------------------*/
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
uint32_t USB_SIL_Init(void);
uint32_t USB_SIL_Write(uint8_t bEpAddr, uint8_t* pBufferPointer, uint32_t wBufferSize);
uint32_t USB_SIL_Read(uint8_t bEpAddr, uint8_t* pBufferPointer);
/* External variables --------------------------------------------------------*/
#endif /* __USB_SIL_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

54
workspace/ts100/STM32_USB-FS-Device_Driver/inc/usb_type.h
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@@ -1,54 +0,0 @@
/**
******************************************************************************
* @file usb_type.h
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Type definitions used by the USB Library
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_TYPE_H
#define __USB_TYPE_H
/* Includes ------------------------------------------------------------------*/
#include <usb_conf.h>
/* Exported types ------------------------------------------------------------*/
/* Exported constants --------------------------------------------------------*/
#ifndef NULL
#define NULL ((void *)0)
#endif
typedef enum
{
FALSE = 0, TRUE = !FALSE
}
bool;
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
/* External variables --------------------------------------------------------*/
#endif /* __USB_TYPE_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

1033
workspace/ts100/STM32_USB-FS-Device_Driver/src/usb_core.c
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76
workspace/ts100/STM32_USB-FS-Device_Driver/src/usb_init.c
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@@ -1,76 +0,0 @@
/**
******************************************************************************
* @file usb_init.c
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Initialization routines & global variables
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "usb_lib.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* The number of current endpoint, it will be used to specify an endpoint */
uint8_t EPindex;
/* The number of current device, it is an index to the Device_Table */
/* uint8_t Device_no; */
/* Points to the DEVICE_INFO structure of current device */
/* The purpose of this register is to speed up the execution */
DEVICE_INFO *pInformation;
/* Points to the DEVICE_PROP structure of current device */
/* The purpose of this register is to speed up the execution */
DEVICE_PROP *pProperty;
/* Temporary save the state of Rx & Tx status. */
/* Whenever the Rx or Tx state is changed, its value is saved */
/* in this variable first and will be set to the EPRB or EPRA */
/* at the end of interrupt process */
uint16_t SaveState ;
uint16_t wInterrupt_Mask;
DEVICE_INFO Device_Info;
USER_STANDARD_REQUESTS *pUser_Standard_Requests;
/* Extern variables ----------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : USB_Init
* Description : USB system initialization
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void USB_Init(void)
{
pInformation = &Device_Info;
pInformation->ControlState = 2;
pProperty = &Device_Property;
pUser_Standard_Requests = &User_Standard_Requests;
/* Initialize devices one by one */
pProperty->Init();
}
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

195
workspace/ts100/STM32_USB-FS-Device_Driver/src/usb_int.c
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@@ -1,195 +0,0 @@
/**
******************************************************************************
* @file usb_int.c
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Endpoint CTR (Low and High) interrupt's service routines
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "usb_lib.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
__IO uint16_t SaveRState;
__IO uint16_t SaveTState;
/* Extern variables ----------------------------------------------------------*/
extern void (*pEpInt_IN[7])(void); /* Handles IN interrupts */
extern void (*pEpInt_OUT[7])(void); /* Handles OUT interrupts */
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : CTR_LP.
* Description : Low priority Endpoint Correct Transfer interrupt's service
* routine.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void CTR_LP(void)
{
__IO uint16_t wEPVal = 0;
/* stay in loop while pending interrupts */
while (((wIstr = _GetISTR()) & ISTR_CTR) != 0)
{
/* extract highest priority endpoint number */
EPindex = (uint8_t)(wIstr & ISTR_EP_ID);
if (EPindex == 0)
{
/* Decode and service control endpoint interrupt */
/* calling related service routine */
/* (Setup0_Process, In0_Process, Out0_Process) */
/* save RX & TX status */
/* and set both to NAK */
SaveRState = _GetENDPOINT(ENDP0);
SaveTState = SaveRState & EPTX_STAT;
SaveRState &= EPRX_STAT;
_SetEPRxTxStatus(ENDP0,EP_RX_NAK,EP_TX_NAK);
/* DIR bit = origin of the interrupt */
if ((wIstr & ISTR_DIR) == 0)
{
/* DIR = 0 */
/* DIR = 0 => IN int */
/* DIR = 0 implies that (EP_CTR_TX = 1) always */
_ClearEP_CTR_TX(ENDP0);
In0_Process();
/* before terminate set Tx & Rx status */
_SetEPRxTxStatus(ENDP0,SaveRState,SaveTState);
return;
}
else
{
/* DIR = 1 */
/* DIR = 1 & CTR_RX => SETUP or OUT int */
/* DIR = 1 & (CTR_TX | CTR_RX) => 2 int pending */
wEPVal = _GetENDPOINT(ENDP0);
if ((wEPVal &EP_SETUP) != 0)
{
_ClearEP_CTR_RX(ENDP0); /* SETUP bit kept frozen while CTR_RX = 1 */
Setup0_Process();
/* before terminate set Tx & Rx status */
_SetEPRxTxStatus(ENDP0,SaveRState,SaveTState);
return;
}
else if ((wEPVal & EP_CTR_RX) != 0)
{
_ClearEP_CTR_RX(ENDP0);
Out0_Process();
/* before terminate set Tx & Rx status */
_SetEPRxTxStatus(ENDP0,SaveRState,SaveTState);
return;
}
}
}/* if(EPindex == 0) */
else
{
/* Decode and service non control endpoints interrupt */
/* process related endpoint register */
wEPVal = _GetENDPOINT(EPindex);
if ((wEPVal & EP_CTR_RX) != 0)
{
/* clear int flag */
_ClearEP_CTR_RX(EPindex);
/* call OUT service function */
(*pEpInt_OUT[EPindex-1])();
} /* if((wEPVal & EP_CTR_RX) */
if ((wEPVal & EP_CTR_TX) != 0)
{
/* clear int flag */
_ClearEP_CTR_TX(EPindex);
/* call IN service function */
(*pEpInt_IN[EPindex-1])();
} /* if((wEPVal & EP_CTR_TX) != 0) */
}/* if(EPindex == 0) else */
}/* while(...) */
}
/*******************************************************************************
* Function Name : CTR_HP.
* Description : High Priority Endpoint Correct Transfer interrupt's service
* routine.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void CTR_HP(void)
{
uint32_t wEPVal = 0;
while (((wIstr = _GetISTR()) & ISTR_CTR) != 0)
{
_SetISTR((uint16_t)CLR_CTR); /* clear CTR flag */
/* extract highest priority endpoint number */
EPindex = (uint8_t)(wIstr & ISTR_EP_ID);
/* process related endpoint register */
wEPVal = _GetENDPOINT(EPindex);
if ((wEPVal & EP_CTR_RX) != 0)
{
/* clear int flag */
_ClearEP_CTR_RX(EPindex);
/* call OUT service function */
(*pEpInt_OUT[EPindex-1])();
} /* if((wEPVal & EP_CTR_RX) */
else if ((wEPVal & EP_CTR_TX) != 0)
{
/* clear int flag */
_ClearEP_CTR_TX(EPindex);
/* call IN service function */
(*pEpInt_IN[EPindex-1])();
} /* if((wEPVal & EP_CTR_TX) != 0) */
}/* while(...) */
}
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

87
workspace/ts100/STM32_USB-FS-Device_Driver/src/usb_mem.c
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@@ -1,87 +0,0 @@
/**
******************************************************************************
* @file usb_mem.c
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Utility functions for memory transfers to/from PMA
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "usb_lib.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Extern variables ----------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : UserToPMABufferCopy
* Description : Copy a buffer from user memory area to packet memory area (PMA)
* Input : - pbUsrBuf: pointer to user memory area.
* - wPMABufAddr: address into PMA.
* - wNBytes: no. of bytes to be copied.
* Output : None.
* Return : None .
*******************************************************************************/
void UserToPMABufferCopy(uint8_t *pbUsrBuf, uint16_t wPMABufAddr, uint16_t wNBytes)
{
uint32_t n = (wNBytes + 1) >> 1; /* n = (wNBytes + 1) / 2 */
uint32_t i, temp1, temp2;
uint16_t *pdwVal;
pdwVal = (uint16_t *)(wPMABufAddr * 2 + PMAAddr);
for (i = n; i != 0; i--)
{
temp1 = (uint16_t) * pbUsrBuf;
pbUsrBuf++;
temp2 = temp1 | (uint16_t) * pbUsrBuf << 8;
*pdwVal++ = temp2;
pdwVal++;
pbUsrBuf++;
}
}
/*******************************************************************************
* Function Name : PMAToUserBufferCopy
* Description : Copy a buffer from user memory area to packet memory area (PMA)
* Input : - pbUsrBuf = pointer to user memory area.
* - wPMABufAddr = address into PMA.
* - wNBytes = no. of bytes to be copied.
* Output : None.
* Return : None.
*******************************************************************************/
void PMAToUserBufferCopy(uint8_t *pbUsrBuf, uint16_t wPMABufAddr, uint16_t wNBytes)
{
uint32_t n = (wNBytes + 1) >> 1;/* /2*/
uint32_t i;
uint32_t *pdwVal;
pdwVal = (uint32_t *)(wPMABufAddr * 2 + PMAAddr);
for (i = n; i != 0; i--)
{
*(uint16_t*)pbUsrBuf++ = *pdwVal++;
pbUsrBuf++;
}
}
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

760
workspace/ts100/STM32_USB-FS-Device_Driver/src/usb_regs.c
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@@ -1,760 +0,0 @@
/**
******************************************************************************
* @file usb_regs.c
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Interface functions to USB cell registers
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "usb_lib.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Extern variables ----------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : SetCNTR.
* Description : Set the CNTR register value.
* Input : wRegValue: new register value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetCNTR(uint16_t wRegValue)
{
_SetCNTR(wRegValue);
}
/*******************************************************************************
* Function Name : GetCNTR.
* Description : returns the CNTR register value.
* Input : None.
* Output : None.
* Return : CNTR register Value.
*******************************************************************************/
uint16_t GetCNTR(void)
{
return(_GetCNTR());
}
/*******************************************************************************
* Function Name : SetISTR.
* Description : Set the ISTR register value.
* Input : wRegValue: new register value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetISTR(uint16_t wRegValue)
{
_SetISTR(wRegValue);
}
/*******************************************************************************
* Function Name : GetISTR
* Description : Returns the ISTR register value.
* Input : None.
* Output : None.
* Return : ISTR register Value
*******************************************************************************/
uint16_t GetISTR(void)
{
return(_GetISTR());
}
/*******************************************************************************
* Function Name : GetFNR
* Description : Returns the FNR register value.
* Input : None.
* Output : None.
* Return : FNR register Value
*******************************************************************************/
uint16_t GetFNR(void)
{
return(_GetFNR());
}
/*******************************************************************************
* Function Name : SetDADDR
* Description : Set the DADDR register value.
* Input : wRegValue: new register value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetDADDR(uint16_t wRegValue)
{
_SetDADDR(wRegValue);
}
/*******************************************************************************
* Function Name : GetDADDR
* Description : Returns the DADDR register value.
* Input : None.
* Output : None.
* Return : DADDR register Value
*******************************************************************************/
uint16_t GetDADDR(void)
{
return(_GetDADDR());
}
/*******************************************************************************
* Function Name : SetBTABLE
* Description : Set the BTABLE.
* Input : wRegValue: New register value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetBTABLE(uint16_t wRegValue)
{
_SetBTABLE(wRegValue);
}
/*******************************************************************************
* Function Name : GetBTABLE.
* Description : Returns the BTABLE register value.
* Input : None.
* Output : None.
* Return : BTABLE address.
*******************************************************************************/
uint16_t GetBTABLE(void)
{
return(_GetBTABLE());
}
/*******************************************************************************
* Function Name : SetENDPOINT
* Description : Set the Endpoint register value.
* Input : bEpNum: Endpoint Number.
* wRegValue.
* Output : None.
* Return : None.
*******************************************************************************/
void SetENDPOINT(uint8_t bEpNum, uint16_t wRegValue)
{
_SetENDPOINT(bEpNum, wRegValue);
}
/*******************************************************************************
* Function Name : GetENDPOINT
* Description : Return the Endpoint register value.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint register value.
*******************************************************************************/
uint16_t GetENDPOINT(uint8_t bEpNum)
{
return(_GetENDPOINT(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPType
* Description : sets the type in the endpoint register.
* Input : bEpNum: Endpoint Number.
* wType: type definition.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPType(uint8_t bEpNum, uint16_t wType)
{
_SetEPType(bEpNum, wType);
}
/*******************************************************************************
* Function Name : GetEPType
* Description : Returns the endpoint type.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint Type
*******************************************************************************/
uint16_t GetEPType(uint8_t bEpNum)
{
return(_GetEPType(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPTxStatus
* Description : Set the status of Tx endpoint.
* Input : bEpNum: Endpoint Number.
* wState: new state.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPTxStatus(uint8_t bEpNum, uint16_t wState)
{
_SetEPTxStatus(bEpNum, wState);
}
/*******************************************************************************
* Function Name : SetEPRxStatus
* Description : Set the status of Rx endpoint.
* Input : bEpNum: Endpoint Number.
* wState: new state.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPRxStatus(uint8_t bEpNum, uint16_t wState)
{
_SetEPRxStatus(bEpNum, wState);
}
/*******************************************************************************
* Function Name : SetDouBleBuffEPStall
* Description : sets the status for Double Buffer Endpoint to STALL
* Input : bEpNum: Endpoint Number.
* bDir: Endpoint direction.
* Output : None.
* Return : None.
*******************************************************************************/
void SetDouBleBuffEPStall(uint8_t bEpNum, uint8_t bDir)
{
uint16_t Endpoint_DTOG_Status;
Endpoint_DTOG_Status = GetENDPOINT(bEpNum);
if (bDir == EP_DBUF_OUT)
{ /* OUT double buffered endpoint */
_SetENDPOINT(bEpNum, Endpoint_DTOG_Status & ~EPRX_DTOG1);
}
else if (bDir == EP_DBUF_IN)
{ /* IN double buffered endpoint */
_SetENDPOINT(bEpNum, Endpoint_DTOG_Status & ~EPTX_DTOG1);
}
}
/*******************************************************************************
* Function Name : GetEPTxStatus
* Description : Returns the endpoint Tx status.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint TX Status
*******************************************************************************/
uint16_t GetEPTxStatus(uint8_t bEpNum)
{
return(_GetEPTxStatus(bEpNum));
}
/*******************************************************************************
* Function Name : GetEPRxStatus
* Description : Returns the endpoint Rx status.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint RX Status
*******************************************************************************/
uint16_t GetEPRxStatus(uint8_t bEpNum)
{
return(_GetEPRxStatus(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPTxValid
* Description : Valid the endpoint Tx Status.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPTxValid(uint8_t bEpNum)
{
_SetEPTxStatus(bEpNum, EP_TX_VALID);
}
/*******************************************************************************
* Function Name : SetEPRxValid
* Description : Valid the endpoint Rx Status.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPRxValid(uint8_t bEpNum)
{
_SetEPRxStatus(bEpNum, EP_RX_VALID);
}
/*******************************************************************************
* Function Name : SetEP_KIND
* Description : Clear the EP_KIND bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEP_KIND(uint8_t bEpNum)
{
_SetEP_KIND(bEpNum);
}
/*******************************************************************************
* Function Name : ClearEP_KIND
* Description : set the EP_KIND bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ClearEP_KIND(uint8_t bEpNum)
{
_ClearEP_KIND(bEpNum);
}
/*******************************************************************************
* Function Name : Clear_Status_Out
* Description : Clear the Status Out of the related Endpoint
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void Clear_Status_Out(uint8_t bEpNum)
{
_ClearEP_KIND(bEpNum);
}
/*******************************************************************************
* Function Name : Set_Status_Out
* Description : Set the Status Out of the related Endpoint
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void Set_Status_Out(uint8_t bEpNum)
{
_SetEP_KIND(bEpNum);
}
/*******************************************************************************
* Function Name : SetEPDoubleBuff
* Description : Enable the double buffer feature for the endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDoubleBuff(uint8_t bEpNum)
{
_SetEP_KIND(bEpNum);
}
/*******************************************************************************
* Function Name : ClearEPDoubleBuff
* Description : Disable the double buffer feature for the endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ClearEPDoubleBuff(uint8_t bEpNum)
{
_ClearEP_KIND(bEpNum);
}
/*******************************************************************************
* Function Name : GetTxStallStatus
* Description : Returns the Stall status of the Tx endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Tx Stall status.
*******************************************************************************/
uint16_t GetTxStallStatus(uint8_t bEpNum)
{
return(_GetTxStallStatus(bEpNum));
}
/*******************************************************************************
* Function Name : GetRxStallStatus
* Description : Returns the Stall status of the Rx endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Rx Stall status.
*******************************************************************************/
uint16_t GetRxStallStatus(uint8_t bEpNum)
{
return(_GetRxStallStatus(bEpNum));
}
/*******************************************************************************
* Function Name : ClearEP_CTR_RX
* Description : Clear the CTR_RX bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ClearEP_CTR_RX(uint8_t bEpNum)
{
_ClearEP_CTR_RX(bEpNum);
}
/*******************************************************************************
* Function Name : ClearEP_CTR_TX
* Description : Clear the CTR_TX bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ClearEP_CTR_TX(uint8_t bEpNum)
{
_ClearEP_CTR_TX(bEpNum);
}
/*******************************************************************************
* Function Name : ToggleDTOG_RX
* Description : Toggle the DTOG_RX bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ToggleDTOG_RX(uint8_t bEpNum)
{
_ToggleDTOG_RX(bEpNum);
}
/*******************************************************************************
* Function Name : ToggleDTOG_TX
* Description : Toggle the DTOG_TX bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ToggleDTOG_TX(uint8_t bEpNum)
{
_ToggleDTOG_TX(bEpNum);
}
/*******************************************************************************
* Function Name : ClearDTOG_RX.
* Description : Clear the DTOG_RX bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ClearDTOG_RX(uint8_t bEpNum)
{
_ClearDTOG_RX(bEpNum);
}
/*******************************************************************************
* Function Name : ClearDTOG_TX.
* Description : Clear the DTOG_TX bit.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
void ClearDTOG_TX(uint8_t bEpNum)
{
_ClearDTOG_TX(bEpNum);
}
/*******************************************************************************
* Function Name : SetEPAddress
* Description : Set the endpoint address.
* Input : bEpNum: Endpoint Number.
* bAddr: New endpoint address.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPAddress(uint8_t bEpNum, uint8_t bAddr)
{
_SetEPAddress(bEpNum, bAddr);
}
/*******************************************************************************
* Function Name : GetEPAddress
* Description : Get the endpoint address.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint address.
*******************************************************************************/
uint8_t GetEPAddress(uint8_t bEpNum)
{
return(_GetEPAddress(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPTxAddr
* Description : Set the endpoint Tx buffer address.
* Input : bEpNum: Endpoint Number.
* wAddr: new address.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPTxAddr(uint8_t bEpNum, uint16_t wAddr)
{
_SetEPTxAddr(bEpNum, wAddr);
}
/*******************************************************************************
* Function Name : SetEPRxAddr
* Description : Set the endpoint Rx buffer address.
* Input : bEpNum: Endpoint Number.
* wAddr: new address.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPRxAddr(uint8_t bEpNum, uint16_t wAddr)
{
_SetEPRxAddr(bEpNum, wAddr);
}
/*******************************************************************************
* Function Name : GetEPTxAddr
* Description : Returns the endpoint Tx buffer address.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Rx buffer address.
*******************************************************************************/
uint16_t GetEPTxAddr(uint8_t bEpNum)
{
return(_GetEPTxAddr(bEpNum));
}
/*******************************************************************************
* Function Name : GetEPRxAddr.
* Description : Returns the endpoint Rx buffer address.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Rx buffer address.
*******************************************************************************/
uint16_t GetEPRxAddr(uint8_t bEpNum)
{
return(_GetEPRxAddr(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPTxCount.
* Description : Set the Tx count.
* Input : bEpNum: Endpoint Number.
* wCount: new count value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPTxCount(uint8_t bEpNum, uint16_t wCount)
{
_SetEPTxCount(bEpNum, wCount);
}
/*******************************************************************************
* Function Name : SetEPCountRxReg.
* Description : Set the Count Rx Register value.
* Input : *pdwReg: point to the register.
* wCount: the new register value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPCountRxReg(uint32_t *pdwReg, uint16_t wCount)
{
_SetEPCountRxReg(dwReg, wCount);
}
/*******************************************************************************
* Function Name : SetEPRxCount
* Description : Set the Rx count.
* Input : bEpNum: Endpoint Number.
* wCount: the new count value.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPRxCount(uint8_t bEpNum, uint16_t wCount)
{
_SetEPRxCount(bEpNum, wCount);
}
/*******************************************************************************
* Function Name : GetEPTxCount
* Description : Get the Tx count.
* Input : bEpNum: Endpoint Number.
* Output : None
* Return : Tx count value.
*******************************************************************************/
uint16_t GetEPTxCount(uint8_t bEpNum)
{
return(_GetEPTxCount(bEpNum));
}
/*******************************************************************************
* Function Name : GetEPRxCount
* Description : Get the Rx count.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Rx count value.
*******************************************************************************/
uint16_t GetEPRxCount(uint8_t bEpNum)
{
return(_GetEPRxCount(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPDblBuffAddr
* Description : Set the addresses of the buffer 0 and 1.
* Input : bEpNum: Endpoint Number.
* wBuf0Addr: new address of buffer 0.
* wBuf1Addr: new address of buffer 1.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDblBuffAddr(uint8_t bEpNum, uint16_t wBuf0Addr, uint16_t wBuf1Addr)
{
_SetEPDblBuffAddr(bEpNum, wBuf0Addr, wBuf1Addr);
}
/*******************************************************************************
* Function Name : SetEPDblBuf0Addr
* Description : Set the Buffer 1 address.
* Input : bEpNum: Endpoint Number
* wBuf0Addr: new address.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDblBuf0Addr(uint8_t bEpNum, uint16_t wBuf0Addr)
{
_SetEPDblBuf0Addr(bEpNum, wBuf0Addr);
}
/*******************************************************************************
* Function Name : SetEPDblBuf1Addr
* Description : Set the Buffer 1 address.
* Input : bEpNum: Endpoint Number
* wBuf1Addr: new address.
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDblBuf1Addr(uint8_t bEpNum, uint16_t wBuf1Addr)
{
_SetEPDblBuf1Addr(bEpNum, wBuf1Addr);
}
/*******************************************************************************
* Function Name : GetEPDblBuf0Addr
* Description : Returns the address of the Buffer 0.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : None.
*******************************************************************************/
uint16_t GetEPDblBuf0Addr(uint8_t bEpNum)
{
return(_GetEPDblBuf0Addr(bEpNum));
}
/*******************************************************************************
* Function Name : GetEPDblBuf1Addr
* Description : Returns the address of the Buffer 1.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Address of the Buffer 1.
*******************************************************************************/
uint16_t GetEPDblBuf1Addr(uint8_t bEpNum)
{
return(_GetEPDblBuf1Addr(bEpNum));
}
/*******************************************************************************
* Function Name : SetEPDblBuffCount
* Description : Set the number of bytes for a double Buffer
* endpoint.
* Input : bEpNum,bDir, wCount
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDblBuffCount(uint8_t bEpNum, uint8_t bDir, uint16_t wCount)
{
_SetEPDblBuffCount(bEpNum, bDir, wCount);
}
/*******************************************************************************
* Function Name : SetEPDblBuf0Count
* Description : Set the number of bytes in the buffer 0 of a double Buffer
* endpoint.
* Input : bEpNum, bDir, wCount
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDblBuf0Count(uint8_t bEpNum, uint8_t bDir, uint16_t wCount)
{
_SetEPDblBuf0Count(bEpNum, bDir, wCount);
}
/*******************************************************************************
* Function Name : SetEPDblBuf1Count
* Description : Set the number of bytes in the buffer 0 of a double Buffer
* endpoint.
* Input : bEpNum, bDir, wCount
* Output : None.
* Return : None.
*******************************************************************************/
void SetEPDblBuf1Count(uint8_t bEpNum, uint8_t bDir, uint16_t wCount)
{
_SetEPDblBuf1Count(bEpNum, bDir, wCount);
}
/*******************************************************************************
* Function Name : GetEPDblBuf0Count
* Description : Returns the number of byte received in the buffer 0 of a double
* Buffer endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint Buffer 0 count
*******************************************************************************/
uint16_t GetEPDblBuf0Count(uint8_t bEpNum)
{
return(_GetEPDblBuf0Count(bEpNum));
}
/*******************************************************************************
* Function Name : GetEPDblBuf1Count
* Description : Returns the number of data received in the buffer 1 of a double
* Buffer endpoint.
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : Endpoint Buffer 1 count.
*******************************************************************************/
uint16_t GetEPDblBuf1Count(uint8_t bEpNum)
{
return(_GetEPDblBuf1Count(bEpNum));
}
/*******************************************************************************
* Function Name : GetEPDblBufDir
* Description : gets direction of the double buffered endpoint
* Input : bEpNum: Endpoint Number.
* Output : None.
* Return : EP_DBUF_OUT, EP_DBUF_IN,
* EP_DBUF_ERR if the endpoint counter not yet programmed.
*******************************************************************************/
EP_DBUF_DIR GetEPDblBufDir(uint8_t bEpNum)
{
if ((uint16_t)(*_pEPRxCount(bEpNum) & 0xFC00) != 0)
return(EP_DBUF_OUT);
else if (((uint16_t)(*_pEPTxCount(bEpNum)) & 0x03FF) != 0)
return(EP_DBUF_IN);
else
return(EP_DBUF_ERR);
}
/*******************************************************************************
* Function Name : FreeUserBuffer
* Description : free buffer used from the application realizing it to the line
toggles bit SW_BUF in the double buffered endpoint register
* Input : bEpNum, bDir
* Output : None.
* Return : None.
*******************************************************************************/
void FreeUserBuffer(uint8_t bEpNum, uint8_t bDir)
{
if (bDir == EP_DBUF_OUT)
{ /* OUT double buffered endpoint */
_ToggleDTOG_TX(bEpNum);
}
else if (bDir == EP_DBUF_IN)
{ /* IN double buffered endpoint */
_ToggleDTOG_RX(bEpNum);
}
}
/*******************************************************************************
* Function Name : ToWord
* Description : merge two byte in a word.
* Input : bh: byte high, bl: bytes low.
* Output : None.
* Return : resulted word.
*******************************************************************************/
uint16_t ToWord(uint8_t bh, uint8_t bl)
{
uint16_t wRet;
wRet = (uint16_t)bl | ((uint16_t)bh << 8);
return(wRet);
}
/*******************************************************************************
* Function Name : ByteSwap
* Description : Swap two byte in a word.
* Input : wSwW: word to Swap.
* Output : None.
* Return : resulted word.
*******************************************************************************/
uint16_t ByteSwap(uint16_t wSwW)
{
uint8_t bTemp;
uint16_t wRet;
bTemp = (uint8_t)(wSwW & 0xff);
wRet = (wSwW >> 8) | ((uint16_t)bTemp << 8);
return(wRet);
}
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

