Jerry Bradshaw / Mbed OS HSP_RPC_GUI_3_0_1

Firmware enhancements for HSP_RPC_GUI 3.0.1

Dependencies:   USBDevice

Fork of HSP_RPC_GUI by Maxim Integrated

This command can be used to import the project to your local environment

Quote:

mbed import http://mbed.org/users/jbradshaw/code/HSP_RPC_GUI_3_0_1/

This command can be used to compile the code and produce the HSP_RPC_GUI_3_0_1.bin

Quote:

mbed compile -t GCC_ARM -m MAX32620HSP

This link may be used to install the mbed command-line-interface (cli) if needed

Quote:

https://github.com/ARMmbed/mbed-cli

HSP/RpcServer/StringInOut.cpp@3:8e9b9f5818aa, 2017-04-25 (annotated)

Committer:
jbradshaw
Date:
Tue Apr 25 10:47:10 2017 -0500
Revision:
3:8e9b9f5818aa
Parent:
1:9490836294ea 
Removed Bulk Erasing, instead a small number of bytes are sampled from each and every page to determine if sector is "dirty", if so sector is erased

Prevents device from sleeping when the firmware detects a series of binary flash page RPC transfers, this increases flash page transfers by %450

  when 200mS elapse with the last flash page transfer, normal sleep behaviour is resumed

Who changed what in which revision?

