WebSVN – HelenOS – Blame – /branches/dynload/kernel/generic/src/console/cmd.c

Rev	Author	Line No.	Line
596	jermar	1	/*
2071	jermar	2	* Copyright (c) 2005 Jakub Jermar
596	jermar	3	* All rights reserved.
		4	*
		5	* Redistribution and use in source and binary forms, with or without
		6	* modification, are permitted provided that the following conditions
		7	* are met:
		8	*
		9	* - Redistributions of source code must retain the above copyright
		10	* notice, this list of conditions and the following disclaimer.
		11	* - Redistributions in binary form must reproduce the above copyright
		12	* notice, this list of conditions and the following disclaimer in the
		13	* documentation and/or other materials provided with the distribution.
		14	* - The name of the author may not be used to endorse or promote products
		15	* derived from this software without specific prior written permission.
		16	*
		17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		27	*/
		28
1888	jermar	29	/** @addtogroup genericconsole
1702	cejka	30	* @{
		31	*/
		32
596	jermar	33	/**
1264	jermar	34	* @file cmd.c
		35	* @brief Kernel console command wrappers.
		36	*
596	jermar	37	* This file is meant to contain all wrapper functions for
		38	* all kconsole commands. The point is in separating
		39	* kconsole specific wrappers from kconsole-unaware functions
		40	* from other subsystems.
		41	*/
		42
		43	#include <console/cmd.h>
1474	palkovsky	44	#include <console/console.h>
596	jermar	45	#include <console/kconsole.h>
		46	#include <print.h>
		47	#include <panic.h>
		48	#include <arch/types.h>
788	jermar	49	#include <adt/list.h>
596	jermar	50	#include <arch.h>
2227	decky	51	#include <config.h>
596	jermar	52	#include <func.h>
		53	#include <macros.h>
		54	#include <debug.h>
		55	#include <symtab.h>
673	jermar	56	#include <cpu.h>
596	jermar	57	#include <mm/tlb.h>
		58	#include <arch/mm/tlb.h>
668	bondari	59	#include <mm/frame.h>
673	jermar	60	#include <main/version.h>
759	palkovsky	61	#include <mm/slab.h>
775	palkovsky	62	#include <proc/scheduler.h>
777	palkovsky	63	#include <proc/thread.h>
1060	palkovsky	64	#include <proc/task.h>
1573	palkovsky	65	#include <ipc/ipc.h>
1712	palkovsky	66	#include <ipc/irq.h>
596	jermar	67
2019	decky	68	#ifdef CONFIG_TEST
		69	#include <test.h>
		70	#endif
		71
1702	cejka	72	/* Data and methods for 'help' command. */
596	jermar	73	static int cmd_help(cmd_arg_t *argv);
		74	static cmd_info_t help_info = {
		75	.name = "help",
		76	.description = "List of supported commands.",
		77	.func = cmd_help,
		78	.argc = 0
		79	};
		80
609	palkovsky	81	static cmd_info_t exit_info = {
		82	.name = "exit",
2227	decky	83	.description = "Exit kconsole.",
609	palkovsky	84	.argc = 0
		85	};
		86
2227	decky	87	static int cmd_reboot(cmd_arg_t *argv);
		88	static cmd_info_t reboot_info = {
		89	.name = "reboot",
		90	.description = "Reboot.",
		91	.func = cmd_reboot,
		92	.argc = 0
		93	};
		94
2275	decky	95	static int cmd_uptime(cmd_arg_t *argv);
		96	static cmd_info_t uptime_info = {
		97	.name = "uptime",
		98	.description = "Print uptime information.",
		99	.func = cmd_uptime,
		100	.argc = 0
		101	};
		102
1474	palkovsky	103	static int cmd_continue(cmd_arg_t *argv);
		104	static cmd_info_t continue_info = {
		105	.name = "continue",
2019	decky	106	.description = "Return console back to userspace.",
1474	palkovsky	107	.func = cmd_continue,
		108	.argc = 0
		109	};
		110
2019	decky	111	#ifdef CONFIG_TEST
		112	static int cmd_tests(cmd_arg_t *argv);
		113	static cmd_info_t tests_info = {
		114	.name = "tests",
		115	.description = "Print available kernel tests.",
		116	.func = cmd_tests,
		117	.argc = 0
		118	};
		119
		120	static char test_buf[MAX_CMDLINE + 1];
		121	static int cmd_test(cmd_arg_t *argv);
		122	static cmd_arg_t test_argv[] = {
		123	{
		124	.type = ARG_TYPE_STRING,
		125	.buffer = test_buf,
		126	.len = sizeof(test_buf)
		127	}
		128	};
		129	static cmd_info_t test_info = {
		130	.name = "test",
		131	.description = "Run kernel test.",
		132	.func = cmd_test,
		133	.argc = 1,