103
workspace/ts100/STM32_USB-FS-Device_Driver/src/usb_sil.c
View File

@@ -1,103 +0,0 @@
/**
******************************************************************************
* @file usb_sil.c
* @author MCD Application Team
* @version V4.0.0
* @date 28-August-2012
* @brief Simplified Interface Layer for Global Initialization and Endpoint
* Rea/Write operations.
******************************************************************************
* @attention
*
* <h2><center>&copy; COPYRIGHT 2012 STMicroelectronics</center></h2>
*
* Licensed under MCD-ST Liberty SW License Agreement V2, (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.st.com/software_license_agreement_liberty_v2
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************
*/
/* Includes ------------------------------------------------------------------*/
#include "usb_lib.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Extern variables ----------------------------------------------------------*/
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : USB_SIL_Init
* Description : Initialize the USB Device IP and the Endpoint 0.
* Input : None.
* Output : None.
* Return : Status.
*******************************************************************************/
uint32_t USB_SIL_Init(void)
{
/* USB interrupts initialization */
/* clear pending interrupts */
_SetISTR(0);
wInterrupt_Mask = IMR_MSK;
/* set interrupts mask */
_SetCNTR(wInterrupt_Mask);
return 0;
}
/*******************************************************************************
* Function Name : USB_SIL_Write
* Description : Write a buffer of data to a selected endpoint.
* Input : - bEpAddr: The address of the non control endpoint.
* - pBufferPointer: The pointer to the buffer of data to be written
* to the endpoint.
* - wBufferSize: Number of data to be written (in bytes).
* Output : None.
* Return : Status.
*******************************************************************************/
uint32_t USB_SIL_Write(uint8_t bEpAddr, uint8_t* pBufferPointer, uint32_t wBufferSize)
{
/* Use the memory interface function to write to the selected endpoint */
UserToPMABufferCopy(pBufferPointer, GetEPTxAddr(bEpAddr & 0x7F), wBufferSize);
/* Update the data length in the control register */
SetEPTxCount((bEpAddr & 0x7F), wBufferSize);
return 0;
}
/*******************************************************************************
* Function Name : USB_SIL_Read
* Description : Write a buffer of data to a selected endpoint.
* Input : - bEpAddr: The address of the non control endpoint.
* - pBufferPointer: The pointer to which will be saved the
* received data buffer.
* Output : None.
* Return : Number of received data (in Bytes).
*******************************************************************************/
uint32_t USB_SIL_Read(uint8_t bEpAddr, uint8_t* pBufferPointer)
{
uint32_t DataLength = 0;
/* Get the number of received data on the selected Endpoint */
DataLength = GetEPRxCount(bEpAddr & 0x7F);
/* Use the memory interface function to write to the selected endpoint */
PMAToUserBufferCopy(pBufferPointer, GetEPRxAddr(bEpAddr & 0x7F), DataLength);
/* Return the number of received data */
return DataLength;
}
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

95
workspace/ts100/inc/Disk.h
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@@ -1,95 +0,0 @@
/********************* (C) COPYRIGHT 2015 e-Design Co.,Ltd. **********************
File Name : Disk.h
Version : S100 APP Ver 2.11
Description:
Author : Celery
Data: 2015/08/03
History:
2016/09/13 : Ben V. Brown - english comments
2015/08/03 :
*******************************************************************************/
#ifndef __DISK_H
#define __DISK_H
#include "stm32f10x_flash.h"
#include "usb_scsi.h"
#include "usb_regs.h"
#include "usb_conf.h"
#include "usb_bot.h"
#include "usb_mem.h"
#include "usb_lib.h"
#include "usb_pwr.h"
#define SECTOR_SIZE 512
#define SECTOR_CNT 4096
#define FAT1_SECTOR &gDisk_buff[0x000]
#define FAT2_SECTOR &gDisk_buff[0x200]
#define ROOT_SECTOR &gDisk_buff[0x400]
#define VOLUME_BASE &gDisk_buff[0x416]
#define OTHER_FILES &gDisk_buff[0x420]
#define FILE_SECTOR &gDisk_buff[0x600]
#define Root (u8*)ROOT_SECTOR
//#define APP_BASE 0x0800C000
#define HEX 0
#define BIN 2
#define SET 1
#define RDY 0
#define NOT 2
#define END 3
#define ERR 4
#define DATA_SEG 0x00
#define DATA_END 0x01
#define EXT_ADDR 0x04
#define TXFR_IDLE 0
#define TXFR_ONGOING 1
//#define FAT_DATA 0x00FFFFF8
#define VOLUME 0x40DD8D18 //0x3E645C29
#define BUFF 0 //
#define V32_BASE SECTOR_SIZE // V32 8*4=32
#define W_ADDR 0
#define ADDR 1
#define H_ADDR 2
#define OFFSET 3
#define SEC_CNT 4
#define COUNT 5
#define RD_CNT 6
#define WR_CNT 7
#define VAR_BASE V32_BASE + 32 // VAR 9+17=26
#define USB_ST 0
#define SEG_KIND 1
#define SEG_LEN 2
#define SEG_SUM 3
#define SEG_TMP 4
#define SEG_ST 5
#define DATA_CNT 6
#define F_TYPE 7
#define F_FLAG 8
#define SEG_DATA 9 //9~26
u8 Cal_Val(u8 str[], u8 k, u8 flag);
void Disk_BuffInit(void);
u8 ReWrite_All(void);
u8 Config_Analysis(void);
void Disk_BuffInit(void);
void Disk_SecWrite(u8* pbuffer, u32 disk_addr);
void Close_File(void);
void Write_Memory(u32 w_offset, u32 w_length);
void Read_Memory(u32 r_offset, u32 r_length);
void Set_Ver(u8 str[], u8 i);
void Erase(void);
char * Get_Line(char *dst, char *src, int n, int m);
void Upper(u8* str, u16 len);
u8* SearchFile(u8* pfilename, u16* pfilelen, u16* root_addr);
u8 ReWriteFlsash(void);
#endif
/********************************* END OF FILE ******************************/

53
workspace/ts100/inc/Ext_Flash.h
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@@ -1,53 +0,0 @@
/********************* (C) COPYRIGHT 2015 e-Design Co.,Ltd. ********************
File Name : EXT_Flash.h
Version : S100 APP Ver 2.11
Description:
Author : bure
Data:
History:
*******************************************************************************/
#ifndef __EXT_FLASH_H
#define __EXT_FLASH_H
//#include "stm32f10x_lib.h"
#include "stm32f10x.h"
extern u8 flash_mode;
#define FLASH_2M 1
#define FLASH_8M 2
//#define W25Q64BV
#define WREN 0x06 // Write enable instruction
#define READ 0x03 // Read from Memory instruction
#define RDSR 0x05 // Read Status Register instruction
#define PP 0x02 // Write to Memory instruction
#define PE 0xDB // Page Erase instruction
#define PW 0x0A // Page write instruction
#define DP 0xB9 // Deep power-down instruction
#define RDP 0xAB // Release from deep power-down instruction
//----W25Q64BV----------------------------------------------------------------//
#define CHIPE 0xC7 // Chip All Erase instruction
#define BE64 0xD8 // Block 32k Erase instruction
#define BE32 0x52 // Block 64k Erase instruction
#define SE 0x20 // Sector 4K Erase instruction
#define Dummy_Byte 0xA5
#define EXT_FLASH_PageSize 256
//----------------------------------------------------------------------------//
#define WIP_Flag 0x01 // Write In Progress (WIP) flag
#define ExtFlash_CS_LOW() GPIO_ResetBits(GPIOB, GPIO_Pin_7)
#define ExtFlash_CS_HIGH() GPIO_SetBits(GPIOB, GPIO_Pin_7)
void ExtFlash_PageWR(u8* pBuffer, u32 WriteAddr);
void ExtFlash_PageRD(u8* pBuffer, u32 ReadAddr, u16 Lenght);
void MAL_GetStatus (void);
u8 ExtFlash_ReadByte(void);
u8 ExtFlash_SendByte(u8 byte);
void ExtFlash_WriteEnable(void);
void ExtFlash_WaitForWriteEnd(void);
void ExtFlash_PageProg(u8* pBuffer, u32 WriteAddr,u8 CMD);
#endif
/********************************* END OF FILE ******************************/

29
workspace/ts100/inc/FAT12.h
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@@ -1,29 +0,0 @@
/********************* (C) COPYRIGHT 2015 e-Design Co.,Ltd. ********************
File Name : FAT12.h
Version : S100 APP Ver 2.11
Description:
Author : bure
Data:
History:
*******************************************************************************/
#ifndef __FAT12_H
#define __FAT12_H
#include "stm32f10x.h"
u8 ReadFileSec(u8* Buffer, u16* Cluster);
u8 ReadDiskData(u8* pBuffer, u32 ReadAddr, u16 Lenght);
u8 NextCluster(u16* Cluster);
u8 ProgFileSec(u8* Buffer, u16* Cluster);
u8 ProgDiskPage(u8* Buffer, u32 ProgAddr);
u8 SeekBlank(u8* Buffer, u16* Cluster);
u8 SetCluster(u8* Buffer, u16* Cluster);
u8 OpenFileRd(u8* Buffer, u8* FileName, u16* Cluster, u32* pDirAddr);
u8 OpenFileWr(u8* Buffer, u8* FileName, u16* Cluster, u32* pDirAddr);
u8 CloseFile(u8* Buffer, u32 Lenght, u16* Cluster, u32* pDirAddr);
u8 FAT_SearchFile(u8* pBuffer, u8* pFileName, u16* pCluster, u32* pDirAddr,u32* flag);
void ExtFlash_PageWrite(u8* pBuffer, u32 WriteAddr, u8 Mode);
#endif
/********************************* END OF FILE ********************************/

9
workspace/ts100/inc/S100V0_1.h
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@@ -32,9 +32,6 @@
#define I2C1_DR_Address 0x40005410
#define I2C2_DR_Address 0x40005810
#define SERIAL_NO1 (*(u32*)0x1FFFF7E8)
#define SERIAL_NO2 (*(u32*)0x1FFFF7EC)
#define SERIAL_NO3 (*(u32*)0x1FFFF7F0)
//--------------------------- OLED <20><>ؿ<EFBFBD><D8BF><EFBFBD><EFBFBD>ź<EFBFBD> ------------------------------//
#define OLED_RST_PIN GPIO_Pin_8 //PA9
@@ -42,10 +39,10 @@
#define OLED_ACT() GPIO_SetBits (GPIOA, OLED_RST_PIN)
//------------------------------ <20><><EFBFBD>ȿ<EFBFBD><C8BF><EFBFBD><EFBFBD>ź<EFBFBD> --------------------------------//
#define HEAT_PIN GPIO_Pin_4 //PA15(JTDI)
#define HEAT_PIN GPIO_Pin_4
#define HEAT_OFF() GPIOB->BRR = HEAT_PIN//GPIO_ResetBits(GPIOB, HEAT_PIN)
#define HEAT_ON() GPIOB->BSRR = HEAT_PIN//GPIO_SetBits (GPIOB, HEAT_PIN)
#define HEAT_OFF() GPIOB->BRR = HEAT_PIN
#define HEAT_ON() GPIOB->BSRR = HEAT_PIN
//---------------------<2D><><EFBFBD><EFBFBD><EFBFBD>ѹ<EFBFBD><D1B9><EFBFBD>--VB---------------------------------------//
#define VB_PIN GPIO_Pin_1 //PB1(Ai9)

73
workspace/ts100/inc/usb_bot.h
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@@ -1,73 +0,0 @@
/******************** (C) COPYRIGHT 2013 e-Design Co., Ltd. ********************
File Name : USB_bot.h
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#ifndef __USB_BOT_H
#define __USB_BOT_H
typedef struct _Bulk_Only_CBW
{
u32 dSignature;
u32 dTag;
u32 dDataLength;
u8 bmFlags;
u8 bLUN;
u8 bCBLength;
u8 CB[16];
}
Bulk_Only_CBW;
/* Bulk-only Command Status Wrapper */
typedef struct _Bulk_Only_CSW
{
u32 dSignature;
u32 dTag;
u32 dDataResidue;
u8 bStatus;
}
Bulk_Only_CSW;
#define BOT_IDLE 0 /* Idle state */
#define BOT_DATA_OUT 1 /* Data Out state */
#define BOT_DATA_IN 2 /* Data In state */
#define BOT_DATA_IN_LAST 3 /* Last Data In Last */
#define BOT_CSW_Send 4 /* Command Status Wrapper */
#define BOT_ERROR 5 /* error state */
#define BOT_CBW_SIGNATURE 0x43425355
#define BOT_CSW_SIGNATURE 0x53425355
#define BOT_CBW_PACKET_LENGTH 31
#define CSW_DATA_LENGTH 0x000D
/* CSW Status Definitions */
#define CSW_CMD_PASSED 0x00
#define CSW_CMD_FAILED 0x01
#define CSW_PHASE_ERROR 0x02
#define SEND_CSW_DISABLE 0
#define SEND_CSW_ENABLE 1
#define DIR_IN 0
#define DIR_OUT 1
#define BOTH_DIR 2
#define BULK_MAX_PACKET_SIZE 0x00000040
extern u8 Bot_State;
extern u16 Data_Len;
extern u8 Bot_State;
extern Bulk_Only_CBW CBW;
extern Bulk_Only_CSW CSW;
extern u8 Bulk_Buff[];
void Mass_Storage_In (void);
void Mass_Storage_Out (void);
void CBW_Decode(void);
void Transfer_Data_Request(u8* Data_Pointer, u16 Data_Len);
void Set_CSW (u8 CSW_Status, u8 Send_Permission);
void Bot_Abort(u8 Direction);
#endif
/********************************* END OF FILE ******************************/

