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path: root/src/ldso/dynlink.c
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#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <stdint.h>
#include <elf.h>
#include <sys/mman.h>
#include <limits.h>
#include <stdint.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <errno.h>
#include <limits.h>
#include <elf.h>
#include <link.h>
#include <setjmp.h>
#include <pthread.h>
#include <ctype.h>
#include <dlfcn.h>
#include "pthread_impl.h"
#include "libc.h"

static int errflag;
static char errbuf[128];

#ifdef SHARED

#if ULONG_MAX == 0xffffffff
typedef Elf32_Ehdr Ehdr;
typedef Elf32_Phdr Phdr;
typedef Elf32_Sym Sym;
#define R_TYPE(x) ((x)&255)
#define R_SYM(x) ((x)>>8)
#else
typedef Elf64_Ehdr Ehdr;
typedef Elf64_Phdr Phdr;
typedef Elf64_Sym Sym;
#define R_TYPE(x) ((x)&0xffffffff)
#define R_SYM(x) ((x)>>32)
#endif

#define MAXP2(a,b) (-(-(a)&-(b)))
#define ALIGN(x,y) ((x)+(y)-1 & -(y))

struct debug {
	int ver;
	void *head;
	void (*bp)(void);
	int state;
	void *base;
};

struct dso {
	unsigned char *base;
	char *name;
	size_t *dynv;
	struct dso *next, *prev;

	Phdr *phdr;
	int phnum;
	int refcnt;
	Sym *syms;
	uint32_t *hashtab;
	uint32_t *ghashtab;
	int16_t *versym;
	char *strings;
	unsigned char *map;
	size_t map_len;
	dev_t dev;
	ino_t ino;
	signed char global;
	char relocated;
	char constructed;
	struct dso **deps;
	void *tls_image;
	size_t tls_len, tls_size, tls_align, tls_id, tls_offset;
	void **new_dtv;
	unsigned char *new_tls;
	int new_dtv_idx, new_tls_idx;
	struct dso *fini_next;
	char *shortname;
	char buf[];
};

struct symdef {
	Sym *sym;
	struct dso *dso;
};

#include "reloc.h"

void __init_ssp(size_t *);
void *__install_initial_tls(void *);
void __init_libc(char **, char *);

static struct dso *head, *tail, *ldso, *fini_head;
static char *env_path, *sys_path, *r_path;
static unsigned long long gencnt;
static int ssp_used;
static int runtime;
static int ldd_mode;
static int ldso_fail;
static int noload;
static jmp_buf *rtld_fail;
static pthread_rwlock_t lock;
static struct debug debug;
static size_t tls_cnt, tls_offset, tls_align = 4*sizeof(size_t);
static pthread_mutex_t init_fini_lock = { ._m_type = PTHREAD_MUTEX_RECURSIVE };

struct debug *_dl_debug_addr = &debug;

#define AUX_CNT 38
#define DYN_CNT 34

static void decode_vec(size_t *v, size_t *a, size_t cnt)
{
	memset(a, 0, cnt*sizeof(size_t));
	for (; v[0]; v+=2) if (v[0]<cnt) {
		a[0] |= 1ULL<<v[0];
		a[v[0]] = v[1];
	}
}

static int search_vec(size_t *v, size_t *r, size_t key)
{
	for (; v[0]!=key; v+=2)
		if (!v[0]) return 0;
	*r = v[1];
	return 1;
}

static uint32_t sysv_hash(const char *s0)
{
	const unsigned char *s = (void *)s0;
	uint_fast32_t h = 0;
	while (*s) {
		h = 16*h + *s++;
		h ^= h>>24 & 0xf0;
	}
	return h & 0xfffffff;
}

static uint32_t gnu_hash(const char *s0)
{
	const unsigned char *s = (void *)s0;
	uint_fast32_t h = 5381;
	for (; *s; s++)
		h = h*33 + *s;
	return h;
}

static Sym *sysv_lookup(const char *s, uint32_t h, struct dso *dso)
{
	size_t i;
	Sym *syms = dso->syms;
	uint32_t *hashtab = dso->hashtab;
	char *strings = dso->strings;
	for (i=hashtab[2+h%hashtab[0]]; i; i=hashtab[2+hashtab[0]+i]) {
		if ((!dso->versym || dso->versym[i] >= 0)
		    && (!strcmp(s, strings+syms[i].st_name)))
			return syms+i;
	}
	return 0;
}

static Sym *gnu_lookup(const char *s, uint32_t h1, struct dso *dso)
{
	Sym *syms = dso->syms;
	char *strings = dso->strings;
	uint32_t *hashtab = dso->ghashtab;
	uint32_t nbuckets = hashtab[0];
	uint32_t *buckets = hashtab + 4 + hashtab[2]*(sizeof(size_t)/4);
	uint32_t h2;
	uint32_t *hashval;
	uint32_t i = buckets[h1 % nbuckets];