		134	.argv = test_argv
		135	};
2050	decky	136
		137	static int cmd_bench(cmd_arg_t *argv);
		138	static cmd_arg_t bench_argv[] = {
		139	{
		140	.type = ARG_TYPE_STRING,
		141	.buffer = test_buf,
		142	.len = sizeof(test_buf)
		143	},
		144	{
		145	.type = ARG_TYPE_INT,
		146	}
		147	};
		148	static cmd_info_t bench_info = {
		149	.name = "bench",
		150	.description = "Run kernel test as benchmark.",
		151	.func = cmd_bench,
		152	.argc = 2,
		153	.argv = bench_argv
		154	};
2019	decky	155	#endif
		156
1702	cejka	157	/* Data and methods for 'description' command. */
596	jermar	158	static int cmd_desc(cmd_arg_t *argv);
		159	static void desc_help(void);
		160	static char desc_buf[MAX_CMDLINE+1];
		161	static cmd_arg_t desc_argv = {
		162	.type = ARG_TYPE_STRING,
		163	.buffer = desc_buf,
		164	.len = sizeof(desc_buf)
		165	};
		166	static cmd_info_t desc_info = {
		167	.name = "describe",
		168	.description = "Describe specified command.",
		169	.help = desc_help,
		170	.func = cmd_desc,
		171	.argc = 1,
		172	.argv = &desc_argv
		173	};
		174
1702	cejka	175	/* Data and methods for 'symaddr' command. */
596	jermar	176	static int cmd_symaddr(cmd_arg_t *argv);
		177	static char symaddr_buf[MAX_CMDLINE+1];
		178	static cmd_arg_t symaddr_argv = {
		179	.type = ARG_TYPE_STRING,
		180	.buffer = symaddr_buf,
		181	.len = sizeof(symaddr_buf)
		182	};
		183	static cmd_info_t symaddr_info = {
		184	.name = "symaddr",
		185	.description = "Return symbol address.",
		186	.func = cmd_symaddr,
		187	.argc = 1,
		188	.argv = &symaddr_argv
		189	};
		190
603	palkovsky	191	static char set_buf[MAX_CMDLINE+1];
		192	static int cmd_set4(cmd_arg_t *argv);
		193	static cmd_arg_t set4_argv[] = {
		194	{
		195	.type = ARG_TYPE_STRING,
		196	.buffer = set_buf,
		197	.len = sizeof(set_buf)
		198	},
		199	{
		200	.type = ARG_TYPE_INT
		201	}
		202	};
		203	static cmd_info_t set4_info = {
		204	.name = "set4",
		205	.description = "set <dest_addr> <value> - 4byte version",
		206	.func = cmd_set4,
		207	.argc = 2,
		208	.argv = set4_argv
		209	};
		210
1702	cejka	211	/* Data and methods for 'call0' command. */
2223	decky	212	static char call0_buf[MAX_CMDLINE + 1];
		213	static char carg1_buf[MAX_CMDLINE + 1];
		214	static char carg2_buf[MAX_CMDLINE + 1];
		215	static char carg3_buf[MAX_CMDLINE + 1];
596	jermar	216
		217	static int cmd_call0(cmd_arg_t *argv);
		218	static cmd_arg_t call0_argv = {
		219	.type = ARG_TYPE_STRING,
		220	.buffer = call0_buf,
		221	.len = sizeof(call0_buf)
		222	};
		223	static cmd_info_t call0_info = {
		224	.name = "call0",
		225	.description = "call0 <function> -> call function().",
		226	.func = cmd_call0,
		227	.argc = 1,
		228	.argv = &call0_argv
		229	};
		230
2223	decky	231	/* Data and methods for 'mcall0' command. */
		232	static int cmd_mcall0(cmd_arg_t *argv);
		233	static cmd_arg_t mcall0_argv = {
		234	.type = ARG_TYPE_STRING,
		235	.buffer = call0_buf,
		236	.len = sizeof(call0_buf)
		237	};
		238	static cmd_info_t mcall0_info = {
		239	.name = "mcall0",
		240	.description = "mcall0 <function> -> call function() on each CPU.",
		241	.func = cmd_mcall0,
		242	.argc = 1,
		243	.argv = &mcall0_argv
		244	};
		245
1702	cejka	246	/* Data and methods for 'call1' command. */
596	jermar	247	static int cmd_call1(cmd_arg_t *argv);
		248	static cmd_arg_t call1_argv[] = {
		249	{
		250	.type = ARG_TYPE_STRING,
		251	.buffer = call0_buf,
		252	.len = sizeof(call0_buf)
		253	},
		254	{
		255	.type = ARG_TYPE_VAR,
		256	.buffer = carg1_buf,
		257	.len = sizeof(carg1_buf)
		258	}
		259	};
		260	static cmd_info_t call1_info = {
		261	.name = "call1",
		262	.description = "call1 <function> <arg1> -> call function(arg1).",
		263	.func = cmd_call1,
		264	.argc = 2,
		265	.argv = call1_argv
		266	};
		267
1702	cejka	268	/* Data and methods for 'call2' command. */
596	jermar	269	static int cmd_call2(cmd_arg_t *argv);
		270	static cmd_arg_t call2_argv[] = {
		271	{
		272	.type = ARG_TYPE_STRING,
		273	.buffer = call0_buf,
		274	.len = sizeof(call0_buf)
		275	},
		276	{