73
workspace/ts100/inc/usb_conf.h
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@@ -1,73 +0,0 @@
/******************** (C) COPYRIGHT 2008 STMicroelectronics ********************
* File Name : usb_conf.h
* Author : MCD Application Team
* Version : V2.2.1
* Date : 09/22/2008
* Description : Mass Storage Demo configuration header
********************************************************************************
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
* CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*******************************************************************************/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __USB_CONF_H
#define __USB_CONF_H
/*-------------------------------------------------------------*/
/* EP_NUM */
/* defines how many endpoints are used by the device */
/*-------------------------------------------------------------*/
#define EP_NUM (3)
/*-------------------------------------------------------------*/
/* -------------- Buffer Description Table -----------------*/
/*-------------------------------------------------------------*/
/* buffer table base address */
#define BTABLE_ADDRESS (0x00)
/* EP0 */
/* rx/tx buffer base address */
#define ENDP0_RXADDR (0x18)
#define ENDP0_TXADDR (0x58)
/* EP1 */
/* tx buffer base address */
#define ENDP1_TXADDR (0x98)
/* EP2 */
/* Rx buffer base address */
#define ENDP2_RXADDR (0xD8)
/* ISTR events */
/* IMR_MSK */
/* mask defining which events has to be handled */
/* by the device application software */
#define IMR_MSK (CNTR_CTRM | CNTR_RESETM)
/* CTR service routines */
/* associated to defined endpoints */
//#define EP1_IN_Callback NOP_Process
#define EP2_IN_Callback NOP_Process
#define EP3_IN_Callback NOP_Process
#define EP4_IN_Callback NOP_Process
#define EP5_IN_Callback NOP_Process
#define EP6_IN_Callback NOP_Process
#define EP7_IN_Callback NOP_Process
#define EP1_OUT_Callback NOP_Process
//#define EP2_OUT_Callback NOP_Process
#define EP3_OUT_Callback NOP_Process
#define EP4_OUT_Callback NOP_Process
#define EP5_OUT_Callback NOP_Process
#define EP6_OUT_Callback NOP_Process
#define EP7_OUT_Callback NOP_Process
#endif /* __USB_CONF_H */
/******************* (C) COPYRIGHT 2008 STMicroelectronics *****END OF FILE****/

35
workspace/ts100/inc/usb_desc.h
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@@ -1,35 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_desc.h
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#ifndef __USB_DESC_H
#define __USB_DESC_H
#ifdef STM32F30X
#include "stm32f30x.h"
#else
#include "stm32f10x.h"
#endif
#define MASS_SIZ_DEVICE_DESC 18
#define MASS_SIZ_CONFIG_DESC 32
#define MASS_SIZ_STRING_LANGID 4
#define MASS_SIZ_STRING_VENDOR 38
#define MASS_SIZ_STRING_PRODUCT 38
#define MASS_SIZ_STRING_SERIAL 26
#define MASS_SIZ_STRING_INTERFACE 16
extern const u8 MASS_DeviceDescriptor[MASS_SIZ_DEVICE_DESC];
extern const u8 MASS_ConfigDescriptor[MASS_SIZ_CONFIG_DESC];
extern const u8 MASS_StringLangID[MASS_SIZ_STRING_LANGID];
extern const u8 MASS_StringVendor[MASS_SIZ_STRING_VENDOR];
extern const u8 MASS_StringProduct[MASS_SIZ_STRING_PRODUCT];
extern u8 MASS_StringSerial[MASS_SIZ_STRING_SERIAL];
extern const u8 MASS_StringInterface[MASS_SIZ_STRING_INTERFACE];
#endif
/********************************* END OF FILE ******************************/

64
workspace/ts100/inc/usb_istr.h
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@@ -1,64 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_istr.h
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#ifndef __USB_ISTR_H
#define __USB_ISTR_H
#include "usb_conf.h"
void CTR_HP(void);
void USB_Istr(void);
/* function prototypes Automatically built defining related macros */
#ifdef CTR_CALLBACK
void CTR_Callback(void);
#endif
#ifdef DOVR_CALLBACK
void DOVR_Callback(void);
#endif
#ifdef ERR_CALLBACK
void ERR_Callback(void);
#endif
#ifdef WKUP_CALLBACK
void WKUP_Callback(void);
#endif
#ifdef SUSP_CALLBACK
void SUSP_Callback(void);
#endif
#ifdef RESET_CALLBACK
void RESET_Callback(void);
#endif
#ifdef SOF_CALLBACK
void SOF_Callback(void);
#endif
#ifdef ESOF_CALLBACK
void ESOF_Callback(void);
#endif
void EP1_IN_Callback(void);
void EP2_IN_Callback(void);
void EP3_IN_Callback(void);
void EP4_IN_Callback(void);
void EP5_IN_Callback(void);
void EP6_IN_Callback(void);
void EP7_IN_Callback(void);
void EP1_OUT_Callback(void);
void EP2_OUT_Callback(void);
void EP3_OUT_Callback(void);
void EP4_OUT_Callback(void);
void EP5_OUT_Callback(void);
void EP6_OUT_Callback(void);
void EP7_OUT_Callback(void);
#endif
/********************************* END OF FILE ******************************/

51
workspace/ts100/inc/usb_prop.h
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@@ -1,51 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_prop.h
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#ifndef __usb_prop_H
#define __usb_prop_H
#include "usb_core.h"
#ifdef STM32F30X
#include "stm32f30x.h"
#elif STM32F10X_HD
#include "stm32f10x.h"
#endif
#define Mass_Storage_GetConfiguration NOP_Process
/* #define Mass_Storage_SetConfiguration NOP_Process*/
#define Mass_Storage_GetInterface NOP_Process
#define Mass_Storage_SetInterface NOP_Process
#define Mass_Storage_GetStatus NOP_Process
/* #define Mass_Storage_ClearFeature NOP_Process*/
#define Mass_Storage_SetEndPointFeature NOP_Process
#define Mass_Storage_SetDeviceFeature NOP_Process
/*#define Mass_Storage_SetDeviceAddress NOP_Process*/
/* MASS Storage Requests*/
#define GET_MAX_LUN 0xFE
#define MASS_STORAGE_RESET 0xFF
#define LUN_DATA_LENGTH 1
extern u32 Max_Lun;
void MASS_init(void);
void MASS_Reset(void);
void Mass_Storage_SetConfiguration(void);
void Mass_Storage_ClearFeature(void);
void Mass_Storage_SetDeviceAddress (void);
void MASS_Status_In (void);
void MASS_Status_Out (void);
RESULT MASS_Data_Setup(u8);
RESULT MASS_NoData_Setup(u8);
RESULT MASS_Get_Interface_Setting(u8 Interface, u8 AlternateSetting);
u8 *MASS_GetDeviceDescriptor(u16 );
u8 *MASS_GetConfigDescriptor(u16);
u8 *MASS_GetStringDescriptor(u16);
u8 *Get_Max_Lun(u16 Length);
void Get_SerialNum(void);
#endif
/********************************* END OF FILE ******************************/

42
workspace/ts100/inc/usb_pwr.h
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@@ -1,42 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_pwr.h
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#ifndef __USB_PWR_H
#define __USB_PWR_H
#include "usb_core.h"
typedef enum _RESUME_STATE
{
RESUME_EXTERNAL,
RESUME_INTERNAL,
RESUME_LATER,
RESUME_WAIT,
RESUME_START,
RESUME_ON,
RESUME_OFF,
RESUME_ESOF
} RESUME_STATE;
typedef enum _DEVICE_STATE
{
UNCONNECTED,
ATTACHED,
POWERED,
SUSPENDED,
ADDRESSED,
CONFIGURED
} DEVICE_STATE;
void Suspend(void);
void Resume_Init(void);
void Resume(RESUME_STATE eResumeSetVal);
RESULT PowerOn(void);
RESULT PowerOff(void);
extern vu32 bDeviceState; /* USB device status */
extern vu8 fSuspendEnabled; /* true when suspend is possible */
#endif
/********************************* END OF FILE ******************************/

125
workspace/ts100/inc/usb_scsi.h
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@@ -1,125 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_scsi.h
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#ifndef __USB_SCSI_H
#define __USB_SCSI_H
#ifdef STM32F30X
#include "stm32f30x.h"
#else
#include "stm32f10x.h"
#endif
/* SCSI Commands */
#define SCSI_FORMAT_UNIT 0x04
#define SCSI_INQUIRY 0x12
#define SCSI_MODE_SELECT6 0x15
#define SCSI_MODE_SELECT10 0x55
#define SCSI_MODE_SENSE6 0x1A
#define SCSI_MODE_SENSE10 0x5A
#define SCSI_ALLOW_MEDIUM_REMOVAL 0x1E
#define SCSI_READ6 0x08
#define SCSI_READ10 0x28
#define SCSI_READ12 0xA8
#define SCSI_READ16 0x88
#define SCSI_READ_CAPACITY10 0x25
#define SCSI_READ_CAPACITY16 0x9E
#define SCSI_REQUEST_SENSE 0x03
#define SCSI_START_STOP_UNIT 0x1B
#define SCSI_TEST_UNIT_READY 0x00
#define SCSI_WRITE6 0x0A
#define SCSI_WRITE10 0x2A
#define SCSI_WRITE12 0xAA
#define SCSI_WRITE16 0x8A
#define SCSI_VERIFY10 0x2F
#define SCSI_VERIFY12 0xAF
#define SCSI_VERIFY16 0x8F
#define SCSI_SEND_DIAGNOSTIC 0x1D
#define SCSI_READ_FORMAT_CAPACITIES 0x23
#define NO_SENSE 0
#define RECOVERED_ERROR 1
#define NOT_READY 2
#define MEDIUM_ERROR 3
#define HARDWARE_ERROR 4
#define ILLEGAL_REQUEST 5
#define UNIT_ATTENTION 6
#define DATA_PROTECT 7
#define BLANK_CHECK 8
#define VENDOR_SPECIFIC 9
#define COPY_ABORTED 10
#define ABORTED_COMMAND 11
#define VOLUME_OVERFLOW 13
#define MISCOMPARE 14
#define INVALID_COMMAND 0x20
#define INVALID_FIELED_IN_COMMAND 0x24
#define PARAMETER_LIST_LENGTH_ERROR 0x1A
#define INVALID_FIELD_IN_PARAMETER_LIST 0x26
#define ADDRESS_OUT_OF_RANGE 0x21
#define MEDIUM_NOT_PRESENT 0x3A
#define MEDIUM_HAVE_CHANGED 0x28
#define READ_FORMAT_CAPACITY_DATA_LEN 0x0C
#define READ_CAPACITY10_DATA_LEN 0x08
#define MODE_SENSE10_DATA_LEN 0x08
#define MODE_SENSE6_DATA_LEN 0x04
#define REQUEST_SENSE_DATA_LEN 0x12
#define STANDARD_INQUIRY_DATA_LEN 0x24 // 0x24
#define BLKVFY 0x04
extern u8 Page00_Inquiry_Data[];
extern u8 Standard_Inquiry_Data[];
extern u8 Mode_Sense6_data[];
extern u8 Mode_Sense10_data[];
extern u8 Scsi_Sense_Data[];
extern u8 ReadCapacity10_Data[];
extern u8 Bot_State;
void SCSI_Inquiry_Cmd(void);
void SCSI_ReadFormatCapacity_Cmd(void);
void SCSI_ReadCapacity10_Cmd(void);
void SCSI_RequestSense_Cmd (void);
void SCSI_Start_Stop_Unit_Cmd(void);
void SCSI_ModeSense6_Cmd (void);
void SCSI_ModeSense10_Cmd (void);
void SCSI_Write10_Cmd(u32 LBA , u32 BlockNbr);
void SCSI_Read10_Cmd(u32 LBA , u32 BlockNbr);
void SCSI_Verify10_Cmd(void);
void SCSI_Invalid_Cmd(void);
void SCSI_Valid_Cmd(void);
u8 SCSI_Address_Management(u8 Cmd , u32 LBA , u32 BlockNbr);
void Set_Scsi_Sense_Data(u8 Sens_Key, u8 Asc);
void SCSI_TestUnitReady_Cmd (void);
void SCSI_Format_Cmd (void);
#define SCSI_Prevent_Removal_Cmd SCSI_Valid_Cmd
// Invalid (Unsupported) commands
#define SCSI_READ_CAPACITY16_Cmd SCSI_Invalid_Cmd
//#define SCSI_FormatUnit_Cmd SCSI_Invalid_Cmd
#define SCSI_Write6_Cmd SCSI_Invalid_Cmd
#define SCSI_Write16_Cmd SCSI_Invalid_Cmd
#define SCSI_Write12_Cmd SCSI_Invalid_Cmd
#define SCSI_Read6_Cmd SCSI_Invalid_Cmd
#define SCSI_Read12_Cmd SCSI_Invalid_Cmd
#define SCSI_Read16_Cmd SCSI_Invalid_Cmd
#define SCSI_Send_Diagnostic_Cmd SCSI_Invalid_Cmd
#define SCSI_Mode_Select6_Cmd SCSI_Invalid_Cmd
#define SCSI_Mode_Select10_Cmd SCSI_Invalid_Cmd
#define SCSI_Verify12_Cmd SCSI_Invalid_Cmd
#define SCSI_Verify16_Cmd SCSI_Invalid_Cmd
#endif
/********************************* END OF FILE ******************************/

284
workspace/ts100/src/2FAT12.c
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@@ -1,284 +0,0 @@
/********************* (C) COPYRIGHT 2015 e-Design Co.,Ltd. ********************
File Name : 2FAT12.c
Version : S100 APP Ver 2.11
Description:
Author : bure & Celery
Data: 2015/08/03
History:
2016/09/13 Ben V. Brown -> English comments and cleaning up
2015/08/03
*******************************************************************************/
#include <string.h>
#include "FAT12.h"
#include "Bios.h"
#define FAT_LEN 0x1800
#define FAT1_BASE 0x00001000 // FAT1
#define FAT2_BASE 0x00002800 // FAT2
#define ROOT_BASE 0x00004000 //
#define FILE_BASE 0x00008000 //
#define SEC_LEN 512 //length of a sector -> 512 Bytes
#define FAT1_SEC 0x0C // FAT1 Sector
#define FAT2_SEC 0x0C // FAT2 Sector
#define OK 0 //Error codes
#define SEC_ERR 1 //
#define FAT_ERR 2 //
#define OVER 3 //
#define NEW 4 //
#define END 0xFFF //
#define OW 0 //
#define RW 1 //
/*******************************************************************************
Function: NextCluster
Description:
Input:
*******************************************************************************/
u8 NextCluster(u16* pCluster) {
u16 FatNum;
u32 Addr = FAT1_BASE + (*pCluster + *pCluster / 2);
*(pCluster + 1) = *pCluster; // <20><><EFBFBD><EFBFBD>ǰһ<C7B0><D2BB><EFBFBD>غ<EFBFBD>
// *(pCluster+1)= 0;
if ((*pCluster >= END) || (*pCluster < 2))
return OK;
if (ReadDiskData((u8*) &FatNum, Addr, 2) != OK)
return SEC_ERR;
*pCluster = (*pCluster & 1) ? (FatNum >> 4) : (FatNum & 0x0FFF); // ָ<><D6B8><EFBFBD><EFBFBD>һ<EFBFBD><D2BB><EFBFBD>غ<EFBFBD>
return OK;
}
/*******************************************************************************
Function: ReadFileSec
Description:
Input:
*******************************************************************************/
u8 ReadFileSec(u8* pBuffer, u16* pCluster) {
u32 ReadAddr = FILE_BASE + SEC_LEN * (*pCluster - 2);
//This code appears to read the data in two chunks of 256 bytes...
if (ReadDiskData(pBuffer, ReadAddr, 256) != OK)
return SEC_ERR; //
pBuffer += 256;
ReadAddr += 256;
if (ReadDiskData(pBuffer, ReadAddr, 256) != OK)
return SEC_ERR; // Failed to read the sector
if (NextCluster(pCluster) != 0)
return FAT_ERR; //
return OK;
}
/*******************************************************************************
Function: ProgFileSec
Description:
Input:
*******************************************************************************/
u8 ProgFileSec(u8* pBuffer, u16* pCluster) {
u16 Tmp;
u32 ProgAddr = FILE_BASE + SEC_LEN * (*pCluster - 2);
if (ProgDiskPage(pBuffer, ProgAddr) != OK)
return SEC_ERR; //
pBuffer += 256;
ProgAddr += 256;
if (ProgDiskPage(pBuffer, ProgAddr) != OK)
return SEC_ERR; //
Tmp = *pCluster;
switch (Tmp) {
case 0:
case 1:
if (SeekBlank(pBuffer, pCluster) != OK)
return OVER;
if (SetCluster(pBuffer, pCluster) != OK)
return SEC_ERR;
*(pCluster + 1) = Tmp;
return OK;
case END:
default:
if (NextCluster(pCluster) != OK)
return FAT_ERR;
return OK;
}
}
/*******************************************************************************
Function: SeekBlank
Description:
Input:
*******************************************************************************/
u8 SeekBlank(u8* pBuffer, u16* pCluster) {
u16 Offset, Tmp, i, n = 0;
u32 SecAddr;
for (i = 0; i < 4096; i++) {
Offset = i + i / 2;
if ((Offset % 256) == 0) {
SecAddr = FAT1_BASE + (Offset & (~0xFF));
if (ReadDiskData(pBuffer, SecAddr, 258) != 0)
return SEC_ERR;
}
Offset %= 256;
Tmp = pBuffer[Offset] + (pBuffer[Offset + 1] << 8);
Tmp = (i & 1) ? (Tmp >> 4) : (Tmp & 0xFFF);
if (Tmp == 0) {
*pCluster++ = i;
n++;
if (n > 1)
return OK;
}
}
*(pCluster + 1) = 0xFFF;
return OK;
}
/*******************************************************************************
Function:
Description:
Input:
*******************************************************************************/
u8 SetCluster(u8* pBuffer, u16* pCluster) {
u16 Offset, Tmp, i, k;
u32 SecAddr;
i = *pCluster; // <20><>ȡԭ<C8A1><D4AD>ǰ<EFBFBD>غ<EFBFBD>
k = *(pCluster + 1); // <20><>ȡ<EFBFBD><C8A1>һ<EFBFBD>غ<EFBFBD>
*pCluster = k;
Offset = i + i / 2;
SecAddr = FAT1_BASE + (Offset & (~0xFF));
Tmp = Offset & 0xFF;
if (ReadDiskData(pBuffer, SecAddr, 256) != 0)
return SEC_ERR;
if (i & 1)
pBuffer[Tmp] = ((k << 4) & 0xF0) + (pBuffer[Tmp] & 0x0F);
else
pBuffer[Tmp] = k;
if (Tmp++ < 256) {
if (i & 1)
pBuffer[Tmp] = k >> 4;
else
pBuffer[Tmp] = ((k >> 8) & 0x0F) + (pBuffer[Tmp] & 0xF0);
if (ProgDiskPage(pBuffer, SecAddr) != 0)
return SEC_ERR;
} else {
if (ProgDiskPage(pBuffer, SecAddr) != 0)
return SEC_ERR;
SecAddr += 256;
if (ReadDiskData(pBuffer, SecAddr, 256) != 0)
return SEC_ERR;
if (i & 1)
pBuffer[0] = k >> 4;
else
pBuffer[0] = ((k >> 8) & 0x0F) + (pBuffer[0] & 0xF0);
if (ProgDiskPage(pBuffer, SecAddr) != 0)
return SEC_ERR;
}
return OK;
}
/*******************************************************************************
Function:
Description:
Input:
*******************************************************************************/
u8 FAT_SearchFile(u8* pBuffer, u8* pFileName, u16* pCluster, u32* pDirAddr,
u32* flag) {
u16 i, n;
*pCluster = 0;
for (*pDirAddr = ROOT_BASE; *pDirAddr < FILE_BASE;) {
if (ReadDiskData(pBuffer, *pDirAddr, 256) != OK)
return SEC_ERR;
for (n = 0; n < 256; n += 32) {
for (i = 0; i < 4; i++) {
if (pBuffer[n + i] != 0) {
if (pBuffer[n + i] != pFileName[i])
break;
if (i == 3) { // <20>ҵ<EFBFBD><D2B5>ļ<EFBFBD><C4BC><EFBFBD>
*pCluster = *(u16*) (pBuffer + n + 0x1A); // <20>ļ<EFBFBD><C4BC><EFBFBD>һ<EFBFBD><D2BB><EFBFBD>غ<EFBFBD>
return OK;
}
} else
return NEW; // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>һ<EFBFBD><D2BB><EFBFBD>հ<EFBFBD>Ŀ¼<C4BF><C2BC>󷵻<EFBFBD>
}
*pDirAddr += 32;
}
}
return OVER;
}
/*******************************************************************************
Function:OpenFileRd
Description: Opens a file for reading from
Input:
*******************************************************************************/
u8 OpenFileRd(u8* pBuffer, u8* pFileName, u16* pCluster, u32* pDirAddr) {
u16 i, n;
*pCluster = 0;
for (*pDirAddr = ROOT_BASE; *pDirAddr < FILE_BASE;) {
if (ReadDiskData(pBuffer, *pDirAddr, 256) != OK)
return SEC_ERR;
for (n = 0; n < 256; n += 32) {
for (i = 0; i < 11; i++) {
if (pBuffer[n + i] != 0) {
if (pBuffer[n + i] != pFileName[i])
break;
if (i == 10) { // <20>ҵ<EFBFBD><D2B5>ļ<EFBFBD><C4BC><EFBFBD>
*pCluster = *(u16*) (pBuffer + n + 0x1A); // <20>ļ<EFBFBD><C4BC><EFBFBD>һ<EFBFBD><D2BB><EFBFBD>غ<EFBFBD>
return OK;
}
} else
return NEW; // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>һ<EFBFBD><D2BB><EFBFBD>հ<EFBFBD>Ŀ¼<C4BF><C2BC>󷵻<EFBFBD>
}
*pDirAddr += 32;
}
}
return OVER;
}
/*******************************************************************************
Function: OpenFileWr
Description: Opens a file for writing to
Input:
*******************************************************************************/
u8 OpenFileWr(u8* pBuffer, u8* pFileName, u16* pCluster, u32* pDirAddr) {
u16 i, n;
i = OpenFileRd(pBuffer, pFileName, pCluster, pDirAddr);
if (i != NEW)
return i;
else { // <20><>ǰ<EFBFBD><C7B0>Ϊ<EFBFBD>հ<EFBFBD>Ŀ¼<C4BF><C2BC>
if (SeekBlank(pBuffer, pCluster) != OK)
return OVER; // <20><>FAT<41><54><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
n = *pDirAddr & 0xFF; // nΪ<6E><CEAA>ǰҳĿ¼<C4BF><C2BC>
if (ReadDiskData(pBuffer, (*pDirAddr) - n, 256) != OK)
return SEC_ERR;
for (i = 0; i < 11; i++)
pBuffer[n + i] = pFileName[i]; // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ŀ¼<C4BF><C2BC>
*(u16*) (pBuffer + n + 0x1A) = *pCluster;
if (ProgDiskPage(pBuffer, (*pDirAddr) - n) != OK)
return SEC_ERR;
return OK;
}
}
/*******************************************************************************
Function: CloseFile
Description: Closes a file that was previously opened
Input:
*******************************************************************************/
u8 CloseFile(u8* pBuffer, u32 Lenght, u16* pCluster, u32* pDirAddr) {
u16 n;
// *pCluster = *(pCluster+1); // <20><>ȡǰһ<C7B0><D2BB><EFBFBD>غ<EFBFBD>
*(pCluster + 1) = 0xFFF;
SetCluster(pBuffer, pCluster);
if (ReadDiskData(pBuffer, (*pDirAddr & (~0xFF)), 256) != OK)
return SEC_ERR;
*(u8*) (pBuffer + (*pDirAddr & 0xFF) + 0x0B) = 0x20;
*(u32*) (pBuffer + (*pDirAddr & 0xFF) + 0x1C) = Lenght;
if (ProgDiskPage(pBuffer, (*pDirAddr & (~0xFF))) != OK)
return SEC_ERR;
for (n = 0; n < FAT1_SEC; n++) {
if (ReadDiskData(pBuffer, FAT1_BASE + n * 256, 256) != OK)
return SEC_ERR;
if (ProgDiskPage(pBuffer, FAT2_BASE + n * 256) != OK)
return SEC_ERR;
}
return OK;
}
/******************************** END OF FILE *********************************/