	if (!i) return 0;

	hashval = buckets + nbuckets + (i - hashtab[1]);

	for (h1 |= 1; ; i++) {
		h2 = *hashval++;
		if ((!dso->versym || dso->versym[i] >= 0)
		    && (h1 == (h2|1)) && !strcmp(s, strings + syms[i].st_name))
			return syms+i;
		if (h2 & 1) break;
	}

	return 0;
}

#define OK_TYPES (1<<STT_NOTYPE | 1<<STT_OBJECT | 1<<STT_FUNC | 1<<STT_COMMON | 1<<STT_TLS)
#define OK_BINDS (1<<STB_GLOBAL | 1<<STB_WEAK | 1<<STB_GNU_UNIQUE)

static struct symdef find_sym(struct dso *dso, const char *s, int need_def)
{
	uint32_t h = 0, gh = 0;
	struct symdef def = {0};
	if (dso->ghashtab) {
		gh = gnu_hash(s);
		if (gh == 0x1f4039c9 && !strcmp(s, "__stack_chk_fail")) ssp_used = 1;
	} else {
		h = sysv_hash(s);
		if (h == 0x595a4cc && !strcmp(s, "__stack_chk_fail")) ssp_used = 1;
	}
	for (; dso; dso=dso->next) {
		Sym *sym;
		if (!dso->global) continue;
		if (dso->ghashtab) {
			if (!gh) gh = gnu_hash(s);
			sym = gnu_lookup(s, gh, dso);
		} else {
			if (!h) h = sysv_hash(s);
			sym = sysv_lookup(s, h, dso);
		}
		if (!sym) continue;
		if (!sym->st_shndx)
			if (need_def || (sym->st_info&0xf) == STT_TLS)
				continue;
		if (!sym->st_value)
			if ((sym->st_info&0xf) != STT_TLS)
				continue;
		if (!(1<<(sym->st_info&0xf) & OK_TYPES)) continue;
		if (!(1<<(sym->st_info>>4) & OK_BINDS)) continue;

		if (def.sym && sym->st_info>>4 == STB_WEAK) continue;
		def.sym = sym;
		def.dso = dso;
		if (sym->st_info>>4 == STB_GLOBAL) break;
	}
	return def;
}

static void do_relocs(struct dso *dso, size_t *rel, size_t rel_size, size_t stride)
{
	unsigned char *base = dso->base;
	Sym *syms = dso->syms;
	char *strings = dso->strings;
	Sym *sym;
	const char *name;
	void *ctx;
	int type;
	int sym_index;
	struct symdef def;

	for (; rel_size; rel+=stride, rel_size-=stride*sizeof(size_t)) {
		type = R_TYPE(rel[1]);
		sym_index = R_SYM(rel[1]);
		if (sym_index) {
			sym = syms + sym_index;
			name = strings + sym->st_name;
			ctx = IS_COPY(type) ? head->next : head;
			def = find_sym(ctx, name, IS_PLT(type));
			if (!def.sym && sym->st_info>>4 != STB_WEAK) {
				snprintf(errbuf, sizeof errbuf,
					"Error relocating %s: %s: symbol not found",
					dso->name, name);
				if (runtime) longjmp(*rtld_fail, 1);
				dprintf(2, "%s\n", errbuf);
				ldso_fail = 1;
				continue;
			}
		} else {
			sym = 0;
			def.sym = 0;
			def.dso = 0;
		}
		do_single_reloc(dso, base, (void *)(base + rel[0]), type,
			stride>2 ? rel[2] : 0, sym, sym?sym->st_size:0, def,
			def.sym?(size_t)(def.dso->base+def.sym->st_value):0);
	}
}

/* A huge hack: to make up for the wastefulness of shared libraries
 * needing at least a page of dirty memory even if they have no global
 * data, we reclaim the gaps at the beginning and end of writable maps
 * and "donate" them to the heap by setting up minimal malloc
 * structures and then freeing them. */

static void reclaim(unsigned char *base, size_t start, size_t end)
{
	size_t *a, *z;
	start = start + 6*sizeof(size_t)-1 & -4*sizeof(size_t);
	end = (end & -4*sizeof(size_t)) - 2*sizeof(size_t);
	if (start>end || end-start < 4*sizeof(size_t)) return;
	a = (size_t *)(base + start);
	z = (size_t *)(base + end);
	a[-2] = 1;
	a[-1] = z[0] = end-start + 2*sizeof(size_t) | 1;
	z[1] = 1;
	free(a);
}