		277	.type = ARG_TYPE_VAR,
		278	.buffer = carg1_buf,
		279	.len = sizeof(carg1_buf)
		280	},
		281	{
		282	.type = ARG_TYPE_VAR,
		283	.buffer = carg2_buf,
		284	.len = sizeof(carg2_buf)
		285	}
		286	};
		287	static cmd_info_t call2_info = {
		288	.name = "call2",
		289	.description = "call2 <function> <arg1> <arg2> -> call function(arg1,arg2).",
		290	.func = cmd_call2,
		291	.argc = 3,
		292	.argv = call2_argv
		293	};
		294
1702	cejka	295	/* Data and methods for 'call3' command. */
596	jermar	296	static int cmd_call3(cmd_arg_t *argv);
		297	static cmd_arg_t call3_argv[] = {
		298	{
		299	.type = ARG_TYPE_STRING,
		300	.buffer = call0_buf,
		301	.len = sizeof(call0_buf)
		302	},
		303	{
		304	.type = ARG_TYPE_VAR,
		305	.buffer = carg1_buf,
		306	.len = sizeof(carg1_buf)
		307	},
		308	{
		309	.type = ARG_TYPE_VAR,
		310	.buffer = carg2_buf,
		311	.len = sizeof(carg2_buf)
		312	},
		313	{
		314	.type = ARG_TYPE_VAR,
		315	.buffer = carg3_buf,
		316	.len = sizeof(carg3_buf)
		317	}
		318
		319	};
		320	static cmd_info_t call3_info = {
		321	.name = "call3",
		322	.description = "call3 <function> <arg1> <arg2> <arg3> -> call function(arg1,arg2,arg3).",
		323	.func = cmd_call3,
		324	.argc = 4,
		325	.argv = call3_argv
		326	};
		327
1702	cejka	328	/* Data and methods for 'halt' command. */
596	jermar	329	static int cmd_halt(cmd_arg_t *argv);
		330	static cmd_info_t halt_info = {
		331	.name = "halt",
		332	.description = "Halt the kernel.",
		333	.func = cmd_halt,
		334	.argc = 0
		335	};
		336
2721	decky	337	/* Data and methods for 'physmem' command. */
		338	static int cmd_physmem(cmd_arg_t *argv);
		339	cmd_info_t physmem_info = {
		340	.name = "physmem",
		341	.description = "Print physical memory configuration.",
		342	.help = NULL,
		343	.func = cmd_physmem,
		344	.argc = 0,
		345	.argv = NULL
		346	};
		347
1702	cejka	348	/* Data and methods for 'tlb' command. */
673	jermar	349	static int cmd_tlb(cmd_arg_t *argv);
		350	cmd_info_t tlb_info = {
		351	.name = "tlb",
596	jermar	352	.description = "Print TLB of current processor.",
		353	.help = NULL,
673	jermar	354	.func = cmd_tlb,
596	jermar	355	.argc = 0,
		356	.argv = NULL
		357	};
		358
777	palkovsky	359	static int cmd_threads(cmd_arg_t *argv);
		360	static cmd_info_t threads_info = {
		361	.name = "threads",
1695	jermar	362	.description = "List all threads.",
777	palkovsky	363	.func = cmd_threads,
		364	.argc = 0
		365	};
668	bondari	366
1060	palkovsky	367	static int cmd_tasks(cmd_arg_t *argv);
		368	static cmd_info_t tasks_info = {
		369	.name = "tasks",
1695	jermar	370	.description = "List all tasks.",
1060	palkovsky	371	.func = cmd_tasks,
		372	.argc = 0
		373	};
777	palkovsky	374
1060	palkovsky	375
775	palkovsky	376	static int cmd_sched(cmd_arg_t *argv);
		377	static cmd_info_t sched_info = {
		378	.name = "scheduler",
1695	jermar	379	.description = "List all scheduler information.",
775	palkovsky	380	.func = cmd_sched,
		381	.argc = 0
		382	};
		383
759	palkovsky	384	static int cmd_slabs(cmd_arg_t *argv);
		385	static cmd_info_t slabs_info = {
		386	.name = "slabs",
1695	jermar	387	.description = "List slab caches.",
759	palkovsky	388	.func = cmd_slabs,
		389	.argc = 0
		390	};
		391
1702	cejka	392	/* Data and methods for 'zones' command */
668	bondari	393	static int cmd_zones(cmd_arg_t *argv);
		394	static cmd_info_t zones_info = {
		395	.name = "zones",
		396	.description = "List of memory zones.",
		397	.func = cmd_zones,
		398	.argc = 0
		399	};
		400
3474	svoboda	401	/* Data and methods for 'ipc' command */
		402	static int cmd_ipc(cmd_arg_t *argv);
		403	static cmd_arg_t ipc_argv = {
1573	palkovsky	404	.type = ARG_TYPE_INT,
		405	};
3474	svoboda	406	static cmd_info_t ipc_info = {
		407	.name = "ipc",
		408	.description = "ipc <taskid> Show IPC information of given task.",
		409	.func = cmd_ipc,
1573	palkovsky	410	.argc = 1,
3474	svoboda	411	.argv = &ipc_argv
1573	palkovsky	412	};
		413
1702	cejka	414	/* Data and methods for 'zone' command */
668	bondari	415	static int cmd_zone(cmd_arg_t *argv);
