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Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	1	#include <stdalign.h>
				2	#include <stdatomic.h>
				3	#include <stddef.h>
				4
				5	#include "cpio.h"
				6	#include "cpu.h"
				7	#include "dlog.h"
				8	#include "fdt.h"
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	9	#include "std.h"
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	10	#include "vm.h"
				11
				12	void *fdt;
				13
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	14	bool fdt_find_node(struct fdt_node node, const char path)
				15	{
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	16	while (*path) {
				17	if (!fdt_find_child(node, path))
				18	return false;
				19	path += strlen(path);
				20	}
				21
				22	return true;
				23	}
				24
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	25	static uint64_t convert_number(const char *data, uint32_t size)
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	26	{
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	27	union {
				28	volatile uint64_t v;
				29	char a[8];
				30	} t;
				31
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	32	switch (size) {
				33	case sizeof(uint32_t):
				34	return ntohl((uint32_t )data);
				35	case sizeof(uint64_t):
				36	memcpy(t.a, data, sizeof(uint64_t));
				37	return ntohll(t.v);
				38	default:
				39	return 0;
				40	}
				41	}
				42
				43	static bool fdt_read_number(const struct fdt_node node, const char name,
				44	uint64_t *value)
				45	{
				46	const char *data;
				47	uint32_t size;
				48
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	49	if (!fdt_read_property(node, name, &data, &size))
				50	return false;
				51
				52	switch (size) {
				53	case sizeof(uint32_t):
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	54	case sizeof(uint64_t):
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	55	*value = convert_number(data, size);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	56	break;
				57
				58	default:
				59	return false;
				60	}
				61
				62	return true;
				63	}
				64
				65	bool fdt_write_number(struct fdt_node node, const char name, uint64_t value)
				66	{
				67	const char *data;
				68	uint32_t size;
				69	union {
				70	volatile uint64_t v;
				71	char a[8];
				72	} t;
				73
				74	if (!fdt_read_property(node, name, &data, &size))
				75	return false;
				76
				77	switch (size) {
				78	case sizeof(uint32_t):
				79	(uint32_t )data = ntohl(value);
				80	break;
				81
				82	case sizeof(uint64_t):
				83	t.v = ntohll(value);
				84	memcpy((void *)data, t.a, sizeof(uint64_t));
				85	break;
				86
				87	default:
				88	return false;
				89	}
				90
				91	return true;
				92	}
				93
				94	static void relocate(const char *from, size_t size)
				95	{
				96	extern char bin_end[];
				97	size_t tmp = (size_t)&bin_end[0];
				98	char dest = (char )((tmp + 0x80000 - 1) & ~(0x80000 - 1));
				99	dlog("bin_end is at %p, copying to %p\n", &bin_end[0], dest);
				100	memcpy(dest, from, size);
				101	}
				102
				103	/* TODO: Remove this. */
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	104	struct vm primary_vm;
				105	struct vm secondary_vm[MAX_VMS];
				106	uint32_t secondary_vm_count = 0;
				107
				108	static void find_memory_range(const struct fdt_node *root,
				109	uint64_t block_start, uint64_t block_size)
				110	{
				111	struct fdt_node n = *root;
				112	const char *name;
				113	uint64_t address_size;
				114	uint64_t size_size;
				115	uint64_t entry_size;
				116
				117	/* Get the sizes of memory range addresses and sizes. */
				118	if (fdt_read_number(&n, "#address-cells", &address_size))
				119	address_size *= sizeof(uint32_t);
				120	else
				121	address_size = sizeof(uint32_t);
				122
				123	if (fdt_read_number(&n, "#size-cells", &size_size))
				124	size_size *= sizeof(uint32_t);
				125	else
				126	size_size = sizeof(uint32_t);
				127
				128	entry_size = address_size + size_size;
				129
				130	/* Look for nodes with the device_type set to "memory". */
				131	if (!fdt_first_child(&n, &name))
				132	return;
				133
				134	do {
				135	const char *data;
				136	uint32_t size;
				137	if (!fdt_read_property(&n, "device_type", &data, &size) \|\|
				138	size != sizeof("memory") \|\|
				139	memcmp(data, "memory", sizeof("memory")) != 0 \|\|
				140	!fdt_read_property(&n, "reg", &data, &size)) {
				141	continue;
				142	}
				143
				144	/* Traverse all memory ranges within this node. */
				145	while (size >= entry_size) {
				146	uint64_t addr = convert_number(data, address_size);
				147	uint64_t len = convert_number(data + address_size,
				148	size_size);
				149
				150	if (len > *block_size) {
				151	/* Remember the largest range we've found. */
				152	*block_start = addr;
				153	*block_size = len;
				154	}
				155
				156	size -= entry_size;
				157	data += entry_size;
				158	}
				159	} while (fdt_next_sibling(&n, &name));
				160
				161	/* TODO: Check for "reserved-memory" nodes. */
				162	}
				163
				164	/**
				165	* Finds the memory region where initrd is stored, and udpates the fdt node
				166	* cursor to the node called "chosen".