static void reclaim_gaps(unsigned char *base, Phdr *ph, size_t phent, size_t phcnt)
{
	for (; phcnt--; ph=(void *)((char *)ph+phent)) {
		if (ph->p_type!=PT_LOAD) continue;
		if ((ph->p_flags&(PF_R|PF_W))!=(PF_R|PF_W)) continue;
		reclaim(base, ph->p_vaddr & -PAGE_SIZE, ph->p_vaddr);
		reclaim(base, ph->p_vaddr+ph->p_memsz,
			ph->p_vaddr+ph->p_memsz+PAGE_SIZE-1 & -PAGE_SIZE);
	}
}

static void *map_library(int fd, struct dso *dso)
{
	Ehdr buf[(896+sizeof(Ehdr))/sizeof(Ehdr)];
	void *allocated_buf=0;
	size_t phsize;
	size_t addr_min=SIZE_MAX, addr_max=0, map_len;
	size_t this_min, this_max;
	off_t off_start;
	Ehdr *eh;
	Phdr *ph, *ph0;
	unsigned prot;
	unsigned char *map=MAP_FAILED, *base;
	size_t dyn=0;
	size_t tls_image=0;
	size_t i;

	ssize_t l = read(fd, buf, sizeof buf);
	eh = buf;
	if (l<0) return 0;
	if (l<sizeof *eh || (eh->e_type != ET_DYN && eh->e_type != ET_EXEC))
		goto noexec;
	phsize = eh->e_phentsize * eh->e_phnum;
	if (phsize > sizeof buf - sizeof *eh) {
		allocated_buf = malloc(phsize);
		if (!allocated_buf) return 0;
		l = pread(fd, allocated_buf, phsize, eh->e_phoff);
		if (l < 0) goto error;
		if (l != phsize) goto noexec;
		ph = ph0 = allocated_buf;
	} else if (eh->e_phoff + phsize > l) {
		l = pread(fd, buf+1, phsize, eh->e_phoff);
		if (l < 0) goto error;
		if (l != phsize) goto noexec;
		ph = ph0 = (void *)(buf + 1);
	} else {
		ph = ph0 = (void *)((char *)buf + eh->e_phoff);
	}
	for (i=eh->e_phnum; i; i--, ph=(void *)((char *)ph+eh->e_phentsize)) {
		if (ph->p_type == PT_DYNAMIC)
			dyn = ph->p_vaddr;
		if (ph->p_type == PT_TLS) {
			tls_image = ph->p_vaddr;
			dso->tls_align = ph->p_align;
			dso->tls_len = ph->p_filesz;
			dso->tls_size = ph->p_memsz;
		}
		if (ph->p_type != PT_LOAD) continue;
		if (ph->p_vaddr < addr_min) {
			addr_min = ph->p_vaddr;
			off_start = ph->p_offset;
			prot = (((ph->p_flags&PF_R) ? PROT_READ : 0) |
				((ph->p_flags&PF_W) ? PROT_WRITE: 0) |
				((ph->p_flags&PF_X) ? PROT_EXEC : 0));
		}
		if (ph->p_vaddr+ph->p_memsz > addr_max) {
			addr_max = ph->p_vaddr+ph->p_memsz;
		}
	}
	if (!dyn) goto noexec;
	addr_max += PAGE_SIZE-1;
	addr_max &= -PAGE_SIZE;
	addr_min &= -PAGE_SIZE;
	off_start &= -PAGE_SIZE;
	map_len = addr_max - addr_min + off_start;
	/* The first time, we map too much, possibly even more than
	 * the length of the file. This is okay because we will not
	 * use the invalid part; we just need to reserve the right
	 * amount of virtual address space to map over later. */
	map = mmap((void *)addr_min, map_len, prot, MAP_PRIVATE, fd, off_start);
	if (map==MAP_FAILED) goto error;
	/* If the loaded file is not relocatable and the requested address is
	 * not available, then the load operation must fail. */
	if (eh->e_type != ET_DYN && addr_min && map!=(void *)addr_min) {
		errno = EBUSY;
		goto error;
	}
	base = map - addr_min;
	dso->phdr = 0;
	dso->phnum = 0;
	for (ph=ph0, i=eh->e_phnum; i; i--, ph=(void *)((char *)ph+eh->e_phentsize)) {
		if (ph->p_type != PT_LOAD) continue;
		/* Check if the programs headers are in this load segment, and
		 * if so, record the address for use by dl_iterate_phdr. */
		if (!dso->phdr && eh->e_phoff >= ph->p_offset
		    && eh->e_phoff+phsize <= ph->p_offset+ph->p_filesz) {
			dso->phdr = (void *)(base + ph->p_vaddr
				+ (eh->e_phoff-ph->p_offset));
			dso->phnum = eh->e_phnum;
		}
		/* Reuse the existing mapping for the lowest-address LOAD */
		if ((ph->p_vaddr & -PAGE_SIZE) == addr_min) continue;
		this_min = ph->p_vaddr & -PAGE_SIZE;
		this_max = ph->p_vaddr+ph->p_memsz+PAGE_SIZE-1 & -PAGE_SIZE;
		off_start = ph->p_offset & -PAGE_SIZE;
		prot = (((ph->p_flags&PF_R) ? PROT_READ : 0) |
			((ph->p_flags&PF_W) ? PROT_WRITE: 0) |
			((ph->p_flags&PF_X) ? PROT_EXEC : 0));
		if (mmap(base+this_min, this_max-this_min, prot, MAP_PRIVATE|MAP_FIXED, fd, off_start) == MAP_FAILED)
			goto error;
		if (ph->p_memsz > ph->p_filesz) {
			size_t brk = (size_t)base+ph->p_vaddr+ph->p_filesz;
			size_t pgbrk = brk+PAGE_SIZE-1 & -PAGE_SIZE;
			memset((void *)brk, 0, pgbrk-brk & PAGE_SIZE-1);
			if (pgbrk-(size_t)base < this_max && mmap((void *)pgbrk, (size_t)base+this_max-pgbrk, prot, MAP_PRIVATE|MAP_FIXED|MAP_ANONYMOUS, -1, 0) == MAP_FAILED)
				goto error;
		}
	}
	for (i=0; ((size_t *)(base+dyn))[i]; i+=2)
		if (((size_t *)(base+dyn))[i]==DT_TEXTREL) {
			if (mprotect(map, map_len, PROT_READ|PROT_WRITE|PROT_EXEC) < 0)
				goto error;
			break;
		}
	if (!runtime) reclaim_gaps(base, ph0, eh->e_phentsize, eh->e_phnum);
	dso->map = map;
	dso->map_len = map_len;
	dso->base = base;
	dso->dynv = (void *)(base+dyn);
	if (dso->tls_size) dso->tls_image = (void *)(base+tls_image);
	free(allocated_buf);
	return map;
noexec:
	errno = ENOEXEC;
error:
	if (map!=MAP_FAILED) munmap(map, map_len);
	free(allocated_buf);
	return 0;
}

