storage_task.c File Reference

#include "config.h"
#include "conf_usb.h"
#include "storage_task.h"
#include "lib_mcu/usb/usb_drv.h"
#include "usb_descriptors.h"
#include "modules/usb/device_chap9/usb_standard_request.h"
#include "usb_specific_request.h"
#include "modules/scsi_decoder/scsi_decoder.h"
#include "modules/control_access/ctrl_access.h"

Include dependency graph for storage_task.c:

Go to the source code of this file.

Functions
void	usb_mass_storage_cbw (void)
void	usb_mass_storage_csw (void)
void	storage_task_init (void)
void	storage_task (void)
void	sof_action ()
	This function increments the cpt_sof counter each times the USB Start Of Frame interrupt subroutine is executed (1ms) Usefull to manage time delays.
Variables
volatile U8	cpt_sof
U8	usb_configuration_nb
Bool	g_b_df_protected
bit	ms_data_direction
static _MEM_TYPE_SLOW_ U8	dCBWTag [4]
_MEM_TYPE_SLOW_ U8	g_scsi_status
_MEM_TYPE_FAST_ U32	g_scsi_data_remaining
bit	ms_multiple_drive
_MEM_TYPE_SLOW_ U8	g_scsi_command [16]
U8	endpoint_status [MAX_EP_NB]
_MEM_TYPE_SLOW_ U8	usb_LUN

---

Detailed Description

This file manages the mass storage task.

• Compiler: IAR EWAVR and GNU GCC for AVR
• Supported devices: AT90USB1287, AT90USB1286, AT90USB647, AT90USB646

Author:

Atmel Corporation: http://www.atmel.com
Support and FAQ: http://support.atmel.no/

Definition in file storage_task.c.

---

Function Documentation

void usb_mass_storage_cbw

(

void

)

USB Command Block Wrapper (CBW) management This function decodes the CBW command and stores the SCSI command

Warning:

Code:?? bytes (function code length)

Parameters:

none

Returns:

none

check if dCBWSignature is correct

'U'

'S'

'B'

'C'

Store CBW Tag to be repeated in CSW

if (bmCBWFlags.bit7 == 1) {direction = IN}

Definition at line 149 of file storage_task.c.

References dCBWTag, endpoint_status, EP_MS_IN, EP_MS_OUT, FALSE, g_scsi_command, g_scsi_data_remaining, get_cur_lun(), Is_usb_ms_data_direction_in, LSB0, LSB1, LSB2, LSB3, ms_multiple_drive, MSK_EP_DIR, scsi_decode_command(), TRUE, Usb_ack_receive_out, Usb_enable_stall_handshake, usb_LUN, Usb_read_byte, Usb_select_endpoint, Usb_set_ms_data_direction_in, and Usb_set_ms_data_direction_out.

Referenced by storage_task().

{
bit cbw_error;
U8  c;
U8  dummy;

   cbw_error = FALSE;
   Usb_select_endpoint(EP_MS_OUT);           
   if (0x55 != Usb_read_byte())
      { cbw_error = TRUE; } 
   if (0x53 != Usb_read_byte())
      { cbw_error = TRUE; } 
   if (0x42 != Usb_read_byte())
      { cbw_error = TRUE; } 
   if (0x43 != Usb_read_byte())
      { cbw_error = TRUE; } 
   if (cbw_error)
   {
      Usb_ack_receive_out();
      Usb_select_endpoint(EP_MS_IN);
      Usb_enable_stall_handshake();
      endpoint_status[(EP_MS_IN & MSK_EP_DIR)] = 0x01;
      return;
   }

   dCBWTag[0] = Usb_read_byte();             
   dCBWTag[1] = Usb_read_byte();
   dCBWTag[2] = Usb_read_byte();
   dCBWTag[3] = Usb_read_byte();
   
   LSB0(g_scsi_data_remaining) = Usb_read_byte();
   LSB1(g_scsi_data_remaining) = Usb_read_byte();
   LSB2(g_scsi_data_remaining) = Usb_read_byte();
   LSB3(g_scsi_data_remaining) = Usb_read_byte();

   if (Usb_read_byte() != 0x00)              
   {
      Usb_set_ms_data_direction_in();
   }
   else
   {
      Usb_set_ms_data_direction_out();
   }

   usb_LUN = Usb_read_byte();

   if (!ms_multiple_drive)
   {
      usb_LUN = get_cur_lun();
   }

   dummy      = Usb_read_byte();                // dummy CBWCBLength read


   for (c=0; c<16; c++)                         // store scsi_command
   {
      g_scsi_command[c] = Usb_read_byte();
   }
   Usb_ack_receive_out();

   if (Is_usb_ms_data_direction_in())
   {
      Usb_select_endpoint(EP_MS_IN);
   }

   if (TRUE != scsi_decode_command())
   {
      U8 ep;
      Usb_enable_stall_handshake();
      if (Is_usb_ms_data_direction_in())
      {
         ep = (EP_MS_IN & MSK_EP_DIR);
      }else{
         ep = (EP_MS_OUT & MSK_EP_DIR);
      }
      endpoint_status[ep] = 0x01;
   }
}

Here is the call graph for this function:

Here is the caller graph for this function:

void usb_mass_storage_csw

(

void

)

USB Command Status Wrapper (CSW) management This function sends the status in relation with the last CBW

Parameters:

none

Returns:

none

write CSW Signature

'U'

'S'

'B'

'S' write stored CBW Tag

write data residue value

write command status

0 -> PASS, 1 -> FAIL

Definition at line 237 of file storage_task.c.

