//----------------------------------------------------------------------------// // GNU GPL OS/K // // // // Desc: Kernel shell // // // // // // Copyright © 2018-2019 The OS/K Team // // // // This file is part of OS/K. // // // // OS/K is free software: you can redistribute it and/or modify // // it under the terms of the GNU General Public License as published by // // the Free Software Foundation, either version 3 of the License, or // // any later version. // // // // OS/K 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 General Public License for more details. // // // // You should have received a copy of the GNU General Public License // // along with OS/K. If not, see . // //----------------------------------------------------------------------------// #include "shell.h" error_t CmdBeep(int argc, char **argv, char *cmdline) { if (rand() % 64 == 0 || (argc > 1 && !strcmp(argv[1], "starwars"))) { IoDoStarWars(); } else IoDoBeep(); return EOK; } error_t CmdStarWars(int argc, char **argv, char *cmdline) { IoDoStarWars(); return EOK; } error_t CmdQuit(int argc, char **argv, char *cmdline) { PoShutdown(); return EOK; } error_t CmdHelp(int argc, char **argv, char *cmdline) { uint i, count = 0; Command_t *cmd; if (argc == 1) { KernLog("List of all shell built-ins:\n"); for (cmd = cmdtable; cmd->name != NULL; cmd++, count++) { KernLog("\t%s", cmd->name); for (i = strlen(cmd->name)/4; i<3; i++) { KernLog("\t"); } KernLog("%s\n", cmd->help); } KernLog("End of list; %u commands total\n", count); } return EOK; } error_t CmdDate(int argc, char **argv, char *cmdline) { IoPrintRtcTime(); return EOK; } error_t CmdMemMap(int argc, char **argv, char *cmdline) { MmPrintMemoryMap(); return EOK; } error_t CmdMemUsage(int argc, char **argv, char *cmdline) { char var; (void)var; size_t stack_cur; size_t img_diff, stack_diff; size_t heap_start, heap_end; size_t heap_diff, heap_max; ulong flags = KePauseIRQs(); heap_start = (size_t)_heap_start; heap_end = (size_t)_heap_end; heap_max = _heap_max; KeRestoreIRQs(flags); img_diff = (size_t)BtLoaderInfo.kernelEndAddr - (size_t)BtLoaderInfo.kernelAddr; stack_diff = (size_t)BtLoaderInfo.stackEndAddr - ((size_t)BtLoaderInfo.kernelEndAddr + 16); heap_diff = (size_t)heap_end - (size_t)heap_start; stack_cur = (size_t)BtLoaderInfo.stackEndAddr - (size_t)&var; KernLog("Kernel image\n"); KernLog("\tstarts at:\t\t%p (%4luMB + %4luKB + %4luB)\n", BtLoaderInfo.kernelAddr, _ADDR_TO_MB((size_t)BtLoaderInfo.kernelAddr), _ADDR_TO_KB((size_t)BtLoaderInfo.kernelAddr), _ADDR_TO_B((size_t)BtLoaderInfo.kernelAddr)); KernLog("\tends at:\t\t%p (%4luMB + %4luKB + %4luB)\n", (size_t)BtLoaderInfo.kernelEndAddr, _ADDR_TO_MB((size_t)BtLoaderInfo.kernelEndAddr), _ADDR_TO_KB((size_t)BtLoaderInfo.kernelEndAddr), _ADDR_TO_B((size_t)BtLoaderInfo.kernelEndAddr)); KernLog("\tsize:\t\t\t%4luMB + %4luKB + %4luB (%p)\n", _ADDR_TO_MB(img_diff), _ADDR_TO_KB(img_diff), _ADDR_TO_B(img_diff), img_diff); KernLog("Kernel stack\n"); KernLog("\tstarts at:\t\t%p (%4luMB + %4luKB + %4luB)\n", BtLoaderInfo.kernelEndAddr, _ADDR_TO_MB((size_t)BtLoaderInfo.stackEndAddr), _ADDR_TO_KB((size_t)BtLoaderInfo.stackEndAddr), _ADDR_TO_B((size_t)BtLoaderInfo.stackEndAddr)); KernLog("\tcurrently at:\t%p (%4luMB + %4luKB + %4luB)\n", (size_t)&var, _ADDR_TO_MB((size_t)&var), _ADDR_TO_KB((size_t)&var), _ADDR_TO_B((size_t)&var)); KernLog("\tmin address:\t%p (%4luMB + %4luKB + %4luB)\n", (size_t)BtLoaderInfo.kernelEndAddr+16, _ADDR_TO_MB((size_t)BtLoaderInfo.kernelEndAddr+16), _ADDR_TO_KB((size_t)BtLoaderInfo.kernelEndAddr+16), _ADDR_TO_B((size_t)BtLoaderInfo.kernelEndAddr+16)); KernLog("\tsize (cur):\t\t%4luMB + %4luKB + %4luB (%p)\n", _ADDR_TO_MB(stack_cur), _ADDR_TO_KB(stack_cur), _ADDR_TO_B(stack_cur), stack_cur); KernLog("\tsize (max):\t\t%4luMB + %4luKB + %4luB (%p)\n", _ADDR_TO_MB(stack_diff), _ADDR_TO_KB(stack_diff), _ADDR_TO_B(stack_diff), stack_diff); KernLog("Kernel heap\n"); KernLog("\tstarts at:\t\t%p (%4luMB + %4luKB + %4luB)\n", heap_start, _ADDR_TO_MB(heap_start), _ADDR_TO_KB(heap_start), _ADDR_TO_B(heap_start)); KernLog("\tends at:\t\t%p (%4luMB + %4luKB + %4luB)\n", heap_end, _ADDR_TO_MB(heap_end), _ADDR_TO_KB(heap_end), _ADDR_TO_B(heap_end)); KernLog("\tmax addr:\t\t%p (%4luMB + %4luKB + %4luB)\n", heap_start + heap_max, _ADDR_TO_MB(heap_start + heap_max), _ADDR_TO_KB(heap_start + heap_max), _ADDR_TO_B(heap_start + heap_max)); KernLog("\tsize (cur):\t\t%4luMB + %4luKB + %4luB (%p)\n", _ADDR_TO_MB(heap_diff), _ADDR_TO_KB(heap_diff), _ADDR_TO_B(heap_diff), heap_diff); KernLog("\tsize (max):\t\t%4luMB + %4luKB + %4luB (%p)\n", _ADDR_TO_MB(heap_max), _ADDR_TO_KB(heap_max), _ADDR_TO_B(heap_max), heap_max); return EOK; } extern void pstest(void); error_t CmdPsTest(int argc, char **argv, char *cmdline) { // pstest(); return EOK; } error_t CmdDie(int argc, char **argv, char *cmdline) { *(char *)NULL += 1; return EOK; } error_t CmdPF(int argc, char **argv, char *cmdline) { *((char*)0xDEADBEEF0) = 1; return EOK; } error_t CmdShell(int argc, char **argv, char *cmdline) { extern void KeStartShell(void); KeStartShell(); return EOK; } //----------------------------------------------------------------------------// Command_t cmdtable[] = { { "beep", CmdBeep, "Make a beep" }, { "date", CmdDate, "Print date" }, { "die", CmdDie, "Die painfully" }, { "exit", CmdQuit, "Initiate shutdown" }, { "help", CmdHelp, "Show this message" }, { "march", CmdStarWars, "Play the Imperial March"}, { "mmap", CmdMemMap, "Show memory map" }, { "musage", CmdMemUsage, "Show memory statistics" }, { "pfault", CmdPF, "Provokes a PF" }, { "pstest", CmdPsTest, "Scheduler test routine" }, { "shell", CmdShell, "New shell instance" }, { "quit", CmdQuit, "Alias for 'exit'" }, { NULL, NULL, NULL } };