static int path_open(const char *name, const char *s, char *buf, size_t buf_size)
{
	size_t l;
	int fd;
	for (;;) {
		s += strspn(s, ":\n");
		l = strcspn(s, ":\n");
		if (l-1 >= INT_MAX) return -1;
		if (snprintf(buf, buf_size, "%.*s/%s", (int)l, s, name) >= buf_size)
			continue;
		if ((fd = open(buf, O_RDONLY|O_CLOEXEC))>=0) return fd;
		s += l;
	}
}

static void decode_dyn(struct dso *p)
{
	size_t dyn[DYN_CNT] = {0};
	decode_vec(p->dynv, dyn, DYN_CNT);
	p->syms = (void *)(p->base + dyn[DT_SYMTAB]);
	p->strings = (void *)(p->base + dyn[DT_STRTAB]);
	if (dyn[0]&(1<<DT_HASH))
		p->hashtab = (void *)(p->base + dyn[DT_HASH]);
	if (search_vec(p->dynv, dyn, DT_GNU_HASH))
		p->ghashtab = (void *)(p->base + *dyn);
	if (search_vec(p->dynv, dyn, DT_VERSYM))
		p->versym = (void *)(p->base + *dyn);
}

static struct dso *load_library(const char *name)
{
	char buf[2*NAME_MAX+2];
	const char *pathname;
	unsigned char *map;
	struct dso *p, temp_dso = {0};
	int fd;
	struct stat st;
	size_t alloc_size;
	int n_th = 0;
	int is_self = 0;