UserRevisionLine numberNew contents of line
jbradshaw 0:e4a10ed6eb92 1 /*******************************************************************************
jbradshaw 0:e4a10ed6eb92 2 * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved.
jbradshaw 0:e4a10ed6eb92 3 *
jbradshaw 0:e4a10ed6eb92 4 * Permission is hereby granted, free of charge, to any person obtaining a
jbradshaw 0:e4a10ed6eb92 5 * copy of this software and associated documentation files (the "Software"),
jbradshaw 0:e4a10ed6eb92 6 * to deal in the Software without restriction, including without limitation
jbradshaw 0:e4a10ed6eb92 7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
jbradshaw 0:e4a10ed6eb92 8 * and/or sell copies of the Software, and to permit persons to whom the
jbradshaw 0:e4a10ed6eb92 9 * Software is furnished to do so, subject to the following conditions:
jbradshaw 0:e4a10ed6eb92 10 *
jbradshaw 0:e4a10ed6eb92 11 * The above copyright notice and this permission notice shall be included
jbradshaw 0:e4a10ed6eb92 12 * in all copies or substantial portions of the Software.
jbradshaw 0:e4a10ed6eb92 13 *
jbradshaw 0:e4a10ed6eb92 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
jbradshaw 0:e4a10ed6eb92 15 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
jbradshaw 0:e4a10ed6eb92 16 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
jbradshaw 0:e4a10ed6eb92 17 * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
jbradshaw 0:e4a10ed6eb92 18 * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
jbradshaw 0:e4a10ed6eb92 19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
jbradshaw 0:e4a10ed6eb92 20 * OTHER DEALINGS IN THE SOFTWARE.
jbradshaw 0:e4a10ed6eb92 21 *
jbradshaw 0:e4a10ed6eb92 22 * Except as contained in this notice, the name of Maxim Integrated
jbradshaw 0:e4a10ed6eb92 23 * Products, Inc. shall not be used except as stated in the Maxim Integrated
jbradshaw 0:e4a10ed6eb92 24 * Products, Inc. Branding Policy.
jbradshaw 0:e4a10ed6eb92 25 *
jbradshaw 0:e4a10ed6eb92 26 * The mere transfer of this software does not imply any licenses
jbradshaw 0:e4a10ed6eb92 27 * of trade secrets, proprietary technology, copyrights, patents,
jbradshaw 0:e4a10ed6eb92 28 * trademarks, maskwork rights, or any other form of intellectual
jbradshaw 0:e4a10ed6eb92 29 * property whatsoever. Maxim Integrated Products, Inc. retains all
jbradshaw 0:e4a10ed6eb92 30 * ownership rights.
jbradshaw 0:e4a10ed6eb92 31 *******************************************************************************
jbradshaw 0:e4a10ed6eb92 32 */
jbradshaw 0:e4a10ed6eb92 33 #include "mbed.h"
jbradshaw 0:e4a10ed6eb92 34 #include "USBSerial.h"
jbradshaw 0:e4a10ed6eb92 35 #include "RpcFifo.h"
jbradshaw 0:e4a10ed6eb92 36 #include "RpcServer.h"
jbradshaw 0:e4a10ed6eb92 37 #include "StringInOut.h"
jbradshaw 0:e4a10ed6eb92 38 #include "Peripherals.h"
jbradshaw 0:e4a10ed6eb92 39
jbradshaw 0:e4a10ed6eb92 40 /// a running index that keeps track of where an incoming string has been
jbradshaw 0:e4a10ed6eb92 41 /// buffered to
jbradshaw 0:e4a10ed6eb92 42 static int lineBuffer_index = 0;
jbradshaw 0:e4a10ed6eb92 43 /// a flag that keeps track of the state of accumulating a string
jbradshaw 0:e4a10ed6eb92 44 static int getLine_State = GETLINE_WAITING;
jbradshaw 0:e4a10ed6eb92 45
jbradshaw 1:9490836294ea 46 extern USBSerial *usbSerialPtr;
jbradshaw 1:9490836294ea 47
