Maxim Integrated
MAX32620HSP (MAXREFDES100) RPC Example for Graphical User Interface
Dependencies: USBDevice
Fork of
HSP_Release
by 
Jerry Bradshaw
This is an example program for the MAX32620HSP (MAXREFDES100 Health Sensor Platform). It demonstrates all the features of the platform and works with a companion graphical user interface (GUI) to help evaluate/configure/monitor the board. Go to the MAXREFDES100 product page and click on "design resources" to download the companion software. The GUI connects to the board through an RPC interface on a virtual serial port over the USB interface.
The RPC interface provides access to all the features of the board and is available to interface with other development environments such Matlab. This firmware provides realtime data streaming through the RPC interface over USB, and also provides the ability to log the data to flash for untethered battery operation. The data logging settings are configured through the GUI, and the GUI also provides the interface to download logged data.
Details on the RPC interface can be found here: HSP RPC Interface Documentation
Windows
With this program loaded, the MAX32620HSP will appear on your computer as a serial port. On Mac and Linux, this will happen by default. For Windows, you need to install a driver: HSP serial port windows driver
For more details about this platform and how to use it, see the MAXREFDES100 product page.
HSP/Devices/MAX30001/MAX30001_RPC.cpp
- Committer:
- jbradshaw
- Date:
- 2016-10-25
- Revision:
- 0:e4a10ed6eb92
- Child:
- 1:9490836294ea
File content as of revision 0:e4a10ed6eb92:
/*******************************************************************************
* Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved.
*
* 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 MAXIM INTEGRATED 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.
*
* Except as contained in this notice, the name of Maxim Integrated
* Products, Inc. shall not be used except as stated in the Maxim Integrated
* Products, Inc. Branding Policy.
*
* The mere transfer of this software does not imply any licenses
* of trade secrets, proprietary technology, copyrights, patents,
* trademarks, maskwork rights, or any other form of intellectual
* property whatsoever. Maxim Integrated Products, Inc. retains all
* ownership rights.
*******************************************************************************
*/
#include <stdio.h>
#include "StringHelper.h"
#include "MAX30001.h"
#include "Streaming.h"
#include "StringInOut.h"
#include "MAX30001_helper.h"
#include "RpcFifo.h"
#include "RpcServer.h"
#include "Peripherals.h"
#include "DataLoggingService.h"
/*static int startedEcg = 0;
static int startedBioz = 0;
static int startedCal = 0;
static int startedPace = 0;
static int startedRtor = 0;
static void StopAll();
*/
extern int highDataRate;
uint32_t max30001_RegRead(MAX30001::MAX30001_REG_map_t addr) {
uint32_t data;
Peripherals::max30001()->max30001_reg_read(addr, &data);
return data;
}
void max30001_RegWrite(MAX30001::MAX30001_REG_map_t addr, uint32_t data) {
Peripherals::max30001()->max30001_reg_write(addr, data);
}
int MAX30001_WriteReg(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[2];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
max30001_RegWrite((MAX30001::MAX30001_REG_map_t)args[0], args[1]);
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_ReadReg(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[1];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
value = max30001_RegRead((MAX30001::MAX30001_REG_map_t)args[0]);
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Rbias_FMSTR_Init(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[5];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
value = Peripherals::max30001()->max30001_Rbias_FMSTR_Init(args[0], // En_rbias
args[1], // Rbiasv
args[2], // Rbiasp
args[3], // Rbiasn
args[4]); // Fmstr
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_CAL_InitStart(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[6];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
// Peripherals::serial()->printf("MAX30001_CAL_InitStart 0 ");
value = Peripherals::max30001()->max30001_CAL_InitStart(args[0], // En_Vcal
args[1], // Vmag
args[2], // Fcal
args[3], // Thigh
args[4], // Fifty
args[5]); // Vmode