	/* Catch and block attempts to reload the implementation itself */
	if (name[0]=='l' && name[1]=='i' && name[2]=='b') {
		static const char *rp, reserved[] =
			"c\0pthread\0rt\0m\0dl\0util\0xnet\0";
		char *z = strchr(name, '.');
		if (z) {
			size_t l = z-name;
			for (rp=reserved; *rp && strncmp(name+3, rp, l-3); rp+=strlen(rp)+1);
			if (*rp) {
				if (ldd_mode) {
					/* Track which names have been resolved
					 * and only report each one once. */
					static unsigned reported;
					unsigned mask = 1U<<(rp-reserved);
					if (!(reported & mask)) {
						reported |= mask;
						dprintf(1, "\t%s => %s (%p)\n",
							name, ldso->name,
							ldso->base);
					}
				}
				is_self = 1;
			}
		}
	}
	if (!strcmp(name, ldso->name)) is_self = 1;
	if (is_self) {
		if (!ldso->prev) {
			tail->next = ldso;
			ldso->prev = tail;
			tail = ldso->next ? ldso->next : ldso;
		}
		return ldso;
	}
	if (strchr(name, '/')) {
		pathname = name;
		fd = open(name, O_RDONLY|O_CLOEXEC);
	} else {
		/* Search for the name to see if it's already loaded */
		for (p=head->next; p; p=p->next) {
			if (p->shortname && !strcmp(p->shortname, name)) {
				p->refcnt++;
				return p;
			}
		}
		if (strlen(name) > NAME_MAX) return 0;
		fd = -1;
		if (env_path) fd = path_open(name, env_path, buf, sizeof buf);
		if (fd < 0 && r_path) fd = path_open(name, r_path, buf, sizeof buf);
		if (fd < 0) {
			if (!sys_path) {
				char *prefix = 0;
				size_t prefix_len;
				if (ldso->name[0]=='/') {
					char *s, *t, *z;
					for (s=t=z=ldso->name; *s; s++)
						if (*s=='/') z=t, t=s;
					prefix_len = z-ldso->name;
					if (prefix_len < PATH_MAX)
						prefix = ldso->name;
				}
				if (!prefix) {
					prefix = "";
					prefix_len = 0;
				}
				char etc_ldso_path[prefix_len + 1
					+ sizeof "/etc/ld-musl-" LDSO_ARCH ".path"];
				snprintf(etc_ldso_path, sizeof etc_ldso_path,
					"%.*s/etc/ld-musl-" LDSO_ARCH ".path",
					(int)prefix_len, prefix);
				FILE *f = fopen(etc_ldso_path, "rbe");
				if (f) {
					if (getdelim(&sys_path, (size_t[1]){0}, 0, f) <= 0) {
						free(sys_path);
						sys_path = "";
					}
					fclose(f);
				}
			}
			if (!sys_path) sys_path = "/lib:/usr/local/lib:/usr/lib";
			fd = path_open(name, sys_path, buf, sizeof buf);
		}
		pathname = buf;
	}
	if (fd < 0) return 0;
	if (fstat(fd, &st) < 0) {
		close(fd);
		return 0;
	}
	for (p=head->next; p; p=p->next) {
		if (p->dev == st.st_dev && p->ino == st.st_ino) {
			/* If this library was previously loaded with a
			 * pathname but a search found the same inode,
			 * setup its shortname so it can be found by name. */
			if (!p->shortname && pathname != name)
				p->shortname = strrchr(p->name, '/')+1;
			close(fd);
			p->refcnt++;
			return p;
		}
	}
	map = noload ? 0 : map_library(fd, &temp_dso);
	close(fd);
	if (!map) return 0;

	/* Allocate storage for the new DSO. When there is TLS, this
	 * storage must include a reservation for all pre-existing
	 * threads to obtain copies of both the new TLS, and an
	 * extended DTV capable of storing an additional slot for
	 * the newly-loaded DSO. */
	alloc_size = sizeof *p + strlen(pathname) + 1;
	if (runtime && temp_dso.tls_image) {
		size_t per_th = temp_dso.tls_size + temp_dso.tls_align
			+ sizeof(void *) * (tls_cnt+3);
		n_th = libc.threads_minus_1 + 1;
		if (n_th > SSIZE_MAX / per_th) alloc_size = SIZE_MAX;
		else alloc_size += n_th * per_th;
	}
	p = calloc(1, alloc_size);
	if (!p) {
		munmap(map, temp_dso.map_len);
		return 0;
	}
	memcpy(p, &temp_dso, sizeof temp_dso);
	decode_dyn(p);
	p->dev = st.st_dev;
	p->ino = st.st_ino;
	p->refcnt = 1;
	p->name = p->buf;
	strcpy(p->name, pathname);
	/* Add a shortname only if name arg was not an explicit pathname. */
	if (pathname != name) p->shortname = strrchr(p->name, '/')+1;
	if (p->tls_image) {
		if (runtime && !__pthread_self_init()) {
			munmap(map, p->map_len);
			free(p);
			return 0;
		}
		p->tls_id = ++tls_cnt;
		tls_align = MAXP2(tls_align, p->tls_align);
#ifdef TLS_ABOVE_TP
		p->tls_offset = tls_offset + ( (tls_align-1) &
			-(tls_offset + (uintptr_t)p->tls_image) );
		tls_offset += p->tls_size;
#else
		tls_offset += p->tls_size + p->tls_align - 1;
		tls_offset -= (tls_offset + (uintptr_t)p->tls_image)
			& (p->tls_align-1);
		p->tls_offset = tls_offset;
#endif
		p->new_dtv = (void *)(-sizeof(size_t) &
			(uintptr_t)(p->name+strlen(p->name)+sizeof(size_t)));
		p->new_tls = (void *)(p->new_dtv + n_th*(tls_cnt+1));
	}