54
workspace/ts100/src/Bios.c
View File

@@ -9,7 +9,7 @@
*******************************************************************************/
#include <Hardware.h>
#include <usb_lib.h>
#include "APP_Version.h"
#include "Bios.h"
#include "I2C.h"
@@ -52,8 +52,8 @@ u32 Get_HeatingTime(void) {
return gHeat_cnt;
}
/*******************************************************************************
Function:
Description: Init the global count down timers
Function:
Description: Init the global count down timers
*******************************************************************************/
void Init_Gtime(void) {
u8 i;
@@ -85,22 +85,6 @@ void Delay_HalfMs(u32 ms) {
; // {if(Scan_key()!=0)break;}
}
/*******************************************************************************
Function: USB_Port
Description: Enables or disables the usb pins
Input: state == ENABLE or DISABLE
*******************************************************************************/
void USB_Port(u8 state) {
USB_DN_LOW();
USB_DP_LOW();
if (state == DISABLE) {
USB_DN_OUT();
USB_DP_OUT();
} else {
USB_DN_EN();
USB_DP_EN();
}
}
/*******************************************************************************
Function:RCC_Config
Description:Setup the system clocks to use internal HSE to run the system at 48Mhz
@@ -123,11 +107,9 @@ void RCC_Config(void) {
RCC_AHBPeriphClockCmd(
RCC_AHBPeriph_SRAM | RCC_AHBPeriph_DMA1 | RCC_AHBPeriph_DMA2 |
RCC_AHBPeriph_FLITF, // Enable DMA1 clock ???
ENABLE);
RCC_AHBPeriph_FLITF, ENABLE);
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOA | RCC_APB2Periph_GPIOB |
RCC_APB2Periph_ADC1 | RCC_APB2Periph_ADC2, //| RCC_APB2Periph_ADC3, //RCC_APB2Periph_TIM1,
ENABLE);
RCC_APB2Periph_ADC1 | RCC_APB2Periph_ADC2, ENABLE);
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM2 | RCC_APB1Periph_TIM3, ENABLE);
RCC_USBCLKConfig(RCC_USBCLKSource_PLLCLK_Div1); // USBCLK = 48MHz
@@ -145,8 +127,9 @@ void NVIC_Config(u16 tab_offset) {
NVIC_InitStructure.NVIC_IRQChannel = USB_LP_CAN1_RX0_IRQn;
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 2;
NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
NVIC_InitStructure.NVIC_IRQChannelCmd = DISABLE;
NVIC_Init(&NVIC_InitStructure);
}
/*******************************************************************************
Function:GPIO_Config
@@ -178,7 +161,7 @@ void GPIO_Config(void) {
GPIO_InitStructure.GPIO_Pin = OLED_RST_PIN;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_Init(GPIOB, &GPIO_InitStructure);
GPIO_Init(GPIOA, &GPIO_InitStructure);
//------- Heat_Pin - Iron enable output PB4--------------------------------------------------------//
GPIO_PinRemapConfig(GPIO_Remap_SWJ_NoJTRST, ENABLE); //Disable PB4=JNTRST
@@ -301,8 +284,10 @@ void Init_Timer2(void) {
NVIC_Init(&NVIC_InitStructure);
}
/*******************************************************************************
Function:
Description: Init Timer3 to fire every 50us to be used to control the irons software PWM
Function:
Description: Init Timer3 to fire every 50us to be used to control the irons software PWM
This needs to be really fast as there is a cap used between this and the driver circuitry
That prevents astuck mcu heating the tip
*******************************************************************************/
void Init_Timer3(void) {
NVIC_InitTypeDef NVIC_InitStructure;
@@ -332,7 +317,7 @@ void Init_Timer3(void) {
Also reads the buttons every 4 ticks
*******************************************************************************/
void TIM2_ISR(void) {
static u8 buttonReadDivider;
volatile static u8 buttonReadDivider;
TIM_ClearITPendingBit(TIM2, TIM_IT_Update); // Clear interrupt flag
for (u8 i = 0; i < 8; i++)
@@ -348,27 +333,24 @@ void TIM2_ISR(void) {
If the Heat_cnt >0 then heater on, otherwise off.
*******************************************************************************/
void TIM3_ISR(void) {
volatile static u8 heat_flag = 0;
volatile static u8 heat_flag = 0; //heat flag == used to make the pin toggle
TIM_ClearITPendingBit(TIM3, TIM_IT_Update); // Clear interrupt flag
if (gTimeOut > 0)
gTimeOut--;
if (gMs_timeout > 0)
gMs_timeout--;
if (gHeat_cnt > 0) {
gHeat_cnt--;
--gHeat_cnt;
if (heat_flag)
HEAT_OFF();
else
HEAT_ON();
heat_flag = ~heat_flag;
}
if (gHeat_cnt == 0) {
heat_flag = !heat_flag;
} else {
HEAT_OFF();
heat_flag = 0;
}
}
/******************************** END OF FILE *********************************/

21
workspace/ts100/src/CTRL.c
View File

@@ -15,7 +15,6 @@
#include "UI.h"
#include "Hardware.h"
#include "S100V0_1.h"
#include "Disk.h"
#include "MMA8652FC.h"
#define HEATINGCYCLE 30
@@ -32,8 +31,8 @@ u8 gIs_restartkey = 0; //
u8 gPre_status = 1; //
const DEVICE_INFO_SYS info_def = { "2.13", //Ver
2000, //T_Standby; // 200C=1800 2520
3000, // T_Work; // 350C=3362,
1000, //T_Standby; // 200C=1800 2520
1000, // T_Work; // 350C=3362,
100, //T_Step;
3 * 60 * 100, //Wait_Time; //3*60*100 3 minutes
6 * 60 * 100 // Idle_Time; //6*60*100 6 minutes
@@ -43,7 +42,7 @@ struct _pid {
s16 actualtemp; //Actual current temp of the tip
s16 err; //Error term
s16 err_last; //last error term
s32 ht_time; //
u32 ht_time; //
u16 kp, ki, kd; //Constants for the PID Controller
s32 integral; //
} pid;
@@ -205,7 +204,7 @@ u32 Heating_Time(s16 temp, s16 wk_temp) {
*******************************************************************************/
void Status_Tran(void) //
{
static u16 init_waitingtime = 0; //<2F><>ʼ<EFBFBD><CABC><EFBFBD><EFBFBD>ʱ<EFBFBD><CAB1><EFBFBD>־λ: 0=> δ<><CEB4>ʼ<EFBFBD><CABC>,1=><3E>ѳ<EFBFBD>ʼ<EFBFBD><CABC>
static u16 init_waitingtime = 0;
static u8 back_prestatus = 0;
s16 heat_timecnt = 0, wk_temp;
u16 mma_active;
@@ -373,10 +372,9 @@ void Status_Tran(void) //
case TEMP_SET: //We are in the setting soldering iron temp mode
if(EFFECTIVE_KEY_TIMER == 0) {
gCalib_flag = 1;
Disk_BuffInit();
Config_Analysis(); //
gCalib_flag = 0;
Set_CtrlStatus(TEMP_CTR);//return to soldering mode
Set_CtrlStatus(TEMP_CTR); //return to soldering mode
TEMPSHOW_TIMER = 0;//turn off the timer
}
break;
@@ -395,8 +393,6 @@ void Status_Tran(void) //
case KEY_CN|KEY_V3:
Zero_Calibration(); //Calibrate the temperature (i think??)
if(Get_CalFlag() == 1) {
Disk_BuffInit();
Config_Analysis(); // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>U<EFBFBD><55>
}
KD_TIMER = 200; //20150717 <20>޸<EFBFBD>
break;
@@ -436,11 +432,6 @@ void Status_Tran(void) //
}
break;
}
//V-- No idea what this does yet.. At all.. since it will always be skipped..
if(Get_HeatingTime != 0) {
Set_HeatingTime(0); //<2F><><EFBFBD><EFBFBD>ֹͣ<CDA3><D6B9><EFBFBD><EFBFBD>
HEAT_OFF();
}
break;
default:
break;