		416	static cmd_arg_t zone_argv = {
		417	.type = ARG_TYPE_INT,
		418	};
		419
		420	static cmd_info_t zone_info = {
		421	.name = "zone",
		422	.description = "Show memory zone structure.",
		423	.func = cmd_zone,
		424	.argc = 1,
		425	.argv = &zone_argv
		426	};
		427
1702	cejka	428	/* Data and methods for 'cpus' command. */
673	jermar	429	static int cmd_cpus(cmd_arg_t *argv);
		430	cmd_info_t cpus_info = {
		431	.name = "cpus",
		432	.description = "List all processors.",
		433	.help = NULL,
		434	.func = cmd_cpus,
		435	.argc = 0,
		436	.argv = NULL
		437	};
668	bondari	438
1702	cejka	439	/* Data and methods for 'version' command. */
673	jermar	440	static int cmd_version(cmd_arg_t *argv);
		441	cmd_info_t version_info = {
		442	.name = "version",
		443	.description = "Print version information.",
		444	.help = NULL,
		445	.func = cmd_version,
		446	.argc = 0,
		447	.argv = NULL
		448	};
668	bondari	449
775	palkovsky	450	static cmd_info_t *basic_commands[] = {
		451	&call0_info,
2223	decky	452	&mcall0_info,
775	palkovsky	453	&call1_info,
		454	&call2_info,
		455	&call3_info,
1474	palkovsky	456	&continue_info,
775	palkovsky	457	&cpus_info,
		458	&desc_info,
		459	&exit_info,
2227	decky	460	&reboot_info,
2275	decky	461	&uptime_info,
775	palkovsky	462	&halt_info,
		463	&help_info,
3474	svoboda	464	&ipc_info,
775	palkovsky	465	&set4_info,
		466	&slabs_info,
		467	&symaddr_info,
		468	&sched_info,
777	palkovsky	469	&threads_info,
1060	palkovsky	470	&tasks_info,
2721	decky	471	&physmem_info,
775	palkovsky	472	&tlb_info,
		473	&version_info,
		474	&zones_info,
		475	&zone_info,
2019	decky	476	#ifdef CONFIG_TEST
		477	&tests_info,
		478	&test_info,
2050	decky	479	&bench_info,
2019	decky	480	#endif
775	palkovsky	481	NULL
		482	};
673	jermar	483
		484
596	jermar	485	/** Initialize command info structure.
		486	*
		487	* @param cmd Command info structure.
		488	*
		489	*/
		490	void cmd_initialize(cmd_info_t *cmd)
		491	{
		492	spinlock_initialize(&cmd->lock, "cmd");
		493	link_initialize(&cmd->link);
		494	}
		495
		496	/** Initialize and register commands. */
		497	void cmd_init(void)
		498	{
2721	decky	499	unsigned int i;
596	jermar	500
2721	decky	501	for (i = 0; basic_commands[i]; i++) {
775	palkovsky	502	cmd_initialize(basic_commands[i]);
		503	if (!cmd_register(basic_commands[i]))
4337	svoboda	504	printf("Cannot register command %s\n", basic_commands[i]->name);
775	palkovsky	505	}
596	jermar	506	}
		507
		508
		509	/** List supported commands.
		510	*
		511	* @param argv Argument vector.
		512	*
		513	* @return 0 on failure, 1 on success.
		514	*/
		515	int cmd_help(cmd_arg_t *argv)
		516	{
		517	link_t *cur;
		518
		519	spinlock_lock(&cmd_lock);
		520
		521	for (cur = cmd_head.next; cur != &cmd_head; cur = cur->next) {
		522	cmd_info_t *hlp;
		523
		524	hlp = list_get_instance(cur, cmd_info_t, link);
		525	spinlock_lock(&hlp->lock);
		526
		527	printf("%s - %s\n", hlp->name, hlp->description);
		528
		529	spinlock_unlock(&hlp->lock);
		530	}
		531
		532	spinlock_unlock(&cmd_lock);
		533
		534	return 1;
		535	}
		536
2227	decky	537
		538	/** Reboot the system.
		539	*
		540	* @param argv Argument vector.
		541	*
		542	* @return 0 on failure, 1 on success.
		543	*/
		544	int cmd_reboot(cmd_arg_t *argv)
		545	{
		546	reboot();
		547
		548	/* Not reached */
		549	return 1;
		550	}
		551
2275	decky	552
		553	/** Print system uptime information.
		554	*
		555	* @param argv Argument vector.
		556	*
		557	* @return 0 on failure, 1 on success.
		558	*/
		559	int cmd_uptime(cmd_arg_t *argv)
		560	{
		561	ASSERT(uptime);
		562
		563	/* This doesn't have to be very accurate */
		564	unative_t sec = uptime->seconds1;
		565
3149	svoboda	566	printf("Up %" PRIun " days, %" PRIun " hours, %" PRIun " minutes, %" PRIun " seconds\n",
2275	decky	567	sec / 86400, (sec % 86400) / 3600, (sec % 3600) / 60, sec % 60);
		568
		569	return 1;
		570	}
		571
596	jermar	572	/** Describe specified command.
		573	*
		574	* @param argv Argument vector.
		575	*
		576	* @return 0 on failure, 1 on success.