	tail->next = p;
	p->prev = tail;
	tail = p;

	if (ldd_mode) dprintf(1, "\t%s => %s (%p)\n", name, pathname, p->base);

	return p;
}

static void load_deps(struct dso *p)
{
	size_t i, ndeps=0;
	struct dso ***deps = &p->deps, **tmp, *dep;
	for (; p; p=p->next) {
		for (i=0; p->dynv[i]; i+=2) {
			if (p->dynv[i] != DT_RPATH) continue;
			r_path = (void *)(p->strings + p->dynv[i+1]);
		}
		for (i=0; p->dynv[i]; i+=2) {
			if (p->dynv[i] != DT_NEEDED) continue;
			dep = load_library(p->strings + p->dynv[i+1]);
			if (!dep) {
				snprintf(errbuf, sizeof errbuf,
					"Error loading shared library %s: %m (needed by %s)",
					p->strings + p->dynv[i+1], p->name);
				if (runtime) longjmp(*rtld_fail, 1);
				dprintf(2, "%s\n", errbuf);
				ldso_fail = 1;
				continue;
			}
			if (runtime) {
				tmp = realloc(*deps, sizeof(*tmp)*(ndeps+2));
				if (!tmp) longjmp(*rtld_fail, 1);
				tmp[ndeps++] = dep;
				tmp[ndeps] = 0;
				*deps = tmp;
			}
		}
		r_path = 0;
	}
}

static void load_preload(char *s)
{
	int tmp;
	char *z;
	for (z=s; *z; s=z) {
		for (   ; *s && isspace(*s); s++);
		for (z=s; *z && !isspace(*z); z++);
		tmp = *z;
		*z = 0;
		load_library(s);
		*z = tmp;
	}
}

static void make_global(struct dso *p)
{
	for (; p; p=p->next) p->global = 1;
}

static void reloc_all(struct dso *p)
{
	size_t dyn[DYN_CNT] = {0};
	for (; p; p=p->next) {
		if (p->relocated) continue;
		decode_vec(p->dynv, dyn, DYN_CNT);
#ifdef NEED_ARCH_RELOCS
		do_arch_relocs(p, head);
#endif
		do_relocs(p, (void *)(p->base+dyn[DT_JMPREL]), dyn[DT_PLTRELSZ],
			2+(dyn[DT_PLTREL]==DT_RELA));
		do_relocs(p, (void *)(p->base+dyn[DT_REL]), dyn[DT_RELSZ], 2);
		do_relocs(p, (void *)(p->base+dyn[DT_RELA]), dyn[DT_RELASZ], 3);
		p->relocated = 1;
	}
}

static size_t find_dyn(Phdr *ph, size_t cnt, size_t stride)
{
	for (; cnt--; ph = (void *)((char *)ph + stride))
		if (ph->p_type == PT_DYNAMIC)
			return ph->p_vaddr;
	return 0;
}

static void find_map_range(Phdr *ph, size_t cnt, size_t stride, struct dso *p)
{
	size_t min_addr = -1, max_addr = 0;
	for (; cnt--; ph = (void *)((char *)ph + stride)) {
		if (ph->p_type != PT_LOAD) continue;
		if (ph->p_vaddr < min_addr)
			min_addr = ph->p_vaddr;
		if (ph->p_vaddr+ph->p_memsz > max_addr)
			max_addr = ph->p_vaddr+ph->p_memsz;
	}
	min_addr &= -PAGE_SIZE;
	max_addr = (max_addr + PAGE_SIZE-1) & -PAGE_SIZE;
	p->map = p->base + min_addr;
	p->map_len = max_addr - min_addr;
}

static void do_fini()
{
	struct dso *p;
	size_t dyn[DYN_CNT] = {0};
	for (p=fini_head; p; p=p->fini_next) {
		if (!p->constructed) continue;
		decode_vec(p->dynv, dyn, DYN_CNT);
		if (dyn[0] & (1<<DT_FINI_ARRAY)) {
			size_t n = dyn[DT_FINI_ARRAYSZ]/sizeof(size_t);
			size_t *fn = (size_t *)(p->base + dyn[DT_FINI_ARRAY])+n;
			while (n--) ((void (*)(void))*--fn)();
		}
#ifndef NO_LEGACY_INITFINI
		if ((dyn[0] & (1<<DT_FINI)) && dyn[DT_FINI])
			((void (*)(void))(p->base + dyn[DT_FINI]))();
#endif
	}
}