773
workspace/ts100/src/Disk.c
View File

@@ -1,773 +0,0 @@
/********************* (C) COPYRIGHT 2015 e-Design Co.,Ltd. **********************
File Name : Disk.c
Version : S100 APP Ver 2.11
Description:
Author : Celery
Data: 2015/07/07
History:
2016/09/13 Ben V. Brown English notation/comments
2015/07/07
*******************************************************************************/
#include <string.h>
#include <stdio.h>
#include "APP_Version.h"
#include "Disk.h"
#include "Bios.h"
#include "Flash.h"
#include "Oled.h"
#include "UI.h"
#include "CTRL.h"
#include "Hardware.h"
#define Delay_mS Delay_Ms
void Disk_SecWrite(u8* pBuffer, u32 DiskAddr);
void Disk_SecRead(u8* pBuffer, u32 DiskAddr);
void Soft_Delay(void);
//Hard coded boot sector for the virtual device
const uint8_t BOOT_SEC[512] = { 0xEB, 0x3C, 0x90, 0x4D, 0x53, 0x44, 0x4F, 0x53,
0x35, 0x2E, 0x30, 0x00, 0x02, 0x01, 0x08, 0x00, 0x02, 0x00, 0x02, 0x50,
0x00, 0xF8, 0x0c, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x29, 0xA2, 0x98, 0xE4, 0x6C, 0x4E,
0x4F, 0x20, 0x4E, 0x41, 0x4D, 0x45, 0x20, 0x20, 0x20, 0x20, 0x46, 0x41,
0x54, 0x31, 0x32, 0x20, 0x20, 0x20, 0x33, 0xC9, 0x8E, 0xD1, 0xBC, 0xF0,
0x7B, 0x8E, 0xD9, 0xB8, 0x00, 0x20, 0x8E, 0xC0, 0xFC, 0xBD, 0x00, 0x7C,
0x38, 0x4E, 0x24, 0x7D, 0x24, 0x8B, 0xC1, 0x99, 0xE8, 0x3C, 0x01, 0x72,
0x1C, 0x83, 0xEB, 0x3A, 0x66, 0xA1, 0x1C, 0x7C, 0x26, 0x66, 0x3B, 0x07,
0x26, 0x8A, 0x57, 0xFC, 0x75, 0x06, 0x80, 0xCA, 0x02, 0x88, 0x56, 0x02,
0x80, 0xC3, 0x10, 0x73, 0xEB, 0x33, 0xC9, 0x8A, 0x46, 0x10, 0x98, 0xF7,
0x66, 0x16, 0x03, 0x46, 0x1C, 0x13, 0x56, 0x1E, 0x03, 0x46, 0x0E, 0x13,
0xD1, 0x8B, 0x76, 0x11, 0x60, 0x89, 0x46, 0xFC, 0x89, 0x56, 0xFE, 0xB8,
0x20, 0x00, 0xF7, 0xE6, 0x8B, 0x5E, 0x0B, 0x03, 0xC3, 0x48, 0xF7, 0xF3,
0x01, 0x46, 0xFC, 0x11, 0x4E, 0xFE, 0x61, 0xBF, 0x00, 0x00, 0xE8, 0xE6,
0x00, 0x72, 0x39, 0x26, 0x38, 0x2D, 0x74, 0x17, 0x60, 0xB1, 0x0B, 0xBE,
0xA1, 0x7D, 0xF3, 0xA6, 0x61, 0x74, 0x32, 0x4E, 0x74, 0x09, 0x83, 0xC7,
0x20, 0x3B, 0xFB, 0x72, 0xE6, 0xEB, 0xDC, 0xA0, 0xFB, 0x7D, 0xB4, 0x7D,
0x8B, 0xF0, 0xAC, 0x98, 0x40, 0x74, 0x0C, 0x48, 0x74, 0x13, 0xB4, 0x0E,
0xBB, 0x07, 0x00, 0xCD, 0x10, 0xEB, 0xEF, 0xA0, 0xFD, 0x7D, 0xEB, 0xE6,
0xA0, 0xFC, 0x7D, 0xEB, 0xE1, 0xCD, 0x16, 0xCD, 0x19, 0x26, 0x8B, 0x55,
0x1A, 0x52, 0xB0, 0x01, 0xBB, 0x00, 0x00, 0xE8, 0x3B, 0x00, 0x72, 0xE8,
0x5B, 0x8A, 0x56, 0x24, 0xBE, 0x0B, 0x7C, 0x8B, 0xFC, 0xC7, 0x46, 0xF0,
0x3D, 0x7D, 0xC7, 0x46, 0xF4, 0x29, 0x7D, 0x8C, 0xD9, 0x89, 0x4E, 0xF2,
0x89, 0x4E, 0xF6, 0xC6, 0x06, 0x96, 0x7D, 0xCB, 0xEA, 0x03, 0x00, 0x00,
0x20, 0x0F, 0xB6, 0xC8, 0x66, 0x8B, 0x46, 0xF8, 0x66, 0x03, 0x46, 0x1C,
0x66, 0x8B, 0xD0, 0x66, 0xC1, 0xEA, 0x10, 0xEB, 0x5E, 0x0F, 0xB6, 0xC8,
0x4A, 0x4A, 0x8A, 0x46, 0x0D, 0x32, 0xE4, 0xF7, 0xE2, 0x03, 0x46, 0xFC,
0x13, 0x56, 0xFE, 0xEB, 0x4A, 0x52, 0x50, 0x06, 0x53, 0x6A, 0x01, 0x6A,
0x10, 0x91, 0x8B, 0x46, 0x18, 0x96, 0x92, 0x33, 0xD2, 0xF7, 0xF6, 0x91,
0xF7, 0xF6, 0x42, 0x87, 0xCA, 0xF7, 0x76, 0x1A, 0x8A, 0xF2, 0x8A, 0xE8,
0xC0, 0xCC, 0x02, 0x0A, 0xCC, 0xB8, 0x01, 0x02, 0x80, 0x7E, 0x02, 0x0E,
0x75, 0x04, 0xB4, 0x42, 0x8B, 0xF4, 0x8A, 0x56, 0x24, 0xCD, 0x13, 0x61,
0x61, 0x72, 0x0B, 0x40, 0x75, 0x01, 0x42, 0x03, 0x5E, 0x0B, 0x49, 0x75,
0x06, 0xF8, 0xC3, 0x41, 0xBB, 0x00, 0x00, 0x60, 0x66, 0x6A, 0x00, 0xEB,
0xB0, 0x4E, 0x54, 0x4C, 0x44, 0x52, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20,
0x0D, 0x0A, 0x52, 0x65, 0x6D, 0x6F, 0x76, 0x65, 0x20, 0x64, 0x69, 0x73,
0x6B, 0x73, 0x20, 0x6F, 0x72, 0x20, 0x6F, 0x74, 0x68, 0x65, 0x72, 0x20,
0x6D, 0x65, 0x64, 0x69, 0x61, 0x2E, 0xFF, 0x0D, 0x0A, 0x44, 0x69, 0x73,
0x6B, 0x20, 0x65, 0x72, 0x72, 0x6F, 0x72, 0xFF, 0x0D, 0x0A, 0x50, 0x72,
0x65, 0x73, 0x73, 0x20, 0x61, 0x6E, 0x79, 0x20, 0x6B, 0x65, 0x79, 0x20,
0x74, 0x6F, 0x20, 0x72, 0x65, 0x73, 0x74, 0x61, 0x72, 0x74, 0x0D, 0x0A,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xAC, 0xCB, 0xD8, 0x55, 0xAA };
static u8 gDisk_buff[0x2600]; //RAM Buffer used to implement the virtual disk
static u32 gDisk_var[(512 + 32 + 28) / 4]; //
static u32 *gV32 = (u32*) &gDisk_var[512 / 4];
static u8 *gVar = (u8*) &gDisk_var[512 / 4 + 8];
static u8 *gBuff = (u8*) &gDisk_var[0];
const u8 gFat_data[] = { 0xF8, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; //{0xF8,0XFF,0XFF,0xff,0X0f};//
//The options
const char *gKey_words[] = { "T_Standby", "T_Work", "Wait_Time", "Idle_Time",
"T_Step", "Turn_Off_v", "TempShowFlag", "ZeroP_Ad" };
//default settings
const char *gDef_set[] = { "T_Standby=200", "T_Work=300", "Wait_Time=180",
"Idle_Time=360", "T_Step=10", "Turn_Off_v=10", "TempShowFlag=0",
"ZeroP_Ad=239" };
//comments for accepted range
const char *gSet_range[] = { " #(100~400)\r\n", " #(100~400)\r\n",
" #(60~9999)\r\n", " #(300~9999)\r\n", " #(5~25)\r\n",
" #(9~12)\r\n", " #(0,1)\r\n", " #ReadOnly\r\n" };
static u8 gFile_con[512]; //file contents buffer
#define CONFIG_CONT 8 /*Number of variables in config.txt*/
u8 gRewriteflag[16]; //This flags if this sector has changed and needs to be written to flash
#define ROW_CONT 35
#define FILE_CONT 254
/*******************************************************************************
Function: Soft_Delay()
Description: Small software delay.
*******************************************************************************/
void Soft_Delay() {
int i, j;
for (i = 0; i < 1000; i++)
for (j = 0; j < 100; j++)
;
}
/*******************************************************************************
Function: Set_Ver
Description:
Input:
*******************************************************************************/
void Set_Ver(u8 str[], u8 k) {
s16 set_ver = 0;
switch (k) {
case 0:
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
device_info.t_standby = set_ver * 10;
break;
case 1:
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
if (!gCalib_flag)
device_info.t_work = set_ver * 10;
break;
case 2:
if (str[3] <= '9' && str[3] >= '0') { //4
set_ver = (str[0] - 48) * 1000 + (str[1] - 48) * 100
+ (str[2] - 48) * 10 + (str[3] - 48);
} else if (str[2] <= '9' && str[2] >= '0') { //3
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
} else if (str[1] <= '9' && str[1] >= '0') { //2
set_ver = (str[0] - 48) * 10 + (str[1] - 48);
}
device_info.wait_time = set_ver * 100;
break;
case 3:
if (str[3] <= '9' && str[3] >= '0') { //4
set_ver = (str[0] - 48) * 1000 + (str[1] - 48) * 100
+ (str[2] - 48) * 10 + (str[3] - 48);
} else if (str[2] <= '9' && str[2] >= '0') { //3
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
}
device_info.idle_time = set_ver * 100;
break;
case 4:
if (str[1] <= '9' && str[1] >= '0') { //2
set_ver = (str[0] - 48) * 10 + (str[1] - 48);
} else {
set_ver = str[0] - 48;
}
device_info.t_step = set_ver * 10;
break;
case 5:
if (str[3] <= '9' && str[3] >= '0') { //4
set_ver = (str[0] - 48) * 1000 + (str[1] - 48) * 100
+ (str[2] - 48) * 10 + (str[3] - 48);
} else if (str[2] <= '9' && str[2] >= '0') { //3
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
} else if (str[1] <= '9' && str[1] >= '0') { //2
set_ver = (str[0] - 48) * 10 + (str[1] - 48);
} else {
set_ver = str[0] - 48;
}
gTurn_offv = set_ver * 10;
break;
case 6:
set_ver = str[0] - 48;
Set_TemperatureShowFlag(set_ver);
break;
case 7:
if (str[2] <= '9' && str[2] >= '0') { //3
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
} else if (str[1] <= '9' && str[1] >= '0') { //2
set_ver = (str[0] - 48) * 10 + (str[1] - 48);
} else {
set_ver = str[0] - 48;
}
if (!gCalib_flag)
gZerop_ad = set_ver;
break;
default:
break;
}
}
/*******************************************************************************
Function: Cal_Val
Description:
Inputs:
Output:
*******************************************************************************/
u8 Cal_Val(u8 str[], u8 k, u8 flag) {
u16 set_ver;
switch (k) {
case 0:
case 1:
if (str[2] > '9' || str[2] < '0' || //
str[1] > '9' || str[1] < '0' || //
str[0] > '4' || str[0] <= '0' || //
(str[0] == '4' && (str[1] != '0' || str[2] != '0')))
return 0;
break;
case 2:
if (str[3] <= '9' && str[3] >= '0') { //
if ((str[2] > '9' && str[2] < '0')
|| (str[1] > '9' && str[1] < '0')) //
return 0;
} else if (str[2] <= '9' && str[2] >= '0') { //
if (str[1] > '9' && str[1] < '0') //
return 0;
} else if (str[1] <= '9' && str[1] >= '0') { //
if (str[0] > '9' || str[0] < '6') //
return 0;
} else {
return 0;
}
break;
case 3:
if (str[3] <= '9' && str[3] >= '0') { //4
if ((str[2] > '9' && str[2] < '0')
|| (str[1] > '9' && str[1] < '0')) //
return 0;
} else if (str[2] <= '9' && str[2] >= '0') { //3
if (str[0] > '9' || str[0] < '3') //
return 0;
} else { //
return 0;
}
break;
case 4: //T_Step=10 #(5~25)
if (str[1] <= '5' && str[1] >= '0') { //
if (str[0] > '2' || str[0] < '0') //
return 0;
} else {
if (str[0] < '5' && (str[0] != '1')) {
return 0;
}
}
break;
case 5: //Turn_Off_v=10 #(9~12)
if (str[1] <= '2' && str[1] >= '0') { //
if (str[0] > '9' || str[0] < '0') //
return 0;
} else {
if (str[0] < '9') {
return 0;
}
}
break;
case 6: //TempShowFlag=0 #(0,1)
if (str[0] != '1' && str[0] != '0')
return 0;
break;
case 7:
if (str[2] <= '9' && str[2] >= '0') { //3
set_ver = (str[0] - 48) * 100 + (str[1] - 48) * 10 + (str[2] - 48);
} else if (str[1] <= '9' && str[1] >= '0') { //2
set_ver = (str[0] - 48) * 10 + (str[1] - 48);
} else {
set_ver = str[0] - 48;
}
if (flag == 1) {
if (set_ver != gZerop_ad)
return 0;
}
break;
default:
break;
}
return 1;
}
/*******************************************************************************
Function:Disk_BuffInit
Description: Initializes the buffer for the virtual disk. By loading from the chips flash
*******************************************************************************/
void Disk_BuffInit(void) {
memcpy(gDisk_buff, (u8*) APP_BASE, 0x2600);
memset(gRewriteflag, 0, 16);
}
/*******************************************************************************
Function: Upper
Description: Converts the string passed in to upper case
Inputs: (str) buffer to change, (len) length of the buffer
*******************************************************************************/
void Upper(u8* str, u16 len) {
u16 i;
for (i = 0; i < len; i++) //Loop through the string
if (str[i] >= 'a' && str[i] <= 'z') //if char is lower case
str[i] -= 32; //shift to upper case
}
/*******************************************************************************
Function: SearchFile
Description:
Inputs: (pfilename) filename to look for, (pfilelen) length of the file,(root_addr) root folder to search from
Outputs: NULL (failed) or pointer to file start
*******************************************************************************/
u8* SearchFile(u8* pfilename, u16* pfilelen, u16* root_addr) {
u16 n, sector;
u8 str_name[11];
u8* pdiraddr;
pdiraddr = ROOT_SECTOR;
for (n = 0; n < 16; n++) {
memcpy(str_name, pdiraddr, 11);
Upper(str_name, 11); //ensure path is upper case
if (memcmp(str_name, pfilename, 11) == 0) {
memcpy((u8*) pfilelen, pdiraddr + 0x1C, 2);
memcpy((u8*) &sector, pdiraddr + 0x1A, 2);
return (u8*) FILE_SECTOR + (sector - 2) * 512;
}
pdiraddr += 32;
root_addr++;
}
return NULL;
}
/*******************************************************************************
Function:Config_Analysis
Description:Reads the CONFIG.TXT if file is found and also the LOGIN.BMP file as well
*******************************************************************************/
u8 Config_Analysis(void) {
u32 i, j, k, m, flag;
u16 file_len;
u8 t_p[CONFIG_CONT][ROW_CONT];
u8 str[FILE_CONT];
u8 is_illegality = 0;
u8* p_file;
u16 root_addr;
root_addr = 0;
m = 0;
j = 0;
//read in the config.txt if it exists
if ((p_file = SearchFile((u8*) ("CONFIG TXT"), &file_len, &root_addr))) {
memset(t_p, 0x00, CONFIG_CONT * ROW_CONT);
memcpy((u8*) gFile_con, p_file, 512);
for (k = 0; k < CONFIG_CONT; k++) {
j = 0;
for (i = m; i < strlen((char *) gFile_con); i++) {
if (gFile_con[i] == 0x0D && gFile_con[i + 1] == 0x0A)
break;
else {
if (j < ROW_CONT)
t_p[k][j++] = gFile_con[i];
m++;
}
}
t_p[k][j] = '\0';
m = i + 2;
}
for (k = 0; k < CONFIG_CONT; k++) {
if (memcmp(t_p[k], gKey_words[k], strlen(gKey_words[k])) == 0) {
flag = 0;
for (i = strlen(gKey_words[k]); i < strlen((char *) t_p[k]);
i++) {
if (t_p[k][i] >= '0' && t_p[k][i] <= '9') {
if (t_p[k][i] == '0') {
if (k == 6) {
flag = 1;
break;
} else {
flag = 0;
break;
}
}
flag = 1;
break;
} else if ((t_p[k][i] != 0x20) && (t_p[k][i] != 0x3d)) {
flag = 0;
break;
}
}
if (flag && Cal_Val(t_p[k] + i, k, 0)) {
Set_Ver(t_p[k] + i, k);
if (k == 0)
sprintf((char *) t_p[k], "T_Standby=%d",
device_info.t_standby / 10);
else if (k == 1)
sprintf((char *) t_p[k], "T_Work=%d",
device_info.t_work / 10);
else if (k == 2)
sprintf((char *) t_p[k], "Wait_Time=%ld",
device_info.wait_time / 100);
else if (k == 3)
sprintf((char *) t_p[k], "Idle_Time=%ld",
device_info.idle_time / 100);
else if (k == 4)
sprintf((char *) t_p[k], "T_Step=%d",
device_info.t_step / 10);
else if (k == 5)
sprintf((char *) t_p[k], "Turn_Off_v=%ld",
gTurn_offv / 10);
else if (k == 6)
sprintf((char *) t_p[k], "TempShowFlag=%d",
Get_TemperatureShowFlag());
else if (k == 7)
sprintf((char *) t_p[k], "ZeroP_Ad=%ld", gZerop_ad);
} else {
memset(t_p[k], 0, strlen((char *) t_p[k]));
memcpy(t_p[k], gDef_set[k], strlen((char *) gDef_set[k]));
is_illegality = 1;
}
} else {
memcpy(t_p[k], gDef_set[k], strlen((char *) gDef_set[k]));
is_illegality = 1;
}
}
if (is_illegality || gCalib_flag) {
memset(str, 0x00, FILE_CONT);
m = 0;
for (k = 0; k < CONFIG_CONT; k++) {
strcat((char *) str, (char *) t_p[k]);
strcat((char *) str, (char *) gSet_range[k]);
}
m = strlen((char *) str);
if (m < 256) {
gDisk_buff[0x400 + root_addr * 32 + 0x1C] = m; //strlen((char *)str);
gDisk_buff[0x400 + root_addr * 32 + 0x1D] = 0;
} else {
gDisk_buff[0x400 + root_addr * 32 + 0x1C] = m % 256;
gDisk_buff[0x400 + root_addr * 32 + 0x1D] = m / 256;
}
gRewriteflag[(p_file - ROOT_SECTOR + 0x200) / 0x400] = 1;
memcpy(p_file, str, strlen((char *) str));
ReWriteFlsash();
}
} else {
if ((p_file = SearchFile("LOGOIN BMP", &file_len, &root_addr))) {
memcpy(str, p_file, 254);
memset(gDisk_buff, 0x00, 0x2600);
memcpy(ROOT_SECTOR + 32, "LOGOIN BMP", 0xC);
memcpy(FILE_SECTOR + 512, str, 254);
gDisk_buff[0x40B + 32] = 0x0; //<2F><><EFBFBD><EFBFBD>
*(u32*) (VOLUME_BASE + 32) = VOLUME;
gDisk_buff[0x41A + 32] = 0x03; //<2F>غ<EFBFBD>
gDisk_buff[0x41C + 32] = 254; //<2F>ļ<EFBFBD><C4BC><EFBFBD>С
} else {
memset(gDisk_buff, 0x00, 0x2600);
}
memcpy(ROOT_SECTOR, "CONFIG TXT", 0xC);
memcpy(FAT1_SECTOR, gFat_data, 6);
memcpy(FAT2_SECTOR, gFat_data, 6);
m = 0;
for (k = 0; k < CONFIG_CONT; k++) {
memcpy(FILE_SECTOR + m, gDef_set[k], strlen((char *) gDef_set[k]));
m += strlen((char *) gDef_set[k]);
memcpy(FILE_SECTOR + m, gSet_range[k],
strlen((char *) gSet_range[k]));
m += strlen((char *) gSet_range[k]);
}
gDisk_buff[0x40B] = 0x0;
*(u32*) VOLUME_BASE = VOLUME;
gDisk_buff[0x41A] = 0x02;
gDisk_buff[0x41C] = m;
ReWrite_All();
}
gVar[F_TYPE] = HEX;
gVar[F_FLAG] = RDY;
gVar[SEG_ST] = 0;
gV32[OFFSET] = 0;
gV32[COUNT] = 0;
gV32[WR_CNT] = 0;
gV32[RD_CNT] = 0;
return 0;
}
/*******************************************************************************
Function: Disk_SecWrite
Description:
Inputs:
*******************************************************************************/
void Disk_SecWrite(u8* pbuffer, u32 diskaddr) {
u32 i, j, k, m, flag;
u8 t_p[CONFIG_CONT][ROW_CONT];
u8 str[FILE_CONT];
u8 ver[20];
static u16 Config_flag = 0;
if (diskaddr == 0x1000) { // Write FAT1 sector
if (memcmp(pbuffer, (u8*) FAT1_SECTOR, 512)) { //check different
memcpy((u8*) FAT1_SECTOR, pbuffer, 512);
gRewriteflag[0] = 1;
}
} else if (diskaddr == 0x2800) { // Write FAT2 sector
if (memcmp(pbuffer, (u8*) FAT2_SECTOR, 512)) { //check different
memcpy((u8*) FAT2_SECTOR, pbuffer, 512);
gRewriteflag[0] = 1;
}
} else if (diskaddr == 0x4000) { // Write DIR sector
if (memcmp(pbuffer, (u8*) ROOT_SECTOR, 512)) { //check different
memcpy((u8*) ROOT_SECTOR, pbuffer, 512);
gRewriteflag[1] = 1;
for (i = 0; i < 16; i++) {
memcpy((u8*) ver, (u8*) (pbuffer), 12); //copy the filename out for comparison
if (memcmp(ver, "CONFIG TXT", 11) == 0) { //if file name matches
Config_flag = pbuffer[0x1A];
break;
}
pbuffer += 32; //move to the next chunk of the pbuffer
}
}
} else if (diskaddr >= 0x8000 && diskaddr <= 0xA000) { // Write FILE sector
if (memcmp(pbuffer, (u8*) (FILE_SECTOR + (diskaddr - 0x8000)), 512)) { //check if different
memcpy((u8*) (FILE_SECTOR + (diskaddr - 0x8000)), pbuffer, 512);
}
if ((((diskaddr - 0x8000) / 0x200) + 2) == Config_flag) {
m = 0;
memset(t_p, 0x00, CONFIG_CONT * ROW_CONT);
memcpy((u8*) (gFile_con), pbuffer, 512);
for (k = 0; k < CONFIG_CONT; k++) { //
j = 0;
for (i = m; i < strlen((char *) gFile_con); i++) { //
if (gFile_con[i] == 0x0D && gFile_con[i + 1] == 0x0A)
break;
else {
if (j < ROW_CONT)
t_p[k][j++] = gFile_con[i];
m++;
}
}
t_p[k][j] = '\0';
m = i + 2;
}
for (k = 0; k < CONFIG_CONT; k++) {
if (memcmp(t_p[k], gKey_words[k], strlen(gKey_words[k])) == 0) {
flag = 0;
for (i = strlen(gKey_words[k]); i < strlen((char *) t_p[k]);
i++) {
if (t_p[k][i] >= '0' && t_p[k][i] <= '9') {
if (t_p[k][i] == '0') {
if (k == 6) {
flag = 1;
break;
} else {
flag = 0;
break;
}
}
flag = 1;
break;
} else if ((t_p[k][i] != 0x20) && (t_p[k][i] != 0x3d)) {
flag = 0;
break;
}
}
if ((!flag) || (!Cal_Val(t_p[k] + i, k, 1))) {
return;
} else {
Set_Ver(t_p[k] + i, k);
memset(t_p[k], 0, strlen((char *) t_p[k]));
if (k == 0)
sprintf((char *) t_p[k], "T_Standby=%d",
device_info.t_standby / 10);
else if (k == 1)
sprintf((char *) t_p[k], "T_Work=%d",
device_info.t_work / 10);
else if (k == 2)
sprintf((char *) t_p[k], "Wait_Time=%ld",
device_info.wait_time / 100);
else if (k == 3)
sprintf((char *) t_p[k], "Idle_Time=%ld",
device_info.idle_time / 100);
else if (k == 4)
sprintf((char *) t_p[k], "T_Step=%d",
device_info.t_step / 10);
else if (k == 5)
sprintf((char *) t_p[k], "Turn_Off_v=%ld",
gTurn_offv / 10);
else if (k == 6)
sprintf((char *) t_p[k], "TempShowFlag=%d",
Get_TemperatureShowFlag());
else if (k == 7)
sprintf((char *) t_p[k], "ZeroP_Ad=%ld", gZerop_ad);
}
} else {
memcpy(t_p[k], gDef_set[k], strlen((char *) gDef_set[k]));
return;
}
}
memset(str, 0, FILE_CONT);
for (k = 0; k < CONFIG_CONT; k++) {
strcat((char *) str, (char *) t_p[k]);
strcat((char *) str, (char *) gSet_range[k]);
}
m = strlen((char *) str);
gDisk_buff[0x400 + (Config_flag - 2) * 32 + 0x1C] = m % 256;
gDisk_buff[0x400 + (Config_flag - 2) * 32 + 0x1D] = m / 256;
memcpy((u8*) (FILE_SECTOR), (u8*) str, 512);
gRewriteflag[1] = 1;
gRewriteflag[((diskaddr - 0x8000 + 0x200) / 0x400) + 1] = 1;
ReWriteFlsash();
return;
}
gRewriteflag[1] = 1;
gRewriteflag[((diskaddr - 0x8000 + 0x200) / 0x400) + 1] = 1;
ReWriteFlsash();
}
ReWriteFlsash();
}
/*******************************************************************************
Function: Disk_SecRead
Description: Reads a sector from the virtual disk
*******************************************************************************/
void Disk_SecRead(u8* pbuffer, u32 disk_addr) {
Soft_Delay();
if (disk_addr == 0x0000) { // Read BOOT sector
memcpy(pbuffer, BOOT_SEC, 512);
} else if (disk_addr == 0x1000) { // Read FAT1 sector
memcpy(pbuffer, FAT1_SECTOR, 512);
} else if (disk_addr == 0x2800) { // Read FAT2 sector
memcpy(pbuffer, FAT2_SECTOR, 512);
} else if (disk_addr == 0x4000) { // Read DIR sector
memcpy(pbuffer, (u8*) (ROOT_SECTOR), 512);
} else if (disk_addr >= 0x8000 && disk_addr <= 0xA000) { // Read FILE sector
memcpy(pbuffer, (u8*) (APP_BASE + 0x600 + (disk_addr - 0x8000)), 512);
} else {
memset(pbuffer, 0, 512); //unknown, return 0's
}
}
/*******************************************************************************
Function:ReWriteFlsash
Description:
Output:RDY(all good) or ERR (error)
*******************************************************************************/
u8 ReWriteFlsash(void) {
u32 i, j;
u8 result;
u16 *f_buff;
FLASH_Unlock();
for (i = 0; i < 16; i++) {
if (gRewriteflag[i]) {
gRewriteflag[i] = 0;
FLASH_Erase(APP_BASE + i * 0x400);
f_buff = (u16*) &gDisk_buff[i * 0x400];
for (j = 0; j < 0x400; j += 2) { //Loop through the 1k block
result = FLASH_Prog((u32) (APP_BASE + i * 0x400 + j), //program each 16 bit block
*f_buff++);
if (result != FLASH_COMPLETE) { //something went wrong
FLASH_Lock(); //make sure the flash is locked again
return ERR; //return ERR
}
}
break;
}
}
FLASH_Lock();
return RDY;
}
/*******************************************************************************
Function: ReWrite_All
Description:
Output:
*******************************************************************************/
u8 ReWrite_All(void) {
u16 i;
u8 result;
u16 *f_buff = (u16*) gDisk_buff;
FLASH_Unlock();
for (i = 0; i < 9; i++)
FLASH_Erase(APP_BASE + i * 0x400);
for (i = 0; i < 0X2600; i += 2) {
result = FLASH_Prog((u32) (APP_BASE + i), *f_buff++);
if (result != FLASH_COMPLETE)
return ERR;
}
FLASH_Lock();
return RDY;
}
/*******************************************************************************
Function:Erase
Description: Erase the first 9k from APP_BASE
*******************************************************************************/
void Erase(void) {
u16 i;
FLASH_Unlock(); //unlock the mcu flash controller
for (i = 0; i < 9; i++)
FLASH_Erase(APP_BASE + i * 0x400); //erase the flash
FLASH_Lock();
}
/*******************************************************************************
Function: Read_Memory
Description:
*******************************************************************************/
void Read_Memory(u32 r_offset, u32 r_length) {
static u32 offset, length, block_offset;
if (gVar[USB_ST] == TXFR_IDLE) {
offset = r_offset * SECTOR_SIZE;
length = r_length * SECTOR_SIZE;
gVar[USB_ST] = TXFR_ONGOING;
}
if (gVar[USB_ST] == TXFR_ONGOING) {
if (!gV32[RD_CNT]) {
Disk_SecRead(gBuff, offset);
UserToPMABufferCopy(gBuff, ENDP1_TXADDR, BULK_MAX_PACKET_SIZE);
gV32[RD_CNT] = SECTOR_SIZE - BULK_MAX_PACKET_SIZE;
block_offset = BULK_MAX_PACKET_SIZE;
} else {
UserToPMABufferCopy(gBuff + block_offset, ENDP1_TXADDR,
BULK_MAX_PACKET_SIZE);
gV32[RD_CNT] -= BULK_MAX_PACKET_SIZE;
block_offset += BULK_MAX_PACKET_SIZE;
}
SetEPTxCount(ENDP1, BULK_MAX_PACKET_SIZE);
SetEPTxStatus(ENDP1, EP_TX_VALID);
offset += BULK_MAX_PACKET_SIZE;
length -= BULK_MAX_PACKET_SIZE;
CSW.dDataResidue -= BULK_MAX_PACKET_SIZE;
}
if (length == 0) {
gV32[RD_CNT] = 0;
block_offset = 0;
offset = 0;
Bot_State = BOT_DATA_IN_LAST;
gVar[USB_ST] = TXFR_IDLE;
}
}
/*******************************************************************************
Function: Write_Memory
Description:
*******************************************************************************/
void Write_Memory(u32 w_offset, u32 w_length) {
static u32 offset, length;
u32 idx, temp = gV32[WR_CNT] + 64;
if (gVar[USB_ST] == TXFR_IDLE) {
offset = w_offset * SECTOR_SIZE;
length = w_length * SECTOR_SIZE;
gVar[USB_ST] = TXFR_ONGOING;
}
if (gVar[USB_ST] == TXFR_ONGOING) {
for (idx = 0; gV32[WR_CNT] < temp; gV32[WR_CNT]++)
*(u8 *) (gBuff + gV32[WR_CNT]) = Bulk_Buff[idx++];
offset += Data_Len;
length -= Data_Len;
if (!(length % SECTOR_SIZE)) {
gV32[WR_CNT] = 0;
Disk_SecWrite(gBuff, offset - SECTOR_SIZE);
}
CSW.dDataResidue -= Data_Len;
SetEPRxStatus(ENDP2, EP_RX_VALID); /* enable the next transaction*/
}
if ((length == 0) || (Bot_State == BOT_CSW_Send)) {
gV32[WR_CNT] = 0;
Set_CSW(CSW_CMD_PASSED, SEND_CSW_ENABLE);
gVar[USB_ST] = TXFR_IDLE;
}
}
/********************************* END OF FILE ******************************/