jbradshaw 0:e4a10ed6eb92 48 /**
jbradshaw 0:e4a10ed6eb92 49 * @brief Place incoming USB characters into a fifo
jbradshaw 0:e4a10ed6eb92 50 * @param data_IN buffer of characters
jbradshaw 0:e4a10ed6eb92 51 * @param len length of data
jbradshaw 0:e4a10ed6eb92 52 */
jbradshaw 0:e4a10ed6eb92 53 int fifoIncomingChars(uint8_t data_IN[], unsigned int len) {
jbradshaw 1:9490836294ea 54 unsigned int i;
jbradshaw 0:e4a10ed6eb92 55 for (i = 0; i < len; i++) {
jbradshaw 0:e4a10ed6eb92 56 fifo_put8(GetUSBIncomingFifo(), data_IN[i]);
jbradshaw 0:e4a10ed6eb92 57 }
jbradshaw 0:e4a10ed6eb92 58 return 0;
jbradshaw 0:e4a10ed6eb92 59 }
jbradshaw 0:e4a10ed6eb92 60
jbradshaw 0:e4a10ed6eb92 61 /**
jbradshaw 0:e4a10ed6eb92 62 * @brief Check the USB incoming fifo to see if there is data to be read
jbradshaw 0:e4a10ed6eb92 63 * @return 1 if there is data to be read, 0 if data is not available
jbradshaw 0:e4a10ed6eb92 64 */
jbradshaw 0:e4a10ed6eb92 65 int isReadReady(void) {
jbradshaw 0:e4a10ed6eb92 66 if (fifo_empty(GetUSBIncomingFifo()) == 0)
jbradshaw 0:e4a10ed6eb92 67 return 1;
jbradshaw 0:e4a10ed6eb92 68 return 0;
jbradshaw 0:e4a10ed6eb92 69 }
jbradshaw 0:e4a10ed6eb92 70
jbradshaw 0:e4a10ed6eb92 71 /**
jbradshaw 0:e4a10ed6eb92 72 * @brief Clear the incoming USB read fifo
jbradshaw 0:e4a10ed6eb92 73 */
jbradshaw 0:e4a10ed6eb92 74 void clearOutReadFifo(void) { fifo_clear(GetUSBIncomingFifo()); }
jbradshaw 0:e4a10ed6eb92 75
jbradshaw 0:e4a10ed6eb92 76 /**
jbradshaw 0:e4a10ed6eb92 77 * @brief Block until a character can be read from the USB
jbradshaw 0:e4a10ed6eb92 78 * @return the character read
jbradshaw 0:e4a10ed6eb92 79 */
jbradshaw 0:e4a10ed6eb92 80 char getch(void) {
jbradshaw 0:e4a10ed6eb92 81 uint8_t ch;
jbradshaw 0:e4a10ed6eb92 82 // block until char is ready
jbradshaw 0:e4a10ed6eb92 83 while (isReadReady() == 0) {
jbradshaw 0:e4a10ed6eb92 84 }
jbradshaw 0:e4a10ed6eb92 85 // read a char from buffer
jbradshaw 0:e4a10ed6eb92 86 fifo_get8(GetUSBIncomingFifo(), &ch);
jbradshaw 0:e4a10ed6eb92 87 return ch;
jbradshaw 0:e4a10ed6eb92 88 }
jbradshaw 0:e4a10ed6eb92 89
jbradshaw 0:e4a10ed6eb92 90 /**
jbradshaw 0:e4a10ed6eb92 91 * @brief Place incoming USB characters into a fifo
jbradshaw 0:e4a10ed6eb92 92 * @param lineBuffer buffer to place the incoming characters
jbradshaw 0:e4a10ed6eb92 93 * @param bufferLength length of buffer
jbradshaw 0:e4a10ed6eb92 94 * @return GETLINE_WAITING if still waiting for a CRLF, GETLINE_DONE
jbradshaw 0:e4a10ed6eb92 95 */
jbradshaw 0:e4a10ed6eb92 96 int getLine(char *lineBuffer, int bufferLength) {
jbradshaw 0:e4a10ed6eb92 97 uint8_t ch;
jbradshaw 0:e4a10ed6eb92 98
jbradshaw 1:9490836294ea 99 //USBSerial *serial = Peripherals::usbSerial();
jbradshaw 0:e4a10ed6eb92 100 if (getLine_State == GETLINE_DONE) {
jbradshaw 0:e4a10ed6eb92 101 getLine_State = GETLINE_WAITING;
jbradshaw 0:e4a10ed6eb92 102 }
jbradshaw 1:9490836294ea 103 if (usbSerialPtr->available() != 0) {
jbradshaw 1:9490836294ea 104 ch = usbSerialPtr->_getc();
jbradshaw 0:e4a10ed6eb92 105 if (ch != 0x0A && ch != 0x0D) {
jbradshaw 0:e4a10ed6eb92 106 lineBuffer[lineBuffer_index++] = ch;
jbradshaw 0:e4a10ed6eb92 107 }
jbradshaw 0:e4a10ed6eb92 108 if (ch == 0x0D) {
jbradshaw 0:e4a10ed6eb92 109 lineBuffer[lineBuffer_index++] = 0;
jbradshaw 0:e4a10ed6eb92 110 lineBuffer_index = 0;