		577	*/
		578	int cmd_desc(cmd_arg_t *argv)
		579	{
		580	link_t *cur;
		581
		582	spinlock_lock(&cmd_lock);
		583
		584	for (cur = cmd_head.next; cur != &cmd_head; cur = cur->next) {
		585	cmd_info_t *hlp;
		586
		587	hlp = list_get_instance(cur, cmd_info_t, link);
		588	spinlock_lock(&hlp->lock);
		589
		590	if (strncmp(hlp->name, (const char *) argv->buffer, strlen(hlp->name)) == 0) {
		591	printf("%s - %s\n", hlp->name, hlp->description);
		592	if (hlp->help)
		593	hlp->help();
		594	spinlock_unlock(&hlp->lock);
		595	break;
		596	}
		597
		598	spinlock_unlock(&hlp->lock);
		599	}
		600
		601	spinlock_unlock(&cmd_lock);
		602
		603	return 1;
		604	}
		605
		606	/** Search symbol table */
		607	int cmd_symaddr(cmd_arg_t *argv)
		608	{
2114	decky	609	symtab_print_search((char *) argv->buffer);
596	jermar	610
		611	return 1;
		612	}
		613
		614	/** Call function with zero parameters */
		615	int cmd_call0(cmd_arg_t *argv)
		616	{
1780	jermar	617	uintptr_t symaddr;
596	jermar	618	char *symbol;
4342	svoboda	619	unative_t (*fnc)(void);
		620	fncptr_t fptr;
		621
2114	decky	622	symaddr = get_symbol_addr((char *) argv->buffer);
596	jermar	623	if (!symaddr)
		624	printf("Symbol %s not found.\n", argv->buffer);
1780	jermar	625	else if (symaddr == (uintptr_t) -1) {
2114	decky	626	symtab_print_search((char *) argv->buffer);
596	jermar	627	printf("Duplicate symbol, be more specific.\n");
		628	} else {
		629	symbol = get_symtab_entry(symaddr);
4342	svoboda	630	fnc = (unative_t ()(void)) arch_construct_function(&fptr, (void ) symaddr, (void *) cmd_call0);
3149	svoboda	631	printf("Calling %s() (%p)\n", symbol, symaddr);
4342	svoboda	632	printf("Result: %#" PRIxn "\n", fnc());
596	jermar	633	}
		634
		635	return 1;
		636	}
		637
2223	decky	638	/** Call function with zero parameters on each CPU */
		639	int cmd_mcall0(cmd_arg_t *argv)
		640	{
		641	/*
		642	* For each CPU, create a thread which will
		643	* call the function.
		644	*/
		645
		646	count_t i;
		647	for (i = 0; i < config.cpu_count; i++) {
2319	decky	648	if (!cpus[i].active)
		649	continue;
		650
2223	decky	651	thread_t *t;
		652	if ((t = thread_create((void ()(void )) cmd_call0, (void *) argv, TASK, THREAD_FLAG_WIRED, "call0", false))) {
		653	spinlock_lock(&t->lock);
		654	t->cpu = &cpus[i];
		655	spinlock_unlock(&t->lock);
		656	printf("cpu%u: ", i);
		657	thread_ready(t);
		658	thread_join(t);
2224	decky	659	thread_detach(t);
2223	decky	660	} else
		661	printf("Unable to create thread for cpu%u\n", i);
		662	}
		663
		664	return 1;
		665	}
		666
596	jermar	667	/** Call function with one parameter */
		668	int cmd_call1(cmd_arg_t *argv)
		669	{
1780	jermar	670	uintptr_t symaddr;
596	jermar	671	char *symbol;
4342	svoboda	672	unative_t (*fnc)(unative_t, ...);
1780	jermar	673	unative_t arg1 = argv[1].intval;
4342	svoboda	674	fncptr_t fptr;
		675
2114	decky	676	symaddr = get_symbol_addr((char *) argv->buffer);
596	jermar	677	if (!symaddr)
		678	printf("Symbol %s not found.\n", argv->buffer);
1780	jermar	679	else if (symaddr == (uintptr_t) -1) {
2114	decky	680	symtab_print_search((char *) argv->buffer);
596	jermar	681	printf("Duplicate symbol, be more specific.\n");
		682	} else {
		683	symbol = get_symtab_entry(symaddr);
4342	svoboda	684	fnc = (unative_t ()(unative_t, ...)) arch_construct_function(&fptr, (void ) symaddr, (void *) cmd_call1);
3149	svoboda	685	printf("Calling f(%#" PRIxn "): %p: %s\n", arg1, symaddr, symbol);
4342	svoboda	686	printf("Result: %#" PRIxn "\n", fnc(arg1));
596	jermar	687	}
		688
		689	return 1;
		690	}
		691
		692	/** Call function with two parameters */
		693	int cmd_call2(cmd_arg_t *argv)