198
workspace/ts100/src/Ext_Flash.c
View File

@@ -1,198 +0,0 @@
/********************* (C) COPYRIGHT 2015 e-Design Co.,Ltd. ********************
File Name : EXT_Flash.c
Version : S100 APP Ver 2.11
Description:
Author : bure
Data:
History:
*******************************************************************************/
#include <string.h>
#include <stdio.h>
#include "Ext_Flash.h"
#include "Bios.h"
#define OK 0 // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
#define SEC_ERR 1 // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>д<EFBFBD><D0B4><EFBFBD><EFBFBD>
#define TMAX 100000 // <20><>ʱ<EFBFBD><CAB1><EFBFBD><EFBFBD>
u32 Mass_Memory_Size;
u32 Mass_Block_Size;
u32 Mass_Block_Count;
u32 Tout;
u8 flash_mode;
void ExtFLASH_SectorErase(u32 SectorAddr);
/*******************************************************************************
SPI_FLASH_SectorErase : Sector Erases the specified FLASH Page.(4k/sector)
*******************************************************************************/
void ExtFLASH_SectorErase(u32 SectorAddr)
{
ExtFlash_WriteEnable();
ExtFlash_CS_LOW();
ExtFlash_SendByte(SE);
ExtFlash_SendByte((SectorAddr & 0xFF0000) >> 16); //Send high address byte
ExtFlash_SendByte((SectorAddr & 0xFF00) >> 8); //Send medium address byte
ExtFlash_SendByte(SectorAddr & 0xFF); //Send low address byte
ExtFlash_CS_HIGH();
ExtFlash_WaitForWriteEnd(); // Wait the end of Flash writing
}
void ExtFlash_PageWR(u8* pBuffer, u32 WriteAddr)
{
u32 addr,i,j;
u8* ptr;
u8 page=0,flag=0,write_mode;
u8 buffer[256];
flag=0;
if(flash_mode==FLASH_8M) {
addr=WriteAddr & 0xFFF000;
page=16;
} else {
page=1;
addr=WriteAddr & 0xFFFF00;
}
while(page>0) {
ExtFlash_PageRD((u8*)&buffer,addr, 256);
for(j=0; j<255; j++) {
if(buffer[j++]!=0xff) {
flag=1;
break;
}
}
addr+=256;
page--;
}
if(flash_mode==FLASH_8M) {
page=16;
addr=WriteAddr & 0xFFF000;
if(flag==1)ExtFLASH_SectorErase(addr);
write_mode=PP;
} else {
page=1;
addr=WriteAddr & 0xFFFF00;
if(flag==1)write_mode=PW;
else write_mode=PP;
}
ptr=pBuffer;
for(i=0; i<page; i++) {
ExtFlash_PageProg(ptr, addr,write_mode);
addr+=256;
ptr+=256;
}
}
/*******************************************************************************
дFLASHҳ(256 Bytes)<29><> Mode=0: <20><>0<EFBFBD><30>1<EFBFBD><31><EFBFBD>ݸ<EFBFBD>д Mode=1: <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>д
*******************************************************************************/
void ExtFlash_PageProg(u8* pBuffer, u32 WriteAddr,u8 CMD)
{
u16 Lenght = 256;
ExtFlash_CS_HIGH();
ExtFlash_WaitForWriteEnd();
ExtFlash_WriteEnable();
ExtFlash_CS_LOW();
ExtFlash_SendByte(CMD);
ExtFlash_SendByte((WriteAddr & 0xFF0000) >> 16);
ExtFlash_SendByte((WriteAddr & 0xFF00) >> 8);
ExtFlash_SendByte(WriteAddr & 0xFF);
while(Lenght--) { // while there is data to be written on the FLASH
ExtFlash_SendByte((*pBuffer));
pBuffer++;
}
ExtFlash_CS_HIGH();
ExtFlash_WaitForWriteEnd();
}
/*******************************************************************************
SPI_FLASH_BufferRead
*******************************************************************************/
void ExtFlash_PageRD(u8* pBuffer, u32 ReadAddr, u16 Lenght)
{
ExtFlash_CS_HIGH();
ExtFlash_WaitForWriteEnd();
ExtFlash_CS_LOW();
ExtFlash_SendByte(READ);
ExtFlash_SendByte((ReadAddr & 0xFF0000) >> 16);
ExtFlash_SendByte((ReadAddr& 0xFF00) >> 8);
ExtFlash_SendByte(ReadAddr & 0xFF);
while(Lenght--) { // while there is data to be read
*pBuffer = (ExtFlash_SendByte(Dummy_Byte));
pBuffer++;
}
ExtFlash_CS_HIGH();
}
/*******************************************************************************
SPI_FLASH_ReadByte
*******************************************************************************/
u8 ExtFlash_ReadByte(void)
{
return (ExtFlash_SendByte(Dummy_Byte));
}
/*******************************************************************************
SPI_FLASH_SendByte
*******************************************************************************/
u8 ExtFlash_SendByte(u8 byte)
{
Tout = 0;
while(SPI_I2S_GetFlagStatus(SPI3, SPI_I2S_FLAG_TXE) == RESET) {
if(Tout++ > TMAX) return 255;
}
SPI_I2S_SendData(SPI3, byte);
Tout = 0;
while(SPI_I2S_GetFlagStatus(SPI3, SPI_I2S_FLAG_RXNE) == RESET) {
if(Tout++ > TMAX) return 255;
}
return SPI_I2S_ReceiveData(SPI3);
}
/*******************************************************************************
SPI_FLASH_WriteEnable
*******************************************************************************/
void ExtFlash_WriteEnable(void)
{
ExtFlash_CS_LOW();
ExtFlash_SendByte(WREN);
ExtFlash_CS_HIGH();
}
/*******************************************************************************
SPI_FLASH_WaitForWriteEnd
*******************************************************************************/
void ExtFlash_WaitForWriteEnd(void)
{
u8 FLASH_Status = 0;
ExtFlash_CS_LOW();
ExtFlash_SendByte(RDSR);
Tout = 0;
do {
FLASH_Status = ExtFlash_SendByte(Dummy_Byte);
if(Tout++ > TMAX) return;
} while((FLASH_Status & WIP_Flag) == SET); // Write in progress
ExtFlash_CS_HIGH();
}
/*******************************************************************************
MAL_GetStatus
*******************************************************************************/
void MAL_GetStatus (void)
{
if(flash_mode==FLASH_8M) {
Mass_Block_Count = 2048; //FLASH_SIZE/FLASH_PAGE_SIZE;
Mass_Block_Size = 512*8; //FLASH_PAGE_SIZE; 4096
Mass_Memory_Size = 512*4096*4 ; //FLASH_SIZE; 0x800000;
} else {
Mass_Block_Count = 4096; //FLASH_SIZE/FLASH_PAGE_SIZE; 4096
Mass_Block_Size = 512; //FLASH_PAGE_SIZE;
Mass_Memory_Size = 512*4096 ; //FLASH_SIZE; 0x200000;
}
}
/********************************* END OF FILE ******************************/

4
workspace/ts100/src/Interrupt.c
View File

@@ -2,7 +2,7 @@
/* Brief : Interrupt Service Routines Author : bure */
/******************************************************************************/
#include "Interrupt.h"
#include "usb_istr.h"
#include "Bios.h"
#include "I2C.h"
@@ -54,7 +54,7 @@ void SysTick_Handler(void) {
/******************************************************************************/
void USB_LP_CAN1_RX0_IRQHandler(void) {
USB_Istr();
}
void TIM2_IRQHandler(void) {
TIM2_ISR();

30
workspace/ts100/src/Main.c
View File

@@ -11,9 +11,8 @@
#include <string.h>
#include <stdio.h>
#include "APP_Version.h"
#include "Disk.h"
#include "Bios.h"
#include "usb_lib.h"
#include "I2C.h"
#include "Flash.h"
#include "MMA8652FC.h"
@@ -23,32 +22,27 @@
#include "Hardware.h"
int main(void) {
RCC_Config(); //setup system clock
NVIC_Config(0x4000);
//NVIC_Config(0x4000);
NVIC_Config(0x0000);
Init_Timer2(); //init the timers
Init_Timer3();
GPIO_Config();//setup all the GPIO pins
USB_Port(DISABLE);//disable the USB hardware
Delay_Ms(200);//pause to let hardware stabilize
USB_Port(ENABLE);//enable the USB hardware
USB_Init();
GPIO_Config(); //setup all the GPIO pins
Init_Timer3();
I2C_Configuration(); //init the i2c bus
Adc_Init(); //init adc and dma
if (Get_CtrlStatus() != CONFIG)
StartUp_Accelerated();//start the accelerometer if not in config mode
StartUp_Accelerated(); //start the accelerometer if not in config mode
System_Init();//load known safe values
Init_Oled();//init the OLED display
Clear_Screen();//clear the display buffer to black
Init_Gtime();//init the count down timers
APP_Init();//pick operating mode via input voltage
System_Init(); //load known safe values
Init_Oled(); //init the OLED display
Clear_Screen(); //clear the display buffer to black
Init_Gtime(); //init the count down timers
APP_Init(); //pick operating mode via input voltage
Disk_BuffInit();//fill the buffer for the virtual disk
Config_Analysis(); //read in config from virtual disk
Pid_Init(); //init the pid to starting values
Set_gKey(NO_KEY); //reset keys to all off
Start_Watchdog(3000);//start the system watchdog as 3 seconds
Start_Watchdog(3000); //start the system watchdog as 3 seconds
while (1) {
Clear_Watchdog(); //reset the Watchdog

2
workspace/ts100/src/Oled.c
View File

@@ -15,7 +15,7 @@
#include "Bios.h"
#include "I2C.h"
#include "Hardware.h"
#include "Disk.h"
#include "UI.h"

14
workspace/ts100/src/UI.c
View File

@@ -17,7 +17,7 @@
#include "Bios.h"
#include "Oled.h"
#include "Hardware.h"
#include "Disk.h"
#include "MMA8652FC.h"
/******************************************************************************/
u8 gTemp_array[16 * 16 + 16];
@@ -143,20 +143,20 @@ void Display_Temp(u8 x, s16 temp) {
}
/*******************************************************************************
Function:
Description:
Description: Shows the press the button to start screen
*******************************************************************************/
void Show_Notice(void) {
int j, k;
static u8* ptr0;
static u8 posi = 0, i = 0;
if (i == 0) { //1
//This draws the soldering iron logo to prompt the user to press the button to wake
if (i == 0) { //1 Button up
ptr0 = Oled_DrawArea(0, 0, 96, 16, (u8*) Maplib);
} else if (i == 1) { //2
} else if (i == 1) { //2 Button down
ptr0 = Oled_DrawArea(0, 0, 96, 16, ptr0);
} else if (i == 2) { //3
} else if (i == 2) { //3 Button up
ptr0 = Oled_DrawArea(0, 0, 96, 16, (u8*) Maplib);
} else if (i == 3) { //4
} else if (i == 3) { //4 Draw sliding text in
for (j = 0; j < 6; j++) {
k = 84;
while (k >= posi) {