				167	*/
				168	static bool find_initrd(struct fdt_node n, uint64_t begin, uint64_t *end)
				169	{
				170	if (!fdt_find_node(n, "chosen\0")) {
				171	dlog("Unable to find 'chosen'\n");
				172	return false;
				173	}
				174
				175	if (!fdt_read_number(n, "linux,initrd-start", begin)) {
				176	dlog("Unable to read linux,initrd-start\n");
				177	return false;
				178	}
				179
				180	if (!fdt_read_number(n, "linux,initrd-end", end)) {
				181	dlog("Unable to read linux,initrd-end\n");
				182	return false;
				183	}
				184
				185	return true;
				186	}
				187
				188	struct memiter {
				189	const char *next;
				190	const char *limit;
				191	};
				192
				193	static void memiter_init(struct memiter it, const void data, size_t size)
				194	{
				195	it->next = data;
				196	it->limit = it->next + size;
				197	}
				198
				199	static bool memiter_isspace(struct memiter *it)
				200	{
				201	switch (*it->next) {
				202	case ' ':
				203	case '\t':
				204	case '\n':
				205	case '\r':
				206	return true;
				207	default:
				208	return false;
				209	}
				210	}
				211
				212	static void memiter_skip_space(struct memiter *it)
				213	{
				214	while (it->next < it->limit && memiter_isspace(it))
				215	it->next++;
				216	}
				217
				218	static bool memiter_iseq(const struct memiter it, const char str)
				219	{
				220	size_t len = strlen(str);
				221	if (len != it->limit - it->next)
				222	return false;
				223	return memcmp(it->next, str, len) == 0;
				224	}
				225
				226	static bool memiter_parse_str(struct memiter it, struct memiter str)
				227	{
				228	/* Skip all white space and fail if we reach the end of the buffer. */
				229	memiter_skip_space(it);
				230	if (it->next >= it->limit)
				231	return false;
				232
				233	str->next = it->next;
				234
				235	/* Find the end of the string. */
				236	while (it->next < it->limit && !memiter_isspace(it))
				237	it->next++;
				238
				239	str->limit = it->next;
				240
				241	return true;
				242	}
				243
				244	static bool memiter_parse_uint(struct memiter it, uint64_t value)
				245	{
				246	uint64_t v = 0;
				247
				248	/* Skip all white space and fail if we reach the end of the buffer. */
				249	memiter_skip_space(it);
				250	if (it->next >= it->limit)
				251	return false;
				252
				253	/* Fail if it's not a number. */
				254	if (it->next < '0' && it->next > '9')
				255	return false;
				256
				257	/* Parse the number. */
				258	do {
				259	v = v * 10 + *it->next - '0';
				260	it->next++;
				261	} while (it->next < it->limit && it->next >= '0' && it->next <= '9');
				262
				263	*value = v;
				264
				265	return true;
				266	}
				267
				268	static bool memiter_find_file(struct cpio c, const struct memiter filename,
				269	struct memiter *it)
				270	{
				271	const char *fname;
				272	const void *fcontents;
				273	size_t fsize;
				274	struct cpio_iter iter;
				275
				276	cpio_init_iter(c, &iter);
				277
				278	while (cpio_next(&iter, &fname, &fcontents, &fsize)) {
				279	if (memiter_iseq(filename, fname)) {
				280	memiter_init(it, fcontents, fsize);
				281	return true;
				282	}
				283	}
				284
				285	return false;
				286	}
				287
				288	static bool find_file(struct cpio c, const char name, struct memiter *it)
				289	{
				290	const char *fname;
				291	const void *fcontents;
				292	size_t fsize;
				293	struct cpio_iter iter;
				294
				295	cpio_init_iter(c, &iter);
				296
				297	while (cpio_next(&iter, &fname, &fcontents, &fsize)) {
				298	if (!strcmp(fname, name)) {
				299	memiter_init(it, fcontents, fsize);
				300	return true;
				301	}
				302	}
				303
				304	return false;
				305	}
				306
				307	static bool load_secondary(struct cpio *c,
				308	uint64_t mem_start, uint64_t *mem_size)
				309	{
				310	struct memiter it;
				311	struct memiter str;
				312	uint64_t mem;
				313	uint64_t cpu;
				314	uint32_t count;
				315
				316	if (!find_file(c, "vms.txt", &it)) {
				317	dlog("Unable to find vms.txt\n");
				318	return false;
				319	}
				320
				321	for (count = 0; memiter_parse_uint(&it, &mem) &&
				322	memiter_parse_uint(&it, &cpu) &&
				323	memiter_parse_str(&it, &str) &&
				324	count < MAX_VMS; count++) {
				325	struct memiter kernel;
				326
				327	if (!memiter_find_file(c, &str, &kernel)) {
				328	dlog("Unable to load kernel for vm %u\n", count);
				329	continue;
				330	}
				331
				332	if (mem > *mem_size) {
				333	dlog("Not enough memory for vm %u (%u bytes)\n", count,
				334	mem);
				335	continue;
				336	}
				337
				338	if (mem < kernel.limit - kernel.next) {
				339	dlog("Kernel is larger than available memory for vm %u\n", count);
				340	continue;
				341	}
				342
				343	*mem_size -= mem;
				344	memcpy((void )(mem_start + mem_size), kernel.next,