		694	{
1780	jermar	695	uintptr_t symaddr;
596	jermar	696	char *symbol;
4342	svoboda	697	unative_t (*fnc)(unative_t, unative_t, ...);
1780	jermar	698	unative_t arg1 = argv[1].intval;
		699	unative_t arg2 = argv[2].intval;
4342	svoboda	700	fncptr_t fptr;
		701
2114	decky	702	symaddr = get_symbol_addr((char *) argv->buffer);
596	jermar	703	if (!symaddr)
		704	printf("Symbol %s not found.\n", argv->buffer);
1780	jermar	705	else if (symaddr == (uintptr_t) -1) {
2114	decky	706	symtab_print_search((char *) argv->buffer);
596	jermar	707	printf("Duplicate symbol, be more specific.\n");
		708	} else {
		709	symbol = get_symtab_entry(symaddr);
4342	svoboda	710	fnc = (unative_t ()(unative_t, unative_t, ...)) arch_construct_function(&fptr, (void ) symaddr, (void *) cmd_call2);
3149	svoboda	711	printf("Calling f(%#" PRIxn ", %#" PRIxn "): %p: %s\n",
		712	arg1, arg2, symaddr, symbol);
4342	svoboda	713	printf("Result: %#" PRIxn "\n", fnc(arg1, arg2));
596	jermar	714	}
		715
		716	return 1;
		717	}
		718
		719	/** Call function with three parameters */
		720	int cmd_call3(cmd_arg_t *argv)
		721	{
1780	jermar	722	uintptr_t symaddr;
596	jermar	723	char *symbol;
4342	svoboda	724	unative_t (*fnc)(unative_t, unative_t, unative_t, ...);
1780	jermar	725	unative_t arg1 = argv[1].intval;
		726	unative_t arg2 = argv[2].intval;
		727	unative_t arg3 = argv[3].intval;
4342	svoboda	728	fncptr_t fptr;
		729
2114	decky	730	symaddr = get_symbol_addr((char *) argv->buffer);
596	jermar	731	if (!symaddr)
		732	printf("Symbol %s not found.\n", argv->buffer);
1780	jermar	733	else if (symaddr == (uintptr_t) -1) {
2114	decky	734	symtab_print_search((char *) argv->buffer);
596	jermar	735	printf("Duplicate symbol, be more specific.\n");
		736	} else {
		737	symbol = get_symtab_entry(symaddr);
4342	svoboda	738	fnc = (unative_t ()(unative_t, unative_t, unative_t, ...)) arch_construct_function(&fptr, (void ) symaddr, (void *) cmd_call3);
3149	svoboda	739	printf("Calling f(%#" PRIxn ",%#" PRIxn ", %#" PRIxn "): %p: %s\n",
		740	arg1, arg2, arg3, symaddr, symbol);
4342	svoboda	741	printf("Result: %#" PRIxn "\n", fnc(arg1, arg2, arg3));
596	jermar	742	}
		743
		744	return 1;
		745	}
		746
		747
		748	/** Print detailed description of 'describe' command. */
		749	void desc_help(void)
		750	{
		751	printf("Syntax: describe command_name\n");
		752	}
		753
		754	/** Halt the kernel.
		755	*
		756	* @param argv Argument vector (ignored).
		757	*
		758	* @return 0 on failure, 1 on success (never returns).
		759	*/
		760	int cmd_halt(cmd_arg_t *argv)
		761	{
		762	halt();
		763	return 1;
		764	}
		765
		766	/** Command for printing TLB contents.
		767	*
		768	* @param argv Not used.
		769	*
		770	* @return Always returns 1.
		771	*/
673	jermar	772	int cmd_tlb(cmd_arg_t *argv)
596	jermar	773	{
		774	tlb_print();
		775	return 1;
		776	}
603	palkovsky	777
2721	decky	778	/** Command for printing physical memory configuration.
		779	*
		780	* @param argv Not used.
		781	*
		782	* @return Always returns 1.
		783	*/
		784	int cmd_physmem(cmd_arg_t *argv)
		785	{
		786	physmem_print();
		787	return 1;
		788	}
		789
603	palkovsky	790	/** Write 4 byte value to address */
		791	int cmd_set4(cmd_arg_t *argv)
		792	{
2216	decky	793	uint32_t *addr;
1780	jermar	794	uint32_t arg1 = argv[1].intval;
603	palkovsky	795	bool pointer = false;
		796
		797	if (((char )argv->buffer)[0] == '') {
2114	decky	798	addr = (uint32_t ) get_symbol_addr((char ) argv->buffer + 1);
603	palkovsky	799	pointer = true;
2114	decky	800	} else if (((char *) argv->buffer)[0] >= '0' &&
603	palkovsky	801	((char *)argv->buffer)[0] <= '9')