269
workspace/ts100/src/usb_bot.c
View File

@@ -1,269 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_bot.c
Version : STM32_USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#include "usb_scsi.h"
#include "usb_regs.h"
#include "usb_mem.h"
#include "usb_conf.h"
#include "usb_bot.h"
#include "usb_prop.h"
u8 Bot_State;
u8 Bulk_Buff[BULK_MAX_PACKET_SIZE]; // Data_ data buffer
u16 Data_Len;
Bulk_Only_CBW CBW;
Bulk_Only_CSW CSW;
u32 SCSI_LBA , SCSI_BlkLen;
/*******************************************************************************
Mass_Storage_In: Mass Storage IN transfer.
*******************************************************************************/
void Mass_Storage_In (void)
{
switch (Bot_State)
{
case BOT_CSW_Send:
case BOT_ERROR:
Bot_State = BOT_IDLE;
SetEPRxStatus(ENDP2, EP_RX_VALID);/* enable the Endpoint to receive the next cmd*/
break;
case BOT_DATA_IN:
switch (CBW.CB[0])
{
case SCSI_READ10:
SCSI_Read10_Cmd(SCSI_LBA , SCSI_BlkLen);
break;
}
break;
case BOT_DATA_IN_LAST:
Set_CSW (CSW_CMD_PASSED, SEND_CSW_ENABLE);
SetEPRxStatus(ENDP2, EP_RX_VALID);
break;
default:
break;
}
}
/*******************************************************************************
Mass_Storage_Out: Mass Storage OUT transfer.
*******************************************************************************/
void Mass_Storage_Out (void)
{
u8 CMD;
CMD = CBW.CB[0];
Data_Len = GetEPRxCount(ENDP2);
PMAToUserBufferCopy(Bulk_Buff, ENDP2_RXADDR, Data_Len);
switch (Bot_State)
{
case BOT_IDLE:
CBW_Decode();
break;
case BOT_DATA_OUT:
if (CMD == SCSI_WRITE10)
{
SCSI_Write10_Cmd(SCSI_LBA , SCSI_BlkLen);
break;
}
Bot_Abort(DIR_OUT);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_PHASE_ERROR, SEND_CSW_DISABLE);
break;
default:
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_PHASE_ERROR, SEND_CSW_DISABLE);
break;
}
}
/*******************************************************************************
CBW_Decode: Decode the received CBW and call the related SCSI command
*******************************************************************************/
void CBW_Decode(void)
{
u32 Counter;
for (Counter = 0; Counter < Data_Len; Counter++)
{
*((u8 *)&CBW + Counter) = Bulk_Buff[Counter];
}
CSW.dTag = CBW.dTag;
CSW.dDataResidue = CBW.dDataLength;
if (Data_Len != BOT_CBW_PACKET_LENGTH)
{
Bot_Abort(BOTH_DIR);
// reset the CBW.dSignature to desible the clear feature until receiving a Mass storage reset
CBW.dSignature = 0;
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, PARAMETER_LIST_LENGTH_ERROR);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
return;
}
if ((CBW.CB[0] == SCSI_READ10 ) || (CBW.CB[0] == SCSI_WRITE10 ))
{
// Calculate Logical Block Address
SCSI_LBA = (CBW.CB[2] << 24) | (CBW.CB[3] << 16) | (CBW.CB[4] << 8) | CBW.CB[5];
// Calculate the Number of Blocks to transfer
SCSI_BlkLen = (CBW.CB[7] << 8) | CBW.CB[8];
}
if (CBW.dSignature == BOT_CBW_SIGNATURE)
{
// Valid CBW
if ((CBW.bLUN > Max_Lun) || (CBW.bCBLength < 1) || (CBW.bCBLength > 16))
{
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
}
else
{
switch (CBW.CB[0])
{
case SCSI_REQUEST_SENSE:
SCSI_RequestSense_Cmd ();
break;
case SCSI_INQUIRY:
SCSI_Inquiry_Cmd();
break;
case SCSI_START_STOP_UNIT:
SCSI_Start_Stop_Unit_Cmd();
break;
case SCSI_ALLOW_MEDIUM_REMOVAL:
SCSI_Start_Stop_Unit_Cmd();
break;
case SCSI_MODE_SENSE6:
SCSI_ModeSense6_Cmd ();
break;
case SCSI_MODE_SENSE10:
SCSI_ModeSense10_Cmd ();
break;
case SCSI_READ_FORMAT_CAPACITIES:
SCSI_ReadFormatCapacity_Cmd();
break;
case SCSI_READ_CAPACITY10:
SCSI_ReadCapacity10_Cmd();
break;
case SCSI_TEST_UNIT_READY:
SCSI_TestUnitReady_Cmd();
break;
case SCSI_READ10:
SCSI_Read10_Cmd(SCSI_LBA , SCSI_BlkLen);
break;
case SCSI_WRITE10:
SCSI_Write10_Cmd(SCSI_LBA , SCSI_BlkLen);
break;
case SCSI_VERIFY10:
SCSI_Verify10_Cmd();
break;
//Unsupported command
case SCSI_MODE_SELECT10:
SCSI_Mode_Select10_Cmd();
break;
case SCSI_MODE_SELECT6:
SCSI_Mode_Select6_Cmd();
break;
case SCSI_SEND_DIAGNOSTIC:
SCSI_Send_Diagnostic_Cmd();
break;
case SCSI_READ6:
SCSI_Read6_Cmd();
break;
case SCSI_READ12:
SCSI_Read12_Cmd();
break;
case SCSI_READ16:
SCSI_Read16_Cmd();
break;
case SCSI_READ_CAPACITY16:
SCSI_READ_CAPACITY16_Cmd();
break;
case SCSI_WRITE6:
SCSI_Write6_Cmd();
break;
case SCSI_WRITE12:
SCSI_Write12_Cmd();
break;
case SCSI_WRITE16:
SCSI_Write16_Cmd();
break;
case SCSI_VERIFY12:
SCSI_Verify12_Cmd();
break;
case SCSI_VERIFY16:
SCSI_Verify16_Cmd();
break;
default:
{
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
}
}
}
}
else
{
// Invalid CBW
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
}
}
/*******************************************************************************
Transfer_Data_Request: Send the request response to the PC HOST.
Input : u8* Data_Address : point to the data to transfer.
u16 Data_Length : the nember of Bytes to transfer.
*******************************************************************************/
void Transfer_Data_Request(u8* Data_Pointer, u16 Data_Len)
{
UserToPMABufferCopy(Data_Pointer, ENDP1_TXADDR, Data_Len);
SetEPTxCount(ENDP1, Data_Len);
SetEPTxStatus(ENDP1, EP_TX_VALID);
Bot_State = BOT_DATA_IN_LAST;
CSW.dDataResidue -= Data_Len;
CSW.bStatus = CSW_CMD_PASSED;
}
/*******************************************************************************
Set_CSW: Set the SCW with the needed fields.
Input : u8 CSW_Status this filed can be CSW_CMD_PASSED,CSW_CMD_FAILED,
or CSW_PHASE_ERROR.
*******************************************************************************/
void Set_CSW (u8 CSW_Status, u8 Send_Permission)
{
CSW.dSignature = BOT_CSW_SIGNATURE;
CSW.bStatus = CSW_Status;
UserToPMABufferCopy(((u8 *)& CSW), ENDP1_TXADDR, CSW_DATA_LENGTH);
SetEPTxCount(ENDP1, CSW_DATA_LENGTH);
Bot_State = BOT_ERROR;
if (Send_Permission){
Bot_State = BOT_CSW_Send;
SetEPTxStatus(ENDP1, EP_TX_VALID);
}
}
/*******************************************************************************
Bot_Abort: Stall the needed Endpoint according to the selected direction.
Input : Endpoint direction IN, OUT or both directions
*******************************************************************************/
void Bot_Abort(u8 Direction)
{
switch (Direction){
case DIR_IN :
SetEPTxStatus(ENDP1, EP_TX_STALL);
break;
case DIR_OUT :
SetEPRxStatus(ENDP2, EP_RX_STALL);
break;
case BOTH_DIR :
SetEPTxStatus(ENDP1, EP_TX_STALL);
SetEPRxStatus(ENDP2, EP_RX_STALL);
break;
default:
break;
}
}
/********************************* END OF FILE ******************************/

109
workspace/ts100/src/usb_desc.c
View File

@@ -1,109 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_desc.c
Version : STM32_USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#include "usb_desc.h"
const u8 MASS_DeviceDescriptor[MASS_SIZ_DEVICE_DESC] ={
0x12, /* bLength */
0x01, /* bDescriptorType */
0x00, /* bcdUSB, version 2.00 */
0x02,
0x00, /* bDeviceClass : each interface define the device class */
0x00, /* bDeviceSubClass */
0x00, /* bDeviceProtocol */
0x40, /* bMaxPacketSize0 0x40 = 64 */
0x83, /* idVendor (0483) */
0x04,
0x20, /* idProduct */
0x57,
0x00, /* bcdDevice 2.00*/
0x02,
1, /* index of string Manufacturer */
/**/
2, /* index of string descriptor of product*/
/* */
3, /* */
/* */
/* */
0x01 /*bNumConfigurations */
};
const u8 MASS_ConfigDescriptor[MASS_SIZ_CONFIG_DESC] ={
0x09, /* bLength: Configuation Descriptor size */
0x02, /* bDescriptorType: Configuration */
MASS_SIZ_CONFIG_DESC,
0x00,
0x01, /* bNumInterfaces: 1 interface */
0x01, /* bConfigurationValue: */
/* Configuration value */
0x00, /* iConfiguration: */
/* Index of string descriptor */
/* describing the configuration */
0xC0, /* bmAttributes: */
/* bus powered */
0x32, /* MaxPower 100 mA */
/******************** Descriptor of Mass Storage interface ********************/
/* 09 */
0x09, /* bLength: Interface Descriptor size */
0x04, /* bDescriptorType: */
/* Interface descriptor type */
0x00, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x02, /* bNumEndpoints*/
0x08, /* bInterfaceClass: MASS STORAGE Class */
0x06, /* bInterfaceSubClass : SCSI transparent*/
0x50, /* nInterfaceProtocol */
4, /* iInterface: */
/* 18 */
0x07, /*Endpoint descriptor length = 7*/
0x05, /*Endpoint descriptor type */
0x81, /*Endpoint address (IN, address 1) */
0x02, /*Bulk endpoint type */
0x40, /*Maximum packet size (64 bytes) */
0x00,
0x00, /*Polling interval in milliseconds */
/* 25 */
0x07, /*Endpoint descriptor length = 7 */
0x05, /*Endpoint descriptor type */
0x02, /*Endpoint address (OUT, address 2) */
0x02, /*Bulk endpoint type */
0x40, /*Maximum packet size (64 bytes) */
0x00,
0x00 /*Polling interval in milliseconds*/
/*32*/
};
const u8 MASS_StringLangID[MASS_SIZ_STRING_LANGID] ={
MASS_SIZ_STRING_LANGID,
0x03,
0x09,
0x04
}; // LangID = 0x0409: U.S. English //
const u8 MASS_StringVendor[MASS_SIZ_STRING_VENDOR] ={
MASS_SIZ_STRING_VENDOR, // Size of manufaturer string //
0x03, // bDescriptorType = String descriptor //
// Manufacturer: "STMicroelectronics" //
'S', 0, 'T', 0, 'M', 0, 'i', 0, 'c', 0, 'r', 0, 'o', 0, 'e', 0,
'l', 0, 'e', 0, 'c', 0, 't', 0, 'r', 0, 'o', 0, 'n', 0, 'i', 0,
'c', 0, 's', 0
};
const u8 MASS_StringProduct[MASS_SIZ_STRING_PRODUCT] ={
MASS_SIZ_STRING_PRODUCT,
0x03,
// Product name: "STM32F10x:USB Mass Storage" //
'S', 0, 'T', 0, 'M', 0, '3', 0, '2', 0, ' ', 0, 'M', 0, 'a', 0, 's', 0,
's', 0, ' ', 0, 'S', 0, 't', 0, 'o', 0, 'r', 0, 'a', 0, 'g', 0, 'e', 0
};
u8 MASS_StringSerial[MASS_SIZ_STRING_SERIAL] ={
MASS_SIZ_STRING_SERIAL,
0x03,
// Serial number//
'S', 0, 'T', 0, 'M', 0, '3', 0, '2', 0, '1', 0, '0', 0
};
const u8 MASS_StringInterface[MASS_SIZ_STRING_INTERFACE] ={
MASS_SIZ_STRING_INTERFACE,
0x03,
// Interface 0: "ST Mass" //
'S', 0, 'T', 0, ' ', 0, 'M', 0, 'a', 0, 's', 0, 's', 0
};
/********************************* END OF FILE ******************************/

138
workspace/ts100/src/usb_istr.c
View File

@@ -1,138 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_istr.c
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#include "usb_type.h"
#include "usb_regs.h"
#include "usb_pwr.h"
#include "usb_istr.h"
#include "usb_init.h"
#include "usb_int.h"
#include "usb_bot.h"
volatile u16 wIstr; /* ISTR register last read value */
volatile u8 bIntPackSOF = 0; /* SOFs received between 2 consecutive packets */
void (*pEpInt_IN[7])(void) ={
EP1_IN_Callback,
EP2_IN_Callback,
EP3_IN_Callback,
EP4_IN_Callback,
EP5_IN_Callback,
EP6_IN_Callback,
EP7_IN_Callback,
};
void (*pEpInt_OUT[7])(void) ={
EP1_OUT_Callback,
EP2_OUT_Callback,
EP3_OUT_Callback,
EP4_OUT_Callback,
EP5_OUT_Callback,
EP6_OUT_Callback,
EP7_OUT_Callback,
};
/*******************************************************************************
USB_Istr: ISTR events interrupt service routine
*******************************************************************************/
void USB_Istr(void)
{
wIstr = _GetISTR();
#if (IMR_MSK & ISTR_RESET)
if (wIstr & ISTR_RESET & wInterrupt_Mask){
// _SetISTR((u16)CLR_RESET);
Device_Property.Reset();
_SetISTR((u16)CLR_RESET);
//#ifdef RESET_CALLBACK
// RESET_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_DOVR)
if (wIstr & ISTR_DOVR & wInterrupt_Mask){
_SetISTR((u16)CLR_DOVR);
//#ifdef DOVR_CALLBACK
// DOVR_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_ERR)
if (wIstr & ISTR_ERR & wInterrupt_Mask){
_SetISTR((u16)CLR_ERR);
//#ifdef ERR_CALLBACK
// ERR_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_WKUP)
if (wIstr & ISTR_WKUP & wInterrupt_Mask){
// _SetISTR((u16)CLR_WKUP);
Resume(RESUME_EXTERNAL);
_SetISTR((u16)CLR_WKUP);
//#ifdef WKUP_CALLBACK
// WKUP_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_SUSP)
if (wIstr & ISTR_SUSP & wInterrupt_Mask){ // check if SUSPEND is possible
if (fSuspendEnabled) Suspend();
else Resume(RESUME_LATER); // if not possible then resume after xx ms
_SetISTR((u16)CLR_SUSP); // clear of the ISTR bit must be done after setting of CNTR_FSUSP
//#ifdef SUSP_CALLBACK
// SUSP_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_SOF)
if (wIstr & ISTR_SOF & wInterrupt_Mask){
_SetISTR((u16)CLR_SOF);
bIntPackSOF++;
//#ifdef SOF_CALLBACK
// SOF_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_ESOF)
if (wIstr & ISTR_ESOF & wInterrupt_Mask){
// _SetISTR((u16)CLR_ESOF); // resume handling timing is made with ESOFs
Resume(RESUME_ESOF); // request without change of the machine state
_SetISTR((u16)CLR_ESOF); // resume handling timing is made with ESOFs
//#ifdef ESOF_CALLBACK
// ESOF_Callback();
//#endif
}
#endif
//-----------------------------------------------------------------------------
#if (IMR_MSK & ISTR_CTR)
if (wIstr & ISTR_CTR & wInterrupt_Mask){
/* servicing of the endpoint correct transfer interrupt */
/* clear of the CTR flag into the sub */
CTR_LP();
//#ifdef CTR_CALLBACK
// CTR_Callback();
//#endif
}
#endif
} /* USB_Istr */
/*******************************************************************************
EP1_IN_Callback: EP1 IN Callback Routine
*******************************************************************************/
void EP1_IN_Callback(void)
{
Mass_Storage_In();
}
/*******************************************************************************
EP2_OUT_Callback: EP2 OUT Callback Routine.
*******************************************************************************/
void EP2_OUT_Callback(void)
{
Mass_Storage_Out();
}
/********************************* END OF FILE ******************************/

262
workspace/ts100/src/usb_prop.c
View File

@@ -1,262 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_prop.c
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#include "usb_desc.h"
#include "usb_pwr.h"
#include "usb_bot.h"
#include "usb_prop.h"
#include "usb_lib.h"
#include "Bios.h"
#include "APP_Version.h"
u32 Max_Lun = 0;
DEVICE Device_Table ={ EP_NUM, 1 };
DEVICE_PROP Device_Property ={
MASS_init,
MASS_Reset,
MASS_Status_In,
MASS_Status_Out,
MASS_Data_Setup,
MASS_NoData_Setup,
MASS_Get_Interface_Setting,
MASS_GetDeviceDescriptor,
MASS_GetConfigDescriptor,
MASS_GetStringDescriptor,
0,
0x40 // MAX PACKET SIZE
};
USER_STANDARD_REQUESTS User_Standard_Requests ={
Mass_Storage_GetConfiguration,
Mass_Storage_SetConfiguration,
Mass_Storage_GetInterface,
Mass_Storage_SetInterface,
Mass_Storage_GetStatus,
Mass_Storage_ClearFeature,
Mass_Storage_SetEndPointFeature,
Mass_Storage_SetDeviceFeature,
Mass_Storage_SetDeviceAddress
};
ONE_DESCRIPTOR Device_Descriptor ={
(u8*)MASS_DeviceDescriptor,
MASS_SIZ_DEVICE_DESC
};
ONE_DESCRIPTOR Config_Descriptor ={
(u8*)MASS_ConfigDescriptor,
MASS_SIZ_CONFIG_DESC
};
ONE_DESCRIPTOR String_Descriptor[5] ={
{(u8*)MASS_StringLangID, MASS_SIZ_STRING_LANGID},
{(u8*)MASS_StringVendor, MASS_SIZ_STRING_VENDOR},
{(u8*)MASS_StringProduct, MASS_SIZ_STRING_PRODUCT},
{(u8*)MASS_StringSerial, MASS_SIZ_STRING_SERIAL},
{(u8*)MASS_StringInterface, MASS_SIZ_STRING_INTERFACE},
};
/*******************************************************************************
MASS_init: Mass Storage init routine.
*******************************************************************************/
void MASS_init()
{
Get_SerialNum(); // Update the serial number string descriptor with the data from the unique ID
pInformation->Current_Configuration = 0;
PowerOn(); // Connect the device
_SetISTR(0); // USB interrupts initialization. clear pending interrupts
wInterrupt_Mask = IMR_MSK;
_SetCNTR(wInterrupt_Mask); // set interrupts mask
bDeviceState = UNCONNECTED;
}
/*******************************************************************************
MASS_Reset: Mass Storage reset routine.
*******************************************************************************/
void MASS_Reset()
{
Device_Info.Current_Configuration = 0; // Set the device as not configured
pInformation->Current_Feature = MASS_ConfigDescriptor[7]; // Current Feature initialization
SetBTABLE(BTABLE_ADDRESS);
// Initialize Endpoint 0
SetEPType(ENDP0, EP_CONTROL);
SetEPTxStatus(ENDP0, EP_TX_NAK);
SetEPRxAddr(ENDP0, ENDP0_RXADDR);
SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
SetEPTxAddr(ENDP0, ENDP0_TXADDR);
Clear_Status_Out(ENDP0);
SetEPRxValid(ENDP0);
//Initialize Endpoint 1
SetEPType(ENDP1, EP_BULK);
SetEPTxAddr(ENDP1, ENDP1_TXADDR);
SetEPTxStatus(ENDP1, EP_TX_NAK);
SetEPRxStatus(ENDP1, EP_RX_DIS);
// Initialize Endpoint 2
SetEPType(ENDP2, EP_BULK);
SetEPRxAddr(ENDP2, ENDP2_RXADDR);
SetEPRxCount(ENDP2, Device_Property.MaxPacketSize);
SetEPRxStatus(ENDP2, EP_RX_VALID);
SetEPTxStatus(ENDP2, EP_TX_DIS);
SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
SetEPRxValid(ENDP0);
// Set the device to response on default address
SetDeviceAddress(0);
bDeviceState = ATTACHED;
CBW.dSignature = BOT_CBW_SIGNATURE;
Bot_State = BOT_IDLE;
}
/*******************************************************************************
Mass_Storage_SetConfiguration: Handle the SetConfiguration request.
*******************************************************************************/
void Mass_Storage_SetConfiguration(void)
{
if (pInformation->Current_Configuration != 0){
bDeviceState = CONFIGURED; // Device configured
ClearDTOG_TX(ENDP1);
ClearDTOG_RX(ENDP2);
Bot_State = BOT_IDLE; // set the Bot state machine to the IDLE state
}
}
/*******************************************************************************
Mass_Storage_ClearFeature: Handle the ClearFeature request.
*******************************************************************************/
void Mass_Storage_ClearFeature(void)
{
/* when the host send a CBW with invalid signature or invalid length the two
Endpoints (IN & OUT) shall stall until receiving a Mass Storage Reset */
if (CBW.dSignature != BOT_CBW_SIGNATURE)
Bot_Abort(BOTH_DIR);
}
/*******************************************************************************
Mass_Storage_SetConfiguration: Udpade the device state to addressed.
*******************************************************************************/
void Mass_Storage_SetDeviceAddress (void)
{
bDeviceState = ADDRESSED;
}
/*******************************************************************************
MASS_Status_In: Mass Storage Status IN routine.
*******************************************************************************/
void MASS_Status_In(void)
{
return;
}
/*******************************************************************************
MASS_Status_Out: Mass Storage Status OUT routine.
*******************************************************************************/
void MASS_Status_Out(void)
{
return;
}
/*******************************************************************************
MASS_Data_Setup: Handle the data class specific requests.
*******************************************************************************/
RESULT MASS_Data_Setup(u8 RequestNo)
{
u8* (*CopyRoutine)(u16);
CopyRoutine = NULL;
if ((Type_Recipient == (CLASS_REQUEST | INTERFACE_RECIPIENT))
&& (RequestNo == GET_MAX_LUN) && (pInformation->USBwValue == 0)
&& (pInformation->USBwIndex == 0) && (pInformation->USBwLength == 0x01))
{
CopyRoutine = Get_Max_Lun;
} else return USB_UNSUPPORT;
if (CopyRoutine == NULL) return USB_UNSUPPORT;
pInformation->Ctrl_Info.CopyData = CopyRoutine;
pInformation->Ctrl_Info.Usb_wOffset = 0;
(*CopyRoutine)(0);
return USB_SUCCESS;
}
/*******************************************************************************
MASS_NoData_Setup: Handle the no data class specific requests.
*******************************************************************************/
RESULT MASS_NoData_Setup(u8 RequestNo)
{
if ((Type_Recipient == (CLASS_REQUEST | INTERFACE_RECIPIENT))
&& (RequestNo == MASS_STORAGE_RESET) && (pInformation->USBwValue == 0)
&& (pInformation->USBwIndex == 0) && (pInformation->USBwLength == 0x00))
{
ClearDTOG_TX(ENDP1); // Initialize Endpoint 1
ClearDTOG_RX(ENDP2); // Initialize Endpoint 2
CBW.dSignature = BOT_CBW_SIGNATURE; // intialise the CBW signature to enable the clear feature
Bot_State = BOT_IDLE;
return USB_SUCCESS;
}
return USB_UNSUPPORT;
}
/*******************************************************************************
MASS_Get_Interface_Setting: Test the interface and the alternate setting
according to the supported one.
*******************************************************************************/
RESULT MASS_Get_Interface_Setting(u8 Interface, u8 AlternateSetting)
{
if (AlternateSetting > 0) return USB_UNSUPPORT;// in this application we don't have AlternateSetting
else if (Interface > 0) return USB_UNSUPPORT; // in this application we have only 1 interfaces
return USB_SUCCESS;
}
/*******************************************************************************
MASS_GetDeviceDescriptor: Get the device descriptor.
*******************************************************************************/
u8 *MASS_GetDeviceDescriptor(u16 Length)
{
return Standard_GetDescriptorData(Length, &Device_Descriptor );
}
/*******************************************************************************
MASS_GetConfigDescriptor: Get the configuration descriptor.
*******************************************************************************/
u8 *MASS_GetConfigDescriptor(u16 Length)
{
return Standard_GetDescriptorData(Length, &Config_Descriptor );
}
/*******************************************************************************
MASS_GetStringDescriptor: Get the string descriptors according to
the needed index.
*******************************************************************************/
u8 *MASS_GetStringDescriptor(u16 Length)
{
u8 wValue0 = pInformation->USBwValue0;
if (wValue0 > 5) return NULL;
else return Standard_GetDescriptorData(Length, &String_Descriptor[wValue0]);
}
/*******************************************************************************
Get_Max_Lun: Handle the Get Max Lun request.
*******************************************************************************/
u8 *Get_Max_Lun(u16 Length)
{
if (Length == 0){
pInformation->Ctrl_Info.Usb_wLength = LUN_DATA_LENGTH;
return 0;
} else return((u8*)(&Max_Lun));
}
/*******************************************************************************
Get_SerialNum : Create the serial number string descriptor.
*******************************************************************************/
void Get_SerialNum(void)
{
u32 Device_Serial0, Device_Serial1, Device_Serial2;
Device_Serial0 = SERIAL_NO1;
Device_Serial1 = SERIAL_NO2;
Device_Serial2 = SERIAL_NO3;
if (Device_Serial0 != 0){
MASS_StringSerial[ 2] = (u8)( Device_Serial0 & 0x000000FF);
MASS_StringSerial[ 4] = (u8)((Device_Serial0 & 0x0000FF00) >> 8);
MASS_StringSerial[ 6] = (u8)((Device_Serial0 & 0x00FF0000) >> 16);
MASS_StringSerial[ 8] = (u8)((Device_Serial0 & 0xFF000000) >> 24);
MASS_StringSerial[10] = (u8)( Device_Serial1 & 0x000000FF);
MASS_StringSerial[12] = (u8)((Device_Serial1 & 0x0000FF00) >> 8);
MASS_StringSerial[14] = (u8)((Device_Serial1 & 0x00FF0000) >> 16);
MASS_StringSerial[16] = (u8)((Device_Serial1 & 0xFF000000) >> 24);
MASS_StringSerial[18] = (u8)( Device_Serial2 & 0x000000FF);
MASS_StringSerial[20] = (u8)((Device_Serial2 & 0x0000FF00) >> 8);
MASS_StringSerial[22] = (u8)((Device_Serial2 & 0x00FF0000) >> 16);
MASS_StringSerial[24] = (u8)((Device_Serial2 & 0xFF000000) >> 24);
}
}
/********************************* END OF FILE ******************************/