static void do_init_fini(struct dso *p)
{
	size_t dyn[DYN_CNT] = {0};
	int need_locking = libc.threads_minus_1;
	/* Allow recursive calls that arise when a library calls
	 * dlopen from one of its constructors, but block any
	 * other threads until all ctors have finished. */
	if (need_locking) pthread_mutex_lock(&init_fini_lock);
	for (; p; p=p->prev) {
		if (p->constructed) continue;
		p->constructed = 1;
		decode_vec(p->dynv, dyn, DYN_CNT);
		if (dyn[0] & ((1<<DT_FINI) | (1<<DT_FINI_ARRAY))) {
			p->fini_next = fini_head;
			fini_head = p;
		}
#ifndef NO_LEGACY_INITFINI
		if ((dyn[0] & (1<<DT_INIT)) && dyn[DT_INIT])
			((void (*)(void))(p->base + dyn[DT_INIT]))();
#endif
		if (dyn[0] & (1<<DT_INIT_ARRAY)) {
			size_t n = dyn[DT_INIT_ARRAYSZ]/sizeof(size_t);
			size_t *fn = (void *)(p->base + dyn[DT_INIT_ARRAY]);
			while (n--) ((void (*)(void))*fn++)();
		}
		if (!need_locking && libc.threads_minus_1) {
			need_locking = 1;
			pthread_mutex_lock(&init_fini_lock);
		}
	}
	if (need_locking) pthread_mutex_unlock(&init_fini_lock);
}

void _dl_debug_state(void)
{
}

void __reset_tls()
{
	pthread_t self = __pthread_self();
	struct dso *p;
	for (p=head; p; p=p->next) {
		if (!p->tls_id || !self->dtv[p->tls_id]) continue;
		memcpy(self->dtv[p->tls_id], p->tls_image, p->tls_len);
		memset((char *)self->dtv[p->tls_id]+p->tls_len, 0,
			p->tls_size - p->tls_len);
		if (p->tls_id == (size_t)self->dtv[0]) break;
	}
}

void *__copy_tls(unsigned char *mem)
{
	pthread_t td;
	struct dso *p;

	if (!tls_cnt) return mem;

	void **dtv = (void *)mem;
	dtv[0] = (void *)tls_cnt;

#ifdef TLS_ABOVE_TP
	mem += sizeof(void *) * (tls_cnt+1);
	mem += -((uintptr_t)mem + sizeof(struct pthread)) & (tls_align-1);
	td = (pthread_t)mem;
	mem += sizeof(struct pthread);

	for (p=head; p; p=p->next) {
		if (!p->tls_id) continue;
		dtv[p->tls_id] = mem + p->tls_offset;
		memcpy(dtv[p->tls_id], p->tls_image, p->tls_len);
	}
#else
	mem += libc.tls_size - sizeof(struct pthread);
	mem -= (uintptr_t)mem & (tls_align-1);
	td = (pthread_t)mem;

	for (p=head; p; p=p->next) {
		if (!p->tls_id) continue;
		dtv[p->tls_id] = mem - p->tls_offset;
		memcpy(dtv[p->tls_id], p->tls_image, p->tls_len);
	}
#endif
	td->dtv = dtv;
	return td;
}

void *__tls_get_addr(size_t *v)
{
	pthread_t self = __pthread_self();
	if (v[0]<=(size_t)self->dtv[0] && self->dtv[v[0]])
		return (char *)self->dtv[v[0]]+v[1];

	/* Block signals to make accessing new TLS async-signal-safe */
	sigset_t set;
	pthread_sigmask(SIG_BLOCK, SIGALL_SET, &set);
	if (v[0]<=(size_t)self->dtv[0] && self->dtv[v[0]]) {
		pthread_sigmask(SIG_SETMASK, &set, 0);
		return (char *)self->dtv[v[0]]+v[1];
	}

	/* This is safe without any locks held because, if the caller
	 * is able to request the Nth entry of the DTV, the DSO list
	 * must be valid at least that far out and it was synchronized
	 * at program startup or by an already-completed call to dlopen. */
	struct dso *p;
	for (p=head; p->tls_id != v[0]; p=p->next);

	/* Get new DTV space from new DSO if needed */
	if (v[0] > (size_t)self->dtv[0]) {
		void **newdtv = p->new_dtv +
			(v[0]+1)*sizeof(void *)*a_fetch_add(&p->new_dtv_idx,1);
		memcpy(newdtv, self->dtv,
			((size_t)self->dtv[0]+1) * sizeof(void *));
		newdtv[0] = (void *)v[0];
		self->dtv = newdtv;
	}