				345	kernel.limit - kernel.next);
				346
				347	dlog("Loaded VM%u with %u vcpus, entry at 0x%x\n", count, cpu,
				348	mem_start + *mem_size);
				349	vm_init(secondary_vm + count, cpu);
				350	vm_start_vcpu(secondary_vm + count, 0,
				351	mem_start + *mem_size, 0, false);
				352	}
				353
				354	secondary_vm_count = count;
				355
				356	return true;
				357	}
				358
				359	static bool load_primary(struct cpio c, struct fdt_node chosen)
				360	{
				361	struct memiter it;
				362
				363	if (!find_file(c, "vmlinuz", &it)) {
				364	dlog("Unable to find vmlinuz\n");
				365	return false;
				366	}
				367
				368	relocate(it.next, it.limit - it.next);
				369
				370	if (!find_file(c, "initrd.img", &it)) {
				371	dlog("Unable to find initrd.img\n");
				372	return false;
				373	}
				374
				375	/* Patch FDT to point to new ramdisk. */
				376	if (!fdt_write_number(chosen, "linux,initrd-start", (size_t)it.next)) {
				377	dlog("Unable to write linux,initrd-start\n");
				378	return false;
				379	}
				380
				381	if (!fdt_write_number(chosen, "linux,initrd-end", (size_t)it.limit)) {
				382	dlog("Unable to write linux,initrd-end\n");
				383	return false;
				384	}
				385
				386	/*
				387	* Patch fdt to reserve memory.
				388	*/
				389	{
				390	size_t tmp = (size_t)&relocate;
				391	tmp = (tmp + 0x80000 - 1) & ~(0x80000 - 1);
				392
				393	fdt_add_mem_reservation(fdt, tmp & ~0xfffff, 0x80000);
				394	vm_init(&primary_vm, MAX_CPUS);
				395	vm_start_vcpu(&primary_vm, 0, tmp, (size_t)fdt, true);
				396	}
				397
				398	return true;
				399	}
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	400
				401	static void one_time_init(void)
				402	{
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	403	dlog("Initializing hafnium\n");
				404
Wedson Almeida Filho	3fcbcff	2018-07-10 23:53:39 +0100	[diff] [blame^]	405	cpu_module_init();
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	406
				407	/* TODO: Code below this point should be removed from this function. */
				408	/* TODO: Remove this. */
				409
				410	do {
				411	struct fdt_node n;
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	412	uint64_t mem_start = 0;
				413	uint64_t mem_size = 0;
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	414
				415	fdt_root_node(&n, fdt);
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	416	fdt_find_child(&n, "");
				417
				418	/* TODO: Use this. */
				419	find_memory_range(&n, &mem_start, &mem_size);
				420	dlog("Memory range: 0x%x - 0x%x\n", mem_start,
				421	mem_start + mem_size - 1);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	422
				423	uint64_t begin;
				424	uint64_t end;
				425
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	426	if (!find_initrd(&n, &begin, &end))
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	427	break;
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	428
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	429	dlog("Ramdisk range: 0x%x - 0x%x\n", begin, end - 1);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	430
				431	struct cpio c;
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	432	cpio_init(&c, (void *)begin, end - begin);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	433
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	434	load_secondary(&c, mem_start, &mem_size);
				435	load_primary(&c, &n);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	436	} while (0);
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	437
				438	arch_set_vm_mm(&primary_vm.page_table);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	439	}
				440
				441	/*
				442	* The entry point of CPUs when they are turned on. It is supposed to initialise
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	443	* all state and return the first vCPU to run.
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	444	*/
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	445	struct vcpu *cpu_main(void)
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	446	{
Wedson Almeida Filho	8700964	2018-07-02 10:20:07 +0100	[diff] [blame]	447	struct cpu *c = cpu();
				448
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	449	/* Do global one-time initialization just once. */
				450	static atomic_flag inited = ATOMIC_FLAG_INIT;
				451	if (!atomic_flag_test_and_set_explicit(&inited, memory_order_acq_rel))
				452	one_time_init();
				453
Wedson Almeida Filho	3fcbcff	2018-07-10 23:53:39 +0100	[diff] [blame^]	454	dlog("Starting up cpu %d\n", cpu_index(c));
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	455
Wedson Almeida Filho	3fcbcff	2018-07-10 23:53:39 +0100	[diff] [blame^]	456	return primary_vm.vcpus + cpu_index(c);
Wedson Almeida Filho	987c0ff	2018-06-20 16:34:38 +0100	[diff] [blame]	457	}