152
workspace/ts100/src/usb_pwr.c
View File

@@ -1,152 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_pwr.c
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#include "usb_lib.h"
#include "usb_conf.h"
#include "usb_pwr.h"
vu32 bDeviceState = UNCONNECTED; // USB device status
vu8 fSuspendEnabled = TRUE; // true when suspend is possible
struct{
volatile RESUME_STATE eState;
volatile u8 bESOFcnt;
} ResumeS;
/*******************************************************************************
PowerOn Return : USB_SUCCESS
*******************************************************************************/
RESULT PowerOn(void)
{
u16 wRegVal;
/*** CNTR_PWDN = 0 ***/
wRegVal = CNTR_FRES;
_SetCNTR(wRegVal);
/*** CNTR_FRES = 0 ***/
wInterrupt_Mask = 0;
_SetCNTR(wInterrupt_Mask);
/*** Clear pending interrupts ***/
_SetISTR(0);
/*** Set interrupt mask ***/
wInterrupt_Mask = CNTR_RESETM | CNTR_SUSPM | CNTR_WKUPM;
_SetCNTR(wInterrupt_Mask);
return USB_SUCCESS;
}
/*******************************************************************************
PowerOff: handles switch-off conditions Return : USB_SUCCESS
*******************************************************************************/
RESULT PowerOff()
{
/* disable all ints and force USB reset */
_SetCNTR(CNTR_FRES);
/* clear interrupt status register */
_SetISTR(0);
/* Disable the Pull-Up*/
// USB_Cable_Config(DISABLE);
/* switch-off device */
_SetCNTR(CNTR_FRES + CNTR_PDWN);
/* sw variables reset */
/* ... */
return USB_SUCCESS;
}
/*******************************************************************************
Suspend: sets suspend mode operating conditions
Return : USB_SUCCESS.
*******************************************************************************/
void Suspend(void)
{
u16 wCNTR;
/* suspend preparation */
/* macrocell enters suspend mode */
wCNTR = _GetCNTR();
wCNTR |= CNTR_FSUSP;
_SetCNTR(wCNTR);
/* ------------------ ONLY WITH BUS-POWERED DEVICES ---------------------- */
/* power reduction */
/* ... on connected devices */
/* force low-power mode in the macrocell */
wCNTR = _GetCNTR();
wCNTR |= CNTR_LPMODE;
_SetCNTR(wCNTR);
}
/*******************************************************************************
Resume_Init: Handles wake-up restoring normal operations
* Return : USB_SUCCESS.
*******************************************************************************/
void Resume_Init(void)
{
u16 wCNTR;
/* ------------------ ONLY WITH BUS-POWERED DEVICES ---------------------- */
/* restart the clocks */
/* CNTR_LPMODE = 0 */
wCNTR = _GetCNTR();
wCNTR &= (~CNTR_LPMODE);
_SetCNTR(wCNTR);
/* restore full power */
/* ... on connected devices */
/* reset FSUSP bit */
_SetCNTR(IMR_MSK);
/* reverse suspend preparation */
/* ... */
}
/*******************************************************************************
Resume: This is the state machine handling resume operations and
timing sequence. The control is based on the Resume structure
variables and on the ESOF interrupt calling this subroutine
without changing machine state.
Input: a state machine value (RESUME_STATE)
RESUME_ESOF doesn't change ResumeS.eState allowing
decrementing of the ESOF counter in different states.
*******************************************************************************/
void Resume(RESUME_STATE eResumeSetVal)
{
u16 wCNTR;
if (eResumeSetVal != RESUME_ESOF) ResumeS.eState = eResumeSetVal;
switch (ResumeS.eState){
case RESUME_EXTERNAL:
Resume_Init();
ResumeS.eState = RESUME_OFF;
break;
case RESUME_INTERNAL:
Resume_Init();
ResumeS.eState = RESUME_START;
break;
case RESUME_LATER:
ResumeS.bESOFcnt = 2;
ResumeS.eState = RESUME_WAIT;
break;
case RESUME_WAIT:
ResumeS.bESOFcnt--;
if (ResumeS.bESOFcnt == 0)
ResumeS.eState = RESUME_START;
break;
case RESUME_START:
wCNTR = _GetCNTR();
wCNTR |= CNTR_RESUME;
_SetCNTR(wCNTR);
ResumeS.eState = RESUME_ON;
ResumeS.bESOFcnt = 10;
break;
case RESUME_ON:
ResumeS.bESOFcnt--;
if (ResumeS.bESOFcnt == 0){
wCNTR = _GetCNTR();
wCNTR &= (~CNTR_RESUME);
_SetCNTR(wCNTR);
ResumeS.eState = RESUME_OFF;
}
break;
case RESUME_OFF:
case RESUME_ESOF:
default:
ResumeS.eState = RESUME_OFF;
break;
}
}
/********************************* END OF FILE ******************************/

230
workspace/ts100/src/usb_scsi.c
View File

@@ -1,230 +0,0 @@
/******************** (C) COPYRIGHT 2015 e-Design Co., Ltd. ********************
File Name : USB_scsi.c
Version : STM32 USB Disk Ver 3.4 Author : MCD Application Team & bure
*******************************************************************************/
#include "usb_scsi.h"
#include "usb_bot.h"
#include "usb_regs.h"
#include "usb_lib.h"
#include "Disk.h"
u8 Page00_Inquiry_Data[] ={ 0, 0, 0, 0, 0};
u8 Mode_Sense6_data[] ={0x03, 0x00, 0x00, 0x00};
u8 Mode_Sense10_data[] ={0x00, 0x06, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
u8 Scsi_Sense_Data[] ={0x70, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0A, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
u8 ReadCapacity10_Data[] ={ 0, 0, 0, 0, 0, 0, 0, 0};
u8 ReadFormatCapacity[] ={ 0, 0, 0, 8, 0, 0, 0, 0, 2, 0, 0, 0};
#ifdef DFU_MODE
uc8 Disk_Inquiry_Str[] ={0x00, 0x80, 0x02, 0x02, 36-4, 0x00, 0x00, 0x00,
'V', 'i', 'r', 't', 'u', 'a', 'l', ' ',
'D', 'F', 'U', ' ', 'D', 'i', 's', 'k',
' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ',
' ', ' ', ' ', ' ', };
#else
uc8 Disk_Inquiry_Str[] ={0x00, 0x80, 0x02, 0x02, 36-4, 0x00, 0x00, 0x00,
'M', 'i', 'n', 'i', ' ', 'D', 'S', 'O',
'D', 'i', 's', 'k', ' ', ' ', ' ', ' ',
' ', ' ', ' ', ' ', ' ', ' ', ' ', ' ',
' ', ' ', ' ', ' ', };
#endif
/*******************************************************************************
SCSI_Inquiry_Cmd: SCSI Inquiry Command routine.
*******************************************************************************/
void SCSI_Inquiry_Cmd(void)
{
u8* Inquiry_Data;
u16 Inquiry_Data_Length;
if (CBW.CB[1] & 0x01){ // Evpd is set
Inquiry_Data = Page00_Inquiry_Data;
Inquiry_Data_Length = 5;
} else {
Inquiry_Data = (u8*)Disk_Inquiry_Str;
if (CBW.CB[4] <= STANDARD_INQUIRY_DATA_LEN) Inquiry_Data_Length = CBW.CB[4];
else Inquiry_Data_Length = STANDARD_INQUIRY_DATA_LEN;
}
Transfer_Data_Request(Inquiry_Data, Inquiry_Data_Length);
}
/*******************************************************************************
SCSI_ReadFormatCapacity_Cmd: SCSI ReadFormatCapacity Command routine.
*******************************************************************************/
void SCSI_ReadFormatCapacity_Cmd(void)
{
ReadFormatCapacity[ 4] = (u8)(SECTOR_SIZE >> 24);
ReadFormatCapacity[ 5] = (u8)(SECTOR_SIZE >> 16);
ReadFormatCapacity[ 6] = (u8)(SECTOR_SIZE >> 8);
ReadFormatCapacity[ 7] = (u8)(SECTOR_SIZE);
ReadFormatCapacity[ 9] = (u8)(SECTOR_SIZE >> 16);
ReadFormatCapacity[10] = (u8)(SECTOR_SIZE >> 8);
ReadFormatCapacity[11] = (u8)(SECTOR_SIZE);
Transfer_Data_Request(ReadFormatCapacity, READ_FORMAT_CAPACITY_DATA_LEN);
}
/*******************************************************************************
SCSI_ReadCapacity10_Cmd: SCSI ReadCapacity10 Command routine.
*******************************************************************************/
void SCSI_ReadCapacity10_Cmd(void)
{
ReadCapacity10_Data[0] = (u8)(SECTOR_CNT - 1 >> 24);
ReadCapacity10_Data[1] = (u8)(SECTOR_CNT - 1 >> 16);
ReadCapacity10_Data[2] = (u8)(SECTOR_CNT - 1 >> 8);
ReadCapacity10_Data[3] = (u8)(SECTOR_CNT - 1);
ReadCapacity10_Data[4] = (u8)(SECTOR_SIZE >> 24);
ReadCapacity10_Data[5] = (u8)(SECTOR_SIZE >> 16);
ReadCapacity10_Data[6] = (u8)(SECTOR_SIZE >> 8);
ReadCapacity10_Data[7] = (u8)(SECTOR_SIZE);
Transfer_Data_Request(ReadCapacity10_Data, READ_CAPACITY10_DATA_LEN);
}
/*******************************************************************************
SCSI_ModeSense6_Cmd: SCSI ModeSense6 Command routine.
*******************************************************************************/
void SCSI_ModeSense6_Cmd (void)
{
Transfer_Data_Request(Mode_Sense6_data, MODE_SENSE6_DATA_LEN);
}
/*******************************************************************************
SCSI_ModeSense10_Cmd: SCSI ModeSense10 Command routine.
*******************************************************************************/
void SCSI_ModeSense10_Cmd (void)
{
Transfer_Data_Request(Mode_Sense10_data, MODE_SENSE10_DATA_LEN);
}
/*******************************************************************************
SCSI_RequestSense_Cmd: SCSI RequestSense Command routine.
*******************************************************************************/
void SCSI_RequestSense_Cmd (void)
{
u8 Request_Sense_data_Length;
if (CBW.CB[4] <= REQUEST_SENSE_DATA_LEN) Request_Sense_data_Length = CBW.CB[4];
else Request_Sense_data_Length = REQUEST_SENSE_DATA_LEN;
Transfer_Data_Request(Scsi_Sense_Data, Request_Sense_data_Length);
}
/*******************************************************************************
Set_Scsi_Sense_Data: Set Scsi Sense Data routine.
*******************************************************************************/
void Set_Scsi_Sense_Data(u8 Sens_Key, u8 Asc)
{
Scsi_Sense_Data[2] = Sens_Key;
Scsi_Sense_Data[12] = Asc;
}
/*******************************************************************************
SCSI_Start_Stop_Unit_Cmd: SCSI Start_Stop_Unit Command routine.
*******************************************************************************/
void SCSI_Start_Stop_Unit_Cmd(void)
{
Set_CSW (CSW_CMD_PASSED, SEND_CSW_ENABLE);
}
/*******************************************************************************
SCSI_Read10_Cmd: SCSI Read10 Command routine.
*******************************************************************************/
void SCSI_Read10_Cmd(u32 LBA , u32 BlockNbr)
{
if (Bot_State == BOT_IDLE){
if (!(SCSI_Address_Management(SCSI_READ10, LBA, BlockNbr))) return;//address out of range
if ((CBW.bmFlags & 0x80) != 0){
Bot_State = BOT_DATA_IN;
Read_Memory(LBA , BlockNbr);
} else {
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_ENABLE);
}
return;
} else if (Bot_State == BOT_DATA_IN) Read_Memory(LBA , BlockNbr);
}
/*******************************************************************************
SCSI_Write10_Cmd: SCSI Write10 Command routine.
*******************************************************************************/
void SCSI_Write10_Cmd(u32 LBA , u32 BlockNbr)
{
if (Bot_State == BOT_IDLE){
if (!(SCSI_Address_Management(SCSI_WRITE10 , LBA, BlockNbr))) return;//address out of range
if ((CBW.bmFlags & 0x80) == 0){
Bot_State = BOT_DATA_OUT;
SetEPRxStatus(ENDP2, EP_RX_VALID);
} else {
Bot_Abort(DIR_IN);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
}
return;
} else if (Bot_State == BOT_DATA_OUT) Write_Memory(LBA , BlockNbr);
}
/*******************************************************************************
SCSI_Verify10_Cmd: SCSI Verify10 Command routine.
*******************************************************************************/
void SCSI_Verify10_Cmd(void)
{
if ((CBW.dDataLength == 0) && !(CBW.CB[1] & BLKVFY)){ // BLKVFY not set
Set_CSW (CSW_CMD_PASSED, SEND_CSW_ENABLE);
} else {
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
}
}
/*******************************************************************************
SCSI_Valid_Cmd: Valid Commands routine.
*******************************************************************************/
void SCSI_Valid_Cmd(void)
{
if (CBW.dDataLength != 0){
Bot_Abort(BOTH_DIR);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
} else Set_CSW (CSW_CMD_PASSED, SEND_CSW_ENABLE);
}
/*******************************************************************************
SCSI_Valid_Cmd: Valid Commands routine.
*******************************************************************************/
void SCSI_TestUnitReady_Cmd(void)
{
Set_CSW (CSW_CMD_PASSED, SEND_CSW_ENABLE);
}
/*******************************************************************************
SCSI_Invalid_Cmd: Invalid Commands routine
*******************************************************************************/
void SCSI_Invalid_Cmd(void)
{
if (CBW.dDataLength == 0) Bot_Abort(DIR_IN);
else{
if ((CBW.bmFlags & 0x80) != 0) Bot_Abort(DIR_IN);
else Bot_Abort(BOTH_DIR);
}
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
}
/*******************************************************************************
SCSI_Address_Management: Test the received address.
Input: Cmd the command can be SCSI_READ10 or SCSI_WRITE10.
Return: Read\Write status (bool).
*******************************************************************************/
u8 SCSI_Address_Management(u8 Cmd , u32 LBA , u32 BlockNbr)
{
if ((LBA + BlockNbr) > SECTOR_CNT){
if (Cmd == SCSI_WRITE10) Bot_Abort(BOTH_DIR);
Bot_Abort(DIR_IN);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, ADDRESS_OUT_OF_RANGE);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
return (FALSE);
}
if (CBW.dDataLength != BlockNbr * SECTOR_SIZE){
if (Cmd == SCSI_WRITE10) Bot_Abort(BOTH_DIR);
else Bot_Abort(DIR_IN);
Set_Scsi_Sense_Data(ILLEGAL_REQUEST, INVALID_FIELED_IN_COMMAND);
Set_CSW (CSW_CMD_FAILED, SEND_CSW_DISABLE);
return (FALSE);
}
return (TRUE);
}
/********************************* END OF FILE ******************************/

4
workspace/ts100/ts100.cfg
View File

@@ -10,4 +10,6 @@ transport select "hla_swd"
source [find target/stm32f1x_stlink.cfg]
# use hardware reset, connect under reset
reset_config srst_only srst_nogate
#reset_config srst_only srst_nogate
#software
reset_config none separate