/* StackThunk_light.c - Allow use second stack for BearSSL calls Light version with reduced Stack size due to Tasmota optimizations. BearSSL uses a significant amount of stack space, much larger than the default Arduino core stack. These routines handle swapping between a secondary, user-allocated stack on the heap and the real stack. Copyright (c) 2017 Earle F. Philhower, III. All rights reserved. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Modified 8 May 2015 by Hristo Gochkov (proper post and file upload handling) */ #include "my_user_config.h" #include #include #include "StackThunk_light.h" #include extern "C" { uint32_t *stack_thunk_light_ptr = NULL; uint32_t *stack_thunk_light_top = NULL; uint32_t *stack_thunk_light_save = NULL; /* Saved A1 while in BearSSL */ uint32_t stack_thunk_light_refcnt = 0; //#define _stackSize (5600/4) #if defined(USE_MQTT_AWS_IOT) || defined(USE_MQTT_TLS_FORCE_EC_CIPHER) #define _stackSize (5300/4) // using a light version of bearssl we can save 300 bytes #else #define _stackSize (3600/4) // using a light version of bearssl we can save 2k #endif #define _stackPaint 0xdeadbeef /* Add a reference, and allocate the stack if necessary */ void stack_thunk_light_add_ref() { stack_thunk_light_refcnt++; if (stack_thunk_light_refcnt == 1) { stack_thunk_light_ptr = (uint32_t *)malloc(_stackSize * sizeof(uint32_t)); stack_thunk_light_top = stack_thunk_light_ptr + _stackSize - 1; stack_thunk_light_save = NULL; stack_thunk_light_repaint(); } } /* Drop a reference, and free stack if no more in use */ void stack_thunk_light_del_ref() { if (stack_thunk_light_refcnt == 0) { /* Error! */ return; } stack_thunk_light_refcnt--; if (!stack_thunk_light_refcnt) { free(stack_thunk_light_ptr); stack_thunk_light_ptr = NULL; stack_thunk_light_top = NULL; stack_thunk_light_save = NULL; } } void stack_thunk_light_repaint() { if (stack_thunk_light_ptr) { for (int i=0; i < _stackSize; i++) { stack_thunk_light_ptr[i] = _stackPaint; } } } /* Simple accessor functions used by postmortem */ uint32_t stack_thunk_light_get_refcnt() { return stack_thunk_light_refcnt; } uint32_t stack_thunk_light_get_stack_top() { return (uint32_t)stack_thunk_light_top; } uint32_t stack_thunk_light_get_stack_bot() { return (uint32_t)stack_thunk_light_ptr; } uint32_t stack_thunk_light_get_cont_sp() { return (uint32_t)stack_thunk_light_save; } /* Return the number of bytes ever used since the stack was created */ uint32_t stack_thunk_light_get_max_usage() { uint32_t cnt = 0; /* No stack == no usage by definition! */ if (!stack_thunk_light_ptr) { return 0; } for (cnt=0; (cnt < _stackSize) && (stack_thunk_light_ptr[cnt] == _stackPaint); cnt++) { /* Noop, all work done in for() */ } return 4 * (_stackSize - cnt); } /* Print the stack from the first used 16-byte chunk to the top, decodable by the exception decoder */ void stack_thunk_light_dump_stack() { uint32_t *pos = stack_thunk_light_top; while (pos < stack_thunk_light_ptr) { if ((pos[0] != _stackPaint) || (pos[1] != _stackPaint) || (pos[2] != _stackPaint) || (pos[3] != _stackPaint)) break; pos += 4; } ets_printf(">>>stack>>>\n"); while (pos < stack_thunk_light_ptr) { ets_printf("%08x: %08x %08x %08x %08x\n", (int32_t)pos, pos[0], pos[1], pos[2], pos[3]); pos += 4; } ets_printf("<<