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_ECG_InitStart(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[11];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
// Peripherals::serial()->printf("MAX30001_ECG_InitStart 0 ");
value = Peripherals::max30001()->max30001_ECG_InitStart(args[0], // En_ecg
args[1], // Openp
args[2], // Openn
args[3], // Pol
args[4], // Calp_sel
args[5], // Caln_sel
args[6], // E_fit
args[7], // Rate
args[8], // Gain
args[9], // Dhpf
args[10]); // Dlpf
// Peripherals::serial()->printf("MAX30001_ECG_InitStart 1 ");
MAX30001_Helper_SetStreamingFlag(eStreaming_ECG, 1);
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_ECGFast_Init(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[3];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
value = Peripherals::max30001()->max30001_ECGFast_Init(args[0], // Clr_Fast
args[1], // Fast
args[2]); // Fast_Th
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_PACE_InitStart(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[9];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
value =
Peripherals::max30001()->max30001_PACE_InitStart(args[0], // En_pace
args[1], // Clr_pedge
args[2], // Pol
args[3], // Gn_diff_off
args[4], // Gain
args[5], // Aout_lbw
args[6], // Aout
args[7], // Dacp
args[8]); // Dacn
MAX30001_Helper_SetStreamingFlag(eStreaming_PACE, 1);
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_BIOZ_InitStart(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[17];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
value = Peripherals::max30001()->max30001_BIOZ_InitStart(args[0], // En_bioz
args[1], // Openp
args[2], // Openn
args[3], // Calp_sel
args[4], // Caln_sel
args[5], // CG_mode
args[6], // B_fit
args[7], // Rate
args[8], // Ahpf
args[9], // Ext_rbias
args[10], // Gain
args[11], // Dhpf
args[12], // Dlpf
args[13], // Fcgen
args[14], // Cgmon
args[15], // Cgmag
args[16]); // Phoff
MAX30001_Helper_SetStreamingFlag(eStreaming_BIOZ, 1);
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_RtoR_InitStart(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[9];
uint32_t reply[1];
uint32_t value;
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
value = Peripherals::max30001()->max30001_RtoR_InitStart(args[0], // En_rtor
args[1], // Wndw
args[2], // Gain
args[3], // Pavg
args[4], // Ptsf
args[5], // Hoff
args[6], // Ravg
args[7], // Rhsf
args[8]); // Clr_rrint
MAX30001_Helper_SetStreamingFlag(eStreaming_RtoR, 1);
reply[0] = value;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Stop_ECG(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
Peripherals::max30001()->max30001_Stop_ECG();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Stop_PACE(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
Peripherals::max30001()->max30001_Stop_PACE();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Stop_BIOZ(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
Peripherals::max30001()->max30001_Stop_BIOZ();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Stop_RtoR(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
Peripherals::max30001()->max30001_Stop_RtoR();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Stop_Cal(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
// max30001_Stop_Cal();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
void max30001_ServiceStreaming() {
char ch;
uint32_t val;
USBSerial *usbSerial = Peripherals::usbSerial();
fifo_clear(GetStreamOutFifo());
SetStreaming(TRUE);
clearOutReadFifo();
while (IsStreaming() == TRUE) {
if (fifo_empty(GetStreamOutFifo()) == 0) {
fifo_get32(GetStreamOutFifo(), &val);
usbSerial->printf("%02X ", val);
}
if (usbSerial->available()) {
ch = usbSerial->_getc();
MAX30001_Helper_Stop();
SetStreaming(FALSE);
fifo_clear(GetUSBIncomingFifo()); // clear USB serial incoming fifo
fifo_clear(GetStreamOutFifo());
}
}
}
int MAX30001_Start(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
uint32_t all;
fifo_clear(GetUSBIncomingFifo());
Peripherals::max30001()->max30001_synch();
// max30001_ServiceStreaming();
highDataRate = 0;
Peripherals::max30001()->max30001_reg_read(MAX30001::STATUS, &all);
LoggingService_StartLoggingUsb();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Stop(char argStrs[32][32], char replyStrs[32][32]) {
/* uint32_t args[1];
uint32_t reply[1];
uint32_t value;
//ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