jbradshaw 0:e4a10ed6eb92 111 getLine_State = GETLINE_DONE;
jbradshaw 0:e4a10ed6eb92 112 }
jbradshaw 0:e4a10ed6eb92 113 if (lineBuffer_index > bufferLength) {
jbradshaw 0:e4a10ed6eb92 114 lineBuffer[bufferLength - 1] = 0;
jbradshaw 0:e4a10ed6eb92 115 getLine_State = GETLINE_DONE;
jbradshaw 0:e4a10ed6eb92 116 }
jbradshaw 0:e4a10ed6eb92 117 }
jbradshaw 0:e4a10ed6eb92 118 return getLine_State;
jbradshaw 0:e4a10ed6eb92 119 }
jbradshaw 0:e4a10ed6eb92 120
jbradshaw 0:e4a10ed6eb92 121 /**
jbradshaw 0:e4a10ed6eb92 122 * @brief Block until a fixed number of characters has been accumulated from the
jbradshaw 0:e4a10ed6eb92 123 * incoming USB
jbradshaw 0:e4a10ed6eb92 124 * @param lineBuffer buffer to place the incoming characters
jbradshaw 0:e4a10ed6eb92 125 * @param maxLength length of buffer
jbradshaw 0:e4a10ed6eb92 126 */
jbradshaw 0:e4a10ed6eb92 127 void getStringFixedLength(uint8_t *lineBuffer, int maxLength) {
jbradshaw 0:e4a10ed6eb92 128 uint8_t ch;
jbradshaw 0:e4a10ed6eb92 129 int index = 0;
jbradshaw 0:e4a10ed6eb92 130 // block until maxLength is captured
jbradshaw 0:e4a10ed6eb92 131 while (1) {
jbradshaw 0:e4a10ed6eb92 132 ch = getch();
jbradshaw 0:e4a10ed6eb92 133 lineBuffer[index++] = ch;
jbradshaw 0:e4a10ed6eb92 134 if (index == maxLength)
jbradshaw 0:e4a10ed6eb92 135 return;
jbradshaw 0:e4a10ed6eb92 136 }
jbradshaw 0:e4a10ed6eb92 137 }
jbradshaw 0:e4a10ed6eb92 138
jbradshaw 0:e4a10ed6eb92 139 /**
jbradshaw 0:e4a10ed6eb92 140 * @brief Outut an array of bytes out the USB serial port
jbradshaw 0:e4a10ed6eb92 141 * @param data buffer to output
jbradshaw 0:e4a10ed6eb92 142 * @param length length of buffer
jbradshaw 0:e4a10ed6eb92 143 */
jbradshaw 0:e4a10ed6eb92 144 int putBytes(uint8_t *data, uint32_t length) {
jbradshaw 1:9490836294ea 145 int sent;
jbradshaw 1:9490836294ea 146 int send;
jbradshaw 1:9490836294ea 147 bool status;
jbradshaw 1:9490836294ea 148 uint8_t *ptr;
jbradshaw 1:9490836294ea 149 ptr = data;
jbradshaw 1:9490836294ea 150 //
jbradshaw 1:9490836294ea 151 // break up the string into chunks
jbradshaw 1:9490836294ea 152 //
jbradshaw 1:9490836294ea 153 sent = 0;
jbradshaw 1:9490836294ea 154 do {
jbradshaw 1:9490836294ea 155 send = MAX_PACKET_SIZE_EPBULK;
jbradshaw 1:9490836294ea 156 if ((sent + MAX_PACKET_SIZE_EPBULK) > (int)length) {
jbradshaw 1:9490836294ea 157 send = length - sent;
jbradshaw 1:9490836294ea 158 }
jbradshaw 1:9490836294ea 159 status = usbSerialPtr->writeBlock(ptr,send);
jbradshaw 1:9490836294ea 160 if (status != true) {
jbradshaw 1:9490836294ea 161 while (1) ;
jbradshaw 1:9490836294ea 162 }
jbradshaw 1:9490836294ea 163 sent += send;
jbradshaw 1:9490836294ea 164 ptr += send;
jbradshaw 1:9490836294ea 165 } while (sent < (int)length);
jbradshaw 0:e4a10ed6eb92 166 return 0;
jbradshaw 0:e4a10ed6eb92 167 }
jbradshaw 0:e4a10ed6eb92 168
jbradshaw 0:e4a10ed6eb92 169 /**
jbradshaw 1:9490836294ea 170 * @brief Output a string out the USB serial port
jbradshaw 1:9490836294ea 171 * @param str to output
jbradshaw 0:e4a10ed6eb92 172 */
jbradshaw 1:9490836294ea 173 int putStr(const char *str) {
jbradshaw 1:9490836294ea 174 int length;
jbradshaw 0:e4a10ed6eb92 175 uint8_t *ptr;
jbradshaw 1:9490836294ea 176 ptr = (uint8_t *)str;
jbradshaw 1:9490836294ea 177 length = strlen(str);
jbradshaw 1:9490836294ea 178 putBytes(ptr, length);
jbradshaw 0:e4a10ed6eb92 179 return 0;
jbradshaw 0:e4a10ed6eb92 180 }