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tinyUSB/examples/device/usbtmc/src/usbtmc_app.c
hathach cf91660cee rename hw/bsp/board.h to board_api.h
2023-08-03 15:44:05 +07:00

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/*
* The MIT License (MIT)
*
* Copyright (c) 2019 Nathan Conrad
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*
*/
#include <string.h>
#include <stdlib.h> /* atoi */
#include "tusb.h"
#include "bsp/board_api.h"
#include "main.h"
#if (CFG_TUD_USBTMC_ENABLE_488)
static usbtmc_response_capabilities_488_t const
#else
static usbtmc_response_capabilities_t const
#endif
tud_usbtmc_app_capabilities =
{
.USBTMC_status = USBTMC_STATUS_SUCCESS,
.bcdUSBTMC = USBTMC_VERSION,
.bmIntfcCapabilities =
{
.listenOnly = 0,
.talkOnly = 0,
.supportsIndicatorPulse = 1
},
.bmDevCapabilities = {
.canEndBulkInOnTermChar = 0
},
#if (CFG_TUD_USBTMC_ENABLE_488)
.bcdUSB488 = USBTMC_488_VERSION,
.bmIntfcCapabilities488 =
{
.supportsTrigger = 1,
.supportsREN_GTL_LLO = 0,
.is488_2 = 1
},
.bmDevCapabilities488 =
{
.SCPI = 1,
.SR1 = 0,
.RL1 = 0,
.DT1 =0,
}
#endif
};
#define IEEE4882_STB_QUESTIONABLE (0x08u)
#define IEEE4882_STB_MAV (0x10u)
#define IEEE4882_STB_SER (0x20u)
#define IEEE4882_STB_SRQ (0x40u)
static const char idn[] = "TinyUSB,ModelNumber,SerialNumber,FirmwareVer123456\r\n";
//static const char idn[] = "TinyUSB,ModelNumber,SerialNumber,FirmwareVer and a bunch of other text to make it longer than a packet, perhaps? lets make it three transfers...\n";
static volatile uint8_t status;
// 0=not query, 1=queried, 2=delay,set(MAV), 3=delay 4=ready?
// (to simulate delay)
static volatile uint16_t queryState = 0;
static volatile uint32_t queryDelayStart;
static volatile uint32_t bulkInStarted;
static volatile uint32_t idnQuery;
static uint32_t resp_delay = 125u; // Adjustable delay, to allow for better testing
static size_t buffer_len;
static size_t buffer_tx_ix; // for transmitting using multiple transfers
static uint8_t buffer[225]; // A few packets long should be enough.
void tud_usbtmc_open_cb(uint8_t interface_id)
{
(void)interface_id;
tud_usbtmc_start_bus_read();
}
#if (CFG_TUD_USBTMC_ENABLE_488)
usbtmc_response_capabilities_488_t const *
#else
usbtmc_response_capabilities_t const *
#endif
tud_usbtmc_get_capabilities_cb()
{
return &tud_usbtmc_app_capabilities;
}
bool tud_usbtmc_msg_trigger_cb(usbtmc_msg_generic_t* msg) {
(void)msg;
// Let trigger set the SRQ
status |= IEEE4882_STB_SRQ;
return true;
}
bool tud_usbtmc_msgBulkOut_start_cb(usbtmc_msg_request_dev_dep_out const * msgHeader)
{
(void)msgHeader;
buffer_len = 0;
if(msgHeader->TransferSize > sizeof(buffer))
{
return false;
}
return true;
}
bool tud_usbtmc_msg_data_cb(void *data, size_t len, bool transfer_complete)
{
// If transfer isn't finished, we just ignore it (for now)
if(len + buffer_len < sizeof(buffer))
{
memcpy(&(buffer[buffer_len]), data, len);
buffer_len += len;
}
else
{
return false; // buffer overflow!
