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/**
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* Marlin 3D Printer Firmware
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* Copyright (C) 2016 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
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*
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* Based on Sprinter and grbl.
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* Copyright (C) 2011 Camiel Gubbels / Erik van der Zalm
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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*/
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/**
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* M100 Free Memory Watcher
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*
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* This code watches the free memory block between the bottom of the heap and the top of the stack.
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* This memory block is initialized and watched via the M100 command.
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*
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* M100 I Initializes the free memory block and prints vitals statistics about the area
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* M100 F Identifies how much of the free memory block remains free and unused. It also
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* detects and reports any corruption within the free memory block that may have
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* happened due to errant firmware.
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* M100 D Does a hex display of the free memory block along with a flag for any errant
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* data that does not match the expected value.
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* M100 C x Corrupts x locations within the free memory block. This is useful to check the
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* correctness of the M100 F and M100 D commands.
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*
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* Initial version by Roxy-3DPrintBoard
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*/
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#define M100_FREE_MEMORY_DUMPER // Comment out to remove Dump sub-command
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#define M100_FREE_MEMORY_CORRUPTOR // Comment out to remove Corrupt sub-command
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#include "Marlin.h"
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#if ENABLED(M100_FREE_MEMORY_WATCHER)
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extern void* __brkval;
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extern size_t __heap_start, __heap_end, __flp;
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//
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// Declare all the functions we need from Marlin_Main.cpp to do the work!
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//
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float code_value();
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long code_value_long();
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bool code_seen(char);
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void serial_echopair_P(const char*, float);
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void serial_echopair_P(const char*, double);
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void serial_echopair_P(const char*, unsigned long);
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void serial_echopair_P(const char*, int);
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void serial_echopair_P(const char*, long);
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//
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// Utility functions used by M100 to get its work done.
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//
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unsigned char* top_of_stack();
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void prt_hex_nibble(unsigned int);
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void prt_hex_byte(unsigned int);
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void prt_hex_word(unsigned int);
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int how_many_E5s_are_here(unsigned char*);
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void gcode_M100() {
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static int m100_not_initialized = 1;
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unsigned char* sp, *ptr;
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int i, j, n;
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//
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// M100 D dumps the free memory block from __brkval to the stack pointer.
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// malloc() eats memory from the start of the block and the stack grows
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// up from the bottom of the block. Solid 0xE5's indicate nothing has
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// used that memory yet. There should not be anything but 0xE5's within
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// the block of 0xE5's. If there is, that would indicate memory corruption
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// probably caused by bad pointers. Any unexpected values will be flagged in
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// the right hand column to help spotting them.
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//
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#if ENABLED(M100_FREE_MEMORY_DUMPER) // Disable to remove Dump sub-command
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if (code_seen('D')) {
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ptr = (unsigned char*) __brkval;
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//
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// We want to start and end the dump on a nice 16 byte boundry even though
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// the values we are using are not 16 byte aligned.
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//
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SERIAL_ECHOPGM("\n__brkval : ");
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prt_hex_word((unsigned int) ptr);
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ptr = (unsigned char*)((unsigned long) ptr & 0xfff0);
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sp = top_of_stack();
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SERIAL_ECHOPGM("\nStack Pointer : ");
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prt_hex_word((unsigned int) sp);
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SERIAL_ECHOPGM("\n");
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sp = (unsigned char*)((unsigned long) sp | 0x000f);
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n = sp - ptr;
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//
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// This is the main loop of the Dump command.
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//
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while (ptr < sp) {
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prt_hex_word((unsigned int) ptr); // Print the address
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SERIAL_ECHOPGM(":");
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for (i = 0; i < 16; i++) { // and 16 data bytes
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prt_hex_byte(*(ptr + i));
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SERIAL_ECHOPGM(" ");
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delay(2);
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}
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SERIAL_ECHO("|"); // now show where non 0xE5's are
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for (i = 0; i < 16; i++) {
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delay(2);
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if (*(ptr + i) == 0xe5)
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SERIAL_ECHOPGM(" ");
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else
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SERIAL_ECHOPGM("?");
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}
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SERIAL_ECHO("\n");
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ptr += 16;
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delay(2);
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}
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SERIAL_ECHOLNPGM("Done.\n");
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return;
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}
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#endif
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//
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// M100 F requests the code to return the number of free bytes in the memory pool along with
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// other vital statistics that define the memory pool.