References dCBWTag, EP_CONTROL, EP_MS_IN, EP_MS_OUT, g_scsi_data_remaining, g_scsi_status, Is_usb_endpoint_enabled, Is_usb_endpoint_stall_requested, Is_usb_receive_setup, Is_usb_write_enabled, LSB0, LSB1, LSB2, LSB3, usb_process_request(), Usb_select_endpoint, Usb_send_in, and Usb_write_byte.

Referenced by storage_task().

{
   Usb_select_endpoint(EP_MS_IN);
   while (Is_usb_endpoint_stall_requested())
   {
      Usb_select_endpoint(EP_CONTROL);
      if (Is_usb_receive_setup())       { usb_process_request(); }
      Usb_select_endpoint(EP_MS_IN);
   }

   Usb_select_endpoint(EP_MS_OUT);
   while (Is_usb_endpoint_stall_requested())
   {
      Usb_select_endpoint(EP_CONTROL);
      if (Is_usb_receive_setup())       { usb_process_request(); }
      Usb_select_endpoint(EP_MS_OUT);
   }


   Usb_select_endpoint(EP_MS_IN);
   while(!Is_usb_write_enabled())
   {
      if(!Is_usb_endpoint_enabled())   return; // USB Reset
   }
   Usb_write_byte(0x55);                                 
   Usb_write_byte(0x53);                                 
   Usb_write_byte(0x42);                                 
   Usb_write_byte(0x53);                                 

   Usb_write_byte(dCBWTag[0]);
   Usb_write_byte(dCBWTag[1]);
   Usb_write_byte(dCBWTag[2]);
   Usb_write_byte(dCBWTag[3]);
   Usb_write_byte( LSB0(g_scsi_data_remaining) );
   Usb_write_byte( LSB1(g_scsi_data_remaining) );
   Usb_write_byte( LSB2(g_scsi_data_remaining) );
   Usb_write_byte( LSB3(g_scsi_data_remaining) );

   Usb_write_byte(g_scsi_status);                        

   Usb_send_in();
}

Here is the call graph for this function:

Here is the caller graph for this function:

void storage_task_init

(

void

)

This function initializes the hardware/software ressources required for storage task.

Parameters:

none

Returns:

none

/

Definition at line 88 of file storage_task.c.

References df_mem_init(), Joy_init, Leds_init, and Usb_enable_sof_interrupt.

{
   Leds_init();
   Joy_init();
   Usb_enable_sof_interrupt();
   df_mem_init();    // Init the hw/sw ressources required to drive the DF.
}

Here is the call graph for this function:

void storage_task

(

void

)

Entry point of the mass storage task management This function links the mass storage SCSI commands and the USB bus.

Parameters:

none

Returns:

none

Definition at line 105 of file storage_task.c.

References EP_MS_OUT, FALSE, g_b_df_protected, Is_device_enumerated, Is_joy_down, Is_joy_up, Is_usb_receive_out, TRUE, usb_mass_storage_cbw(), usb_mass_storage_csw(), and Usb_select_endpoint.

{
   if(Is_joy_up())
   {
      // Look Write Protection DataFlash
      g_b_df_protected = TRUE;
   }
   if(Is_joy_down())
   {
      // UnLook Write Protection DataFlash
      g_b_df_protected = FALSE;
   }
    
   if (Is_device_enumerated())
   {
      Usb_select_endpoint(EP_MS_OUT);
      if (Is_usb_receive_out())
      {
         usb_mass_storage_cbw();
         usb_mass_storage_csw();
      }
   }
}

Here is the call graph for this function:

---

Variable Documentation

volatile U8 cpt_sof

Definition at line 58 of file storage_task.c.

Referenced by sof_action().

U8 usb_configuration_nb

Definition at line 97 of file usb_standard_request.c.

Referenced by usb_device_task(), usb_general_interrupt(), usb_get_configuration(), and usb_set_configuration().

Bool g_b_df_protected

Definition at line 50 of file df_mem.c.

Referenced by df_test_unit_ready(), df_wr_protect(), df_write_10(), and storage_task().

bit ms_data_direction

Definition at line 63 of file storage_task.c.

_MEM_TYPE_SLOW_ U8 dCBWTag[4] [static]

Definition at line 64 of file storage_task.c.

Referenced by usb_mass_storage_cbw(), and usb_mass_storage_csw().

_MEM_TYPE_SLOW_ U8 g_scsi_status

Definition at line 57 of file scsi_decoder.c.

Referenced by usb_mass_storage_csw().

_MEM_TYPE_FAST_ U32 g_scsi_data_remaining

Definition at line 58 of file scsi_decoder.c.

Referenced by sbc_read_10(), sbc_write_10(), usb_mass_storage_cbw(), and usb_mass_storage_csw().

bit ms_multiple_drive

Definition at line 60 of file usb_specific_request.c.

Referenced by usb_mass_storage_cbw(), and usb_user_read_request().

_MEM_TYPE_SLOW_ U8 g_scsi_command[16]

Definition at line 56 of file scsi_decoder.c.

Referenced by sbc_inquiry(), sbc_mode_sense(), sbc_read_10(), sbc_request_sense(), sbc_write_10(), scsi_decode_command(), and usb_mass_storage_cbw().

U8 endpoint_status[MAX_EP_NB]

Definition at line 95 of file usb_standard_request.c.

Referenced by usb_clear_feature(), usb_get_status(), usb_mass_storage_cbw(), usb_process_request(), and usb_set_feature().

_MEM_TYPE_SLOW_ U8 usb_LUN

Definition at line 73 of file storage_task.c.

Referenced by sbc_header_mode_sense(), sbc_read_10(), sbc_read_capacity(), sbc_test_unit_ready(), sbc_write_10(), and usb_mass_storage_cbw().

---