}
queryState = transfer_complete;
idnQuery = 0;
if ( transfer_complete && (len >= 4) &&
(!strncmp("*idn?", data, 4) || !strncmp("*IDN?", data, 4)) )
{
idnQuery = 1;
}
if ( transfer_complete &&
(!strncmp("delay ", data, 5) || !strncmp("DELAY ", data, 5)) )
{
queryState = 0;
int d = atoi((char*)data + 5);
if(d > 10000)
d = 10000;
if(d<0)
d=0;
resp_delay = (uint32_t)d;
}
tud_usbtmc_start_bus_read();
return true;
}
bool tud_usbtmc_msgBulkIn_complete_cb()
{
if((buffer_tx_ix == buffer_len) || idnQuery) // done
{
status &= (uint8_t)~(IEEE4882_STB_MAV); // clear MAV
queryState = 0;
bulkInStarted = 0;
buffer_tx_ix = 0;
}
tud_usbtmc_start_bus_read();
return true;
}
static unsigned int msgReqLen;
bool tud_usbtmc_msgBulkIn_request_cb(usbtmc_msg_request_dev_dep_in const * request)
{
msgReqLen = request->TransferSize;
#ifdef xDEBUG
uart_tx_str_sync("MSG_IN_DATA: Requested!\r\n");
#endif
if(queryState == 0 || (buffer_tx_ix == 0))
{
TU_ASSERT(bulkInStarted == 0);
bulkInStarted = 1;
// > If a USBTMC interface receives a Bulk-IN request prior to receiving a USBTMC command message
// that expects a response, the device must NAK the request (*not stall*)
}
else
{
size_t txlen = tu_min32(buffer_len-buffer_tx_ix,msgReqLen);
tud_usbtmc_transmit_dev_msg_data(&buffer[buffer_tx_ix], txlen,
(buffer_tx_ix+txlen) == buffer_len, false);
buffer_tx_ix += txlen;
}
// Always return true indicating not to stall the EP.
return true;
}
void usbtmc_app_task_iter(void) {
switch(queryState) {
case 0:
break;
case 1:
queryDelayStart = board_millis();
queryState = 2;
break;
case 2:
if( (board_millis() - queryDelayStart) > resp_delay) {
queryDelayStart = board_millis();
queryState=3;
status |= 0x10u; // MAV
status |= 0x40u; // SRQ
}
break;
case 3:
if( (board_millis() - queryDelayStart) > resp_delay) {
queryState = 4;
}
break;
case 4: // time to transmit;
if(bulkInStarted && (buffer_tx_ix == 0)) {
if(idnQuery)
{
tud_usbtmc_transmit_dev_msg_data(idn, tu_min32(sizeof(idn)-1,msgReqLen),true,false);
queryState = 0;
bulkInStarted = 0;
}
else
{
buffer_tx_ix = tu_min32(buffer_len,msgReqLen);
tud_usbtmc_transmit_dev_msg_data(buffer, buffer_tx_ix, buffer_tx_ix == buffer_len, false);
}
// MAV is cleared in the transfer complete callback.
}
break;
default:
TU_ASSERT(false,);
}
}
bool tud_usbtmc_initiate_clear_cb(uint8_t *tmcResult)
{
*tmcResult = USBTMC_STATUS_SUCCESS;
queryState = 0;
bulkInStarted = false;
status = 0;
return true;
}
bool tud_usbtmc_check_clear_cb(usbtmc_get_clear_status_rsp_t *rsp)
{
queryState = 0;
bulkInStarted = false;
status = 0;
buffer_tx_ix = 0u;
buffer_len = 0u;
rsp->USBTMC_status = USBTMC_STATUS_SUCCESS;
rsp->bmClear.BulkInFifoBytes = 0u;
return true;
}
bool tud_usbtmc_initiate_abort_bulk_in_cb(uint8_t *tmcResult)
{
bulkInStarted = 0;
*tmcResult = USBTMC_STATUS_SUCCESS;
return true;
}
bool tud_usbtmc_check_abort_bulk_in_cb(usbtmc_check_abort_bulk_rsp_t *rsp)
{
(void)rsp;
tud_usbtmc_start_bus_read();
return true;
}
bool tud_usbtmc_initiate_abort_bulk_out_cb(uint8_t *tmcResult)
{
*tmcResult = USBTMC_STATUS_SUCCESS;
return true;
}
bool tud_usbtmc_check_abort_bulk_out_cb(usbtmc_check_abort_bulk_rsp_t *rsp)
{
(void)rsp;
tud_usbtmc_start_bus_read();
return true;
}
void tud_usbtmc_bulkIn_clearFeature_cb(void)
{
}
void tud_usbtmc_bulkOut_clearFeature_cb(void)
{
tud_usbtmc_start_bus_read();
}
// Return status byte, but put the transfer result status code in the rspResult argument.
uint8_t tud_usbtmc_get_stb_cb(uint8_t *tmcResult)
{
uint8_t old_status = status;
status = (uint8_t)(status & ~(IEEE4882_STB_SRQ)); // clear SRQ
*tmcResult = USBTMC_STATUS_SUCCESS;
// Increment status so that we see different results on each read...
return old_status;
}
bool tud_usbtmc_indicator_pulse_cb(tusb_control_request_t const * msg, uint8_t *tmcResult)
{
(void)msg;
led_indicator_pulse();
*tmcResult = USBTMC_STATUS_SUCCESS;
return true;
}
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