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//
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if (code_seen('F')) {
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int max_addr = (int) __brkval;
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int max_cnt = 0;
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int block_cnt = 0;
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ptr = (unsigned char*) __brkval;
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sp = top_of_stack();
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n = sp - ptr;
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// Scan through the range looking for the biggest block of 0xE5's we can find
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for (i = 0; i < n; i++) {
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if (*(ptr + i) == (unsigned char) 0xe5) {
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j = how_many_E5s_are_here((unsigned char*) ptr + i);
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if (j > 8) {
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SERIAL_ECHOPAIR("Found ", j);
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SERIAL_ECHOPGM(" bytes free at 0x");
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prt_hex_word((int) ptr + i);
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SERIAL_ECHOPGM("\n");
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i += j;
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block_cnt++;
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}
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if (j > max_cnt) { // We don't do anything with this information yet
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max_cnt = j; // but we do know where the biggest free memory block is.
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max_addr = (int) ptr + i;
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}
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}
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}
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if (block_cnt > 1)
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SERIAL_ECHOLNPGM("\nMemory Corruption detected in free memory area.\n");
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SERIAL_ECHO("\nDone.\n");
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return;
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}
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//
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// M100 C x Corrupts x locations in the free memory pool and reports the locations of the corruption.
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// This is useful to check the correctness of the M100 D and the M100 F commands.
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//
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#if ENABLED(M100_FREE_MEMORY_CORRUPTOR)
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if (code_seen('C')) {
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int x; // x gets the # of locations to corrupt within the memory pool
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x = code_value();
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SERIAL_ECHOLNPGM("Corrupting free memory block.\n");
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ptr = (unsigned char*) __brkval;
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SERIAL_ECHOPAIR("\n__brkval : ", (long) ptr);
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ptr += 8;
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sp = top_of_stack();
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SERIAL_ECHOPAIR("\nStack Pointer : ", (long) sp);
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SERIAL_ECHOLNPGM("\n");
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n = sp - ptr - 64; // -64 just to keep us from finding interrupt activity that
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// has altered the stack.
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j = n / (x + 1);
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for (i = 1; i <= x; i++) {
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*(ptr + (i * j)) = i;
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SERIAL_ECHO("\nCorrupting address: 0x");
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prt_hex_word((unsigned int)(ptr + (i * j)));
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}
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SERIAL_ECHOLNPGM("\n");
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return;
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}
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#endif
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//
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// M100 I Initializes the free memory pool so it can be watched and prints vital
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// statistics that define the free memory pool.
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//
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if (m100_not_initialized || code_seen('I')) { // If no sub-command is specified, the first time
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SERIAL_ECHOLNPGM("Initializing free memory block.\n"); // this happens, it will Initialize.
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ptr = (unsigned char*) __brkval; // Repeated M100 with no sub-command will not destroy the
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SERIAL_ECHOPAIR("\n__brkval : ", (long) ptr); // state of the initialized free memory pool.
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ptr += 8;
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sp = top_of_stack();
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SERIAL_ECHOPAIR("\nStack Pointer : ", (long) sp);
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SERIAL_ECHOLNPGM("\n");
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n = sp - ptr - 64; // -64 just to keep us from finding interrupt activity that
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// has altered the stack.
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SERIAL_ECHO(n);
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SERIAL_ECHOLNPGM(" bytes of memory initialized.\n");
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for (i = 0; i < n; i++)
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*(ptr + i) = (unsigned char) 0xe5;
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for (i = 0; i < n; i++) {
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if (*(ptr + i) != (unsigned char) 0xe5) {
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SERIAL_ECHOPAIR("? address : ", (unsigned long) ptr + i);
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SERIAL_ECHOPAIR("=", *(ptr + i));
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SERIAL_ECHOLNPGM("\n");
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}
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}
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m100_not_initialized = 0;
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SERIAL_ECHOLNPGM("Done.\n");
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return;
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}
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return;
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}
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// top_of_stack() returns the location of a variable on its stack frame. The value returned is above
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// the stack once the function returns to the caller.
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unsigned char* top_of_stack() {
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unsigned char x;
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return &x + 1; // x is pulled on return;
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}
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//
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// 3 support routines to print hex numbers. We can print a nibble, byte and word
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//
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void prt_hex_nibble(unsigned int n) {
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if (n <= 9)
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SERIAL_ECHO(n);
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else
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SERIAL_ECHO((char)('A' + n - 10));
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delay(2);
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}
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void prt_hex_byte(unsigned int b) {
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prt_hex_nibble((b & 0xf0) >> 4);
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prt_hex_nibble(b & 0x0f);
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}
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void prt_hex_word(unsigned int w) {
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prt_hex_byte((w & 0xff00) >> 8);
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prt_hex_byte(w & 0x0ff);
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}
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// how_many_E5s_are_here() is a utility function to easily find out how many 0xE5's are
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// at the specified location. Having this logic as a function simplifies the search code.
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//
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int how_many_E5s_are_here(unsigned char* p) {
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int n;
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for (n = 0; n < 32000; n++) {
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if (*(p + n) != (unsigned char) 0xe5)
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return n - 1;
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}
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return -1;
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}
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#endif
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