1780	jermar	802	addr = (uint32_t )atoi((char )argv->buffer);
603	palkovsky	803	else
2114	decky	804	addr = (uint32_t )get_symbol_addr((char ) argv->buffer);
603	palkovsky	805
		806	if (!addr)
		807	printf("Symbol %s not found.\n", argv->buffer);
1780	jermar	808	else if (addr == (uint32_t *) -1) {
2114	decky	809	symtab_print_search((char *) argv->buffer);
603	palkovsky	810	printf("Duplicate symbol, be more specific.\n");
		811	} else {
		812	if (pointer)
1780	jermar	813	addr = (uint32_t )((unative_t *)addr);
3149	svoboda	814	printf("Writing %#" PRIx64 " -> %p\n", arg1, addr);
603	palkovsky	815	*addr = arg1;
		816
		817	}
		818
		819	return 1;
		820	}
668	bondari	821
759	palkovsky	822	/** Command for listings SLAB caches
		823	*
		824	* @param argv Ignores
		825	*
		826	* @return Always 1
		827	*/
		828	int cmd_slabs(cmd_arg_t * argv) {
		829	slab_print_list();
		830	return 1;
		831	}
		832
777	palkovsky	833
775	palkovsky	834	/** Command for listings Thread information
		835	*
		836	* @param argv Ignores
		837	*
		838	* @return Always 1
		839	*/
777	palkovsky	840	int cmd_threads(cmd_arg_t * argv) {
		841	thread_print_list();
		842	return 1;
		843	}
		844
1060	palkovsky	845	/** Command for listings Task information
		846	*
		847	* @param argv Ignores
		848	*
		849	* @return Always 1
		850	*/
		851	int cmd_tasks(cmd_arg_t * argv) {
		852	task_print_list();
		853	return 1;
		854	}
		855
777	palkovsky	856	/** Command for listings Thread information
		857	*
		858	* @param argv Ignores
		859	*
		860	* @return Always 1
		861	*/
775	palkovsky	862	int cmd_sched(cmd_arg_t * argv) {
		863	sched_print_list();
		864	return 1;
		865	}
		866
677	bondari	867	/** Command for listing memory zones
		868	*
		869	* @param argv Ignored
		870	*
		871	* return Always 1
		872	*/
668	bondari	873	int cmd_zones(cmd_arg_t * argv) {
676	bondari	874	zone_print_list();
668	bondari	875	return 1;
		876	}
673	jermar	877
677	bondari	878	/** Command for memory zone details
		879	*
		880	* @param argv Integer argument from cmdline expected
		881	*
		882	* return Always 1
		883	*/
668	bondari	884	int cmd_zone(cmd_arg_t * argv) {
676	bondari	885	zone_print_one(argv[0].intval);
668	bondari	886	return 1;
		887	}
		888
1573	palkovsky	889	/** Command for printing task ipc details
		890	*
		891	* @param argv Integer argument from cmdline expected
		892	*
		893	* return Always 1
		894	*/
3474	svoboda	895	int cmd_ipc(cmd_arg_t * argv) {
1573	palkovsky	896	ipc_print_task(argv[0].intval);
		897	return 1;
		898	}
		899
		900
673	jermar	901	/** Command for listing processors.
		902	*
		903	* @param argv Ignored.
		904	*
		905	* return Always 1.
		906	*/
		907	int cmd_cpus(cmd_arg_t *argv)
		908	{
		909	cpu_list();
		910	return 1;
		911	}
		912
		913	/** Command for printing kernel version.
		914	*
		915	* @param argv Ignored.
		916	*
		917	* return Always 1.
		918	*/
		919	int cmd_version(cmd_arg_t *argv)
		920	{
		921	version_print();
		922	return 1;
		923	}
1474	palkovsky	924
		925	/** Command for returning console back to userspace.
		926	*
		927	* @param argv Ignored.
		928	*
		929	* return Always 1.
		930	*/
		931	int cmd_continue(cmd_arg_t *argv)
		932	{
1695	jermar	933	printf("The kernel will now relinquish the console.\n");
4341	svoboda	934	release_console();
4338	svoboda	935
		936	if ((kconsole_notify) && (kconsole_irq.notif_cfg.notify))
		937	ipc_irq_send_msg_0(&kconsole_irq);
		938
1474	palkovsky	939	return 1;
		940	}
1702	cejka	941
2020	decky	942	#ifdef CONFIG_TEST
2019	decky	943	/** Command for printing kernel tests list.
		944	*
		945	* @param argv Ignored.
		946	*
		947	* return Always 1.