max30001_StopTest();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);*/
return 0;
}
int MAX30001_INT_assignment(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t args[17];
uint32_t reply[1];
ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
/*
printf("MAX30001_INT_assignment ");
printf("%d ",args[0]);
printf("%d ",args[1]);
printf("%d ",args[2]);
printf("%d ",args[3]);
printf("%d ",args[4]);
printf("%d ",args[5]);
printf("%d ",args[6]);
printf("%d ",args[7]);
printf("%d ",args[8]);
printf("%d ",args[9]);
printf("%d ",args[10]);
printf("%d ",args[11]);
printf("%d ",args[12]);
printf("%d ",args[13]);
printf("%d ",args[14]);
printf("%d ",args[15]);
printf("%d ",args[16]);
printf("\n");
fflush(stdout);
*/
Peripherals::max30001()->max30001_INT_assignment(
(MAX30001::max30001_intrpt_Location_t)args[0],
(MAX30001::max30001_intrpt_Location_t)args[1],
(MAX30001::max30001_intrpt_Location_t)args[2],
(MAX30001::max30001_intrpt_Location_t)args[3],
(MAX30001::max30001_intrpt_Location_t)args[4],
(MAX30001::max30001_intrpt_Location_t)args[5],
(MAX30001::max30001_intrpt_Location_t)args[6],
(MAX30001::max30001_intrpt_Location_t)args[7],
(MAX30001::max30001_intrpt_Location_t)args[8],
(MAX30001::max30001_intrpt_Location_t)args[9],
(MAX30001::max30001_intrpt_Location_t)args[10],
(MAX30001::max30001_intrpt_Location_t)args[11],
(MAX30001::max30001_intrpt_Location_t)args[12],
(MAX30001::max30001_intrpt_Location_t)args[13],
(MAX30001::max30001_intrpt_Location_t)args[14],
(MAX30001::max30001_intrpt_type_t)args[15],
(MAX30001::max30001_intrpt_type_t)args[16]);
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_StartTest(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
// ProcessArgs32(argStrs, args, sizeof(args) / sizeof(uint32_t));
/*** Set FMSTR over here ****/
/*** Set and Start the VCAL input ***/
/* NOTE VCAL must be set first if VCAL is to be used */
Peripherals::max30001()->max30001_CAL_InitStart(0b1, 0b1, 0b1, 0b011, 0x7FF, 0b0);
/**** ECG Initialization ****/
Peripherals::max30001()->max30001_ECG_InitStart(0b1, 0b1, 0b1, 0b0, 0b10, 0b11, 31, 0b00, 0b00, 0b0, 0b01);
/***** PACE Initialization ***/
Peripherals::max30001()->max30001_PACE_InitStart(0b1, 0b0, 0b0, 0b1, 0b000, 0b0, 0b00, 0b0, 0b0);
/**** BIOZ Initialization ****/
Peripherals::max30001()->max30001_BIOZ_InitStart(
0b1, 0b1, 0b1, 0b10, 0b11, 0b00, 7, 0b0, 0b111, 0b0, 0b10, 0b00, 0b00, 0b0001, 0b0, 0b111, 0b0000);
/*** Set RtoR registers ***/
Peripherals::max30001()->max30001_RtoR_InitStart(
0b1, 0b0011, 0b1111, 0b00, 0b0011, 0b000001, 0b00, 0b000, 0b01);
/*** Set Rbias & FMSTR over here ****/
Peripherals::max30001()->max30001_Rbias_FMSTR_Init(0b01, 0b10, 0b1, 0b1, 0b00);
/**** Interrupt Setting ****/
/*** Set ECG Lead ON/OFF ***/
// max30001_ECG_LeadOnOff();
/*** Set BIOZ Lead ON/OFF ***/
// max30001_BIOZ_LeadOnOff(); Does not work yet...
/**** Do a Synch ****/
Peripherals::max30001()->max30001_synch();
fifo_clear(GetUSBIncomingFifo());
max30001_ServiceStreaming();
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
/*
static void StopAll() {
if (startedEcg == 1) {
max30001_Stop_ECG();
}
if (startedCal == 1) {
}
if (startedBioz == 1) {
max30001_Stop_BIOZ();
}
if (startedPace == 1) {
max30001_Stop_PACE();
}
if (startedRtor == 1) {
max30001_Stop_RtoR();
}
startedEcg = 0;
startedBioz = 0;
startedCal = 0;
startedPace = 0;
startedRtor = 0;
}
*/
/*
// switch to ECG DC Lead ON
max30001_Enable_LeadON(0b01);
// switch to BIOZ DC Lead ON
max30001_Enable_LeadON(0b10);
*/
int MAX30001_Enable_ECG_LeadON(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
// switch to ECG DC Lead ON
Peripherals::max30001()->max30001_Enable_LeadON(0b01);
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
int MAX30001_Enable_BIOZ_LeadON(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
// switch to BIOZ DC Lead ON
Peripherals::max30001()->max30001_Enable_LeadON(0b10);
reply[0] = 0x80;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}
// uint32_t max30001_LeadOn; // This holds the LeadOn data, BIT1 = BIOZ Lead ON, BIT0 = ECG Lead ON
int MAX30001_Read_LeadON(char argStrs[32][32], char replyStrs[32][32]) {
uint32_t reply[1];
// return the max30001_LeadOn var from the MAX30001 driver
reply[0] = Peripherals::max30001()->max30001_LeadOn;
FormatReply32(reply, sizeof(reply) / sizeof(uint32_t), replyStrs);
return 0;
}