		948	*/
		949	int cmd_tests(cmd_arg_t *argv)
		950	{
		951	test_t *test;
		952
		953	for (test = tests; test->name != NULL; test++)
4342	svoboda	954	printf("%-10s %s%s\n", test->name, test->desc, (test->safe ? "" : " (unsafe)"));
2019	decky	955
4342	svoboda	956	printf("%-10s Run all safe tests\n", "*");
2019	decky	957	return 1;
		958	}
		959
2042	decky	960	static bool run_test(const test_t *test)
2027	decky	961	{
2042	decky	962	printf("%s\t\t%s\n", test->name, test->desc);
2030	decky	963
		964	/* Update and read thread accounting
		965	for benchmarking */
		966	ipl_t ipl = interrupts_disable();
2039	decky	967	spinlock_lock(&TASK->lock);
		968	uint64_t t0 = task_get_accounting(TASK);
		969	spinlock_unlock(&TASK->lock);
2030	decky	970	interrupts_restore(ipl);
		971
		972	/* Execute the test */
2050	decky	973	char * ret = test->entry(false);
2030	decky	974
		975	/* Update and read thread accounting */
		976	ipl = interrupts_disable();
2039	decky	977	spinlock_lock(&TASK->lock);
		978	uint64_t dt = task_get_accounting(TASK) - t0;
		979	spinlock_unlock(&TASK->lock);
2030	decky	980	interrupts_restore(ipl);
		981
2050	decky	982	uint64_t cycles;
		983	char suffix;
		984	order(dt, &cycles, &suffix);
		985
3149	svoboda	986	printf("Time: %" PRIu64 "%c cycles\n", cycles, suffix);
2027	decky	987
		988	if (ret == NULL) {
		989	printf("Test passed\n");
2042	decky	990	return true;
2027	decky	991	}
		992
		993	printf("%s\n", ret);
2042	decky	994	return false;
2027	decky	995	}
		996
2050	decky	997	static bool run_bench(const test_t *test, const uint32_t cnt)
		998	{
		999	uint32_t i;
		1000	bool ret = true;
		1001	uint64_t cycles;
		1002	char suffix;
		1003
		1004	if (cnt < 1)
		1005	return true;
		1006
2114	decky	1007	uint64_t data = (uint64_t ) malloc(sizeof(uint64_t) * cnt, 0);
2050	decky	1008	if (data == NULL) {
		1009	printf("Error allocating memory for statistics\n");
		1010	return false;
		1011	}
		1012
		1013	for (i = 0; i < cnt; i++) {
3149	svoboda	1014	printf("%s (%u/%u) ... ", test->name, i + 1, cnt);
2050	decky	1015
		1016	/* Update and read thread accounting
		1017	for benchmarking */
		1018	ipl_t ipl = interrupts_disable();
		1019	spinlock_lock(&TASK->lock);
		1020	uint64_t t0 = task_get_accounting(TASK);
		1021	spinlock_unlock(&TASK->lock);
		1022	interrupts_restore(ipl);
		1023
		1024	/* Execute the test */
		1025	char * ret = test->entry(true);
		1026
		1027	/* Update and read thread accounting */
		1028	ipl = interrupts_disable();
		1029	spinlock_lock(&TASK->lock);
		1030	uint64_t dt = task_get_accounting(TASK) - t0;
		1031	spinlock_unlock(&TASK->lock);
		1032	interrupts_restore(ipl);
		1033
		1034	if (ret != NULL) {
		1035	printf("%s\n", ret);
		1036	ret = false;
		1037	break;
		1038	}
		1039
		1040	data[i] = dt;
		1041	order(dt, &cycles, &suffix);
3149	svoboda	1042	printf("OK (%" PRIu64 "%c cycles)\n", cycles, suffix);
2050	decky	1043	}
		1044
		1045	if (ret) {
		1046	printf("\n");
		1047
		1048	uint64_t sum = 0;
		1049
		1050	for (i = 0; i < cnt; i++) {
		1051	sum += data[i];
		1052	}
		1053
		1054	order(sum / (uint64_t) cnt, &cycles, &suffix);
3149	svoboda	1055	printf("Average\t\t%" PRIu64 "%c\n", cycles, suffix);
2050	decky	1056	}
		1057
		1058	free(data);
		1059
		1060	return ret;
		1061	}
		1062
2019	decky	1063	/** Command for returning kernel tests
		1064	*
		1065	* @param argv Argument vector.
		1066	*
		1067	* return Always 1.
		1068	*/
		1069	int cmd_test(cmd_arg_t *argv)
		1070	{
		1071	test_t *test;
		1072
2114	decky	1073	if (strcmp((char ) argv->buffer, "") == 0) {
2020	decky	1074	for (test = tests; test->name != NULL; test++) {
		1075	if (test->safe) {
2027	decky	1076	printf("\n");
		1077	if (!run_test(test))
		1078	break;
2020	decky	1079	}
2019	decky	1080	}
2020	decky	1081	} else {
		1082	bool fnd = false;
		1083
		1084	for (test = tests; test->name != NULL; test++) {
2114	decky	1085	if (strcmp(test->name, (char *) argv->buffer) == 0) {
2020	decky	1086	fnd = true;
2027	decky	1087	run_test(test);
2020	decky	1088	break;
		1089	}
		1090	}
		1091
		1092	if (!fnd)
2027	decky	1093	printf("Unknown test\n");
2019	decky	1094	}
		1095
		1096	return 1;
		1097	}
2050	decky	1098
		1099	/** Command for returning kernel tests as benchmarks
		1100	*
		1101	* @param argv Argument vector.
		1102	*
		1103	* return Always 1.
		1104	*/
		1105	int cmd_bench(cmd_arg_t *argv)
		1106	{
		1107	test_t *test;
		1108	uint32_t cnt = argv[1].intval;
		1109
		1110	bool fnd = false;
		1111
		1112	for (test = tests; test->name != NULL; test++) {
2114	decky	1113	if (strcmp(test->name, (char *) argv->buffer) == 0) {
2050	decky	1114	fnd = true;
2051	decky	1115
		1116	if (test->safe)
		1117	run_bench(test, cnt);
		1118	else
		1119	printf("Unsafe test\n");
		1120
2050	decky	1121	break;
		1122	}
		1123	}
		1124
		1125	if (!fnd)
		1126	printf("Unknown test\n");
		1127
		1128	return 1;
		1129	}
		1130
2020	decky	1131	#endif
2019	decky	1132
1888	jermar	1133	/** @}
1702	cejka	1134	*/

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(root)/branches/dynload/kernel/generic/src/console/cmd.c – Rev 4342