	/* Get new TLS memory from new DSO */
	unsigned char *mem = p->new_tls +
		(p->tls_size + p->tls_align) * a_fetch_add(&p->new_tls_idx,1);
	mem += ((uintptr_t)p->tls_image - (uintptr_t)mem) & (p->tls_align-1);
	self->dtv[v[0]] = mem;
	memcpy(mem, p->tls_image, p->tls_len);
	pthread_sigmask(SIG_SETMASK, &set, 0);
	return mem + v[1];
}

static void update_tls_size()
{
	libc.tls_size = ALIGN(
		(1+tls_cnt) * sizeof(void *) +
		tls_offset +
		sizeof(struct pthread) +
		tls_align * 2,
	tls_align);
}

void *__dynlink(int argc, char **argv)
{
	size_t aux[AUX_CNT] = {0};
	size_t i;
	Phdr *phdr;
	Ehdr *ehdr;
	static struct dso builtin_dsos[3];
	struct dso *const app = builtin_dsos+0;
	struct dso *const lib = builtin_dsos+1;
	struct dso *const vdso = builtin_dsos+2;
	char *env_preload=0;
	size_t vdso_base;
	size_t *auxv;
	char **envp = argv+argc+1;

	/* Find aux vector just past environ[] */
	for (i=argc+1; argv[i]; i++)
		if (!memcmp(argv[i], "LD_LIBRARY_PATH=", 16))
			env_path = argv[i]+16;
		else if (!memcmp(argv[i], "LD_PRELOAD=", 11))
			env_preload = argv[i]+11;
	auxv = (void *)(argv+i+1);

	decode_vec(auxv, aux, AUX_CNT);

	/* Only trust user/env if kernel says we're not suid/sgid */
	if ((aux[0]&0x7800)!=0x7800 || aux[AT_UID]!=aux[AT_EUID]
	  || aux[AT_GID]!=aux[AT_EGID] || aux[AT_SECURE]) {
		env_path = 0;
		env_preload = 0;
	}

	/* If the dynamic linker was invoked as a program itself, AT_BASE
	 * will not be set. In that case, we assume the base address is
	 * the start of the page containing the PHDRs; I don't know any
	 * better approach... */
	if (!aux[AT_BASE]) {
		aux[AT_BASE] = aux[AT_PHDR] & -PAGE_SIZE;
		aux[AT_PHDR] = aux[AT_PHENT] = aux[AT_PHNUM] = 0;
	}

	/* The dynamic linker load address is passed by the kernel
	 * in the AUX vector, so this is easy. */
	lib->base = (void *)aux[AT_BASE];
	lib->name = lib->shortname = "libc.so";
	lib->global = 1;
	ehdr = (void *)lib->base;
	lib->phnum = ehdr->e_phnum;
	lib->phdr = (void *)(aux[AT_BASE]+ehdr->e_phoff);
	find_map_range(lib->phdr, ehdr->e_phnum, ehdr->e_phentsize, lib);
	lib->dynv = (void *)(lib->base + find_dyn(lib->phdr,
		ehdr->e_phnum, ehdr->e_phentsize));
	decode_dyn(lib);

	if (aux[AT_PHDR]) {
		size_t interp_off = 0;
		size_t tls_image = 0;
		/* Find load address of the main program, via AT_PHDR vs PT_PHDR. */
		app->phdr = phdr = (void *)aux[AT_PHDR];
		app->phnum = aux[AT_PHNUM];
		for (i=aux[AT_PHNUM]; i; i--, phdr=(void *)((char *)phdr + aux[AT_PHENT])) {
			if (phdr->p_type == PT_PHDR)
				app->base = (void *)(aux[AT_PHDR] - phdr->p_vaddr);
			else if (phdr->p_type == PT_INTERP)
				interp_off = (size_t)phdr->p_vaddr;
			else if (phdr->p_type == PT_TLS) {
				tls_image = phdr->p_vaddr;
				app->tls_len = phdr->p_filesz;
				app->tls_size = phdr->p_memsz;
				app->tls_align = phdr->p_align;
			}
		}
		if (app->tls_size) app->tls_image = (char *)app->base + tls_image;
		if (interp_off) lib->name = (char *)app->base + interp_off;
		app->name = argv[0];
		app->dynv = (void *)(app->base + find_dyn(
			(void *)aux[AT_PHDR], aux[AT_PHNUM], aux[AT_PHENT]));
		find_map_range((void *)aux[AT_PHDR],
			aux[AT_PHNUM], aux[AT_PHENT], app);
	} else {
		int fd;
		char *ldname = argv[0];
		size_t l = strlen(ldname);
		if (l >= 3 && !strcmp(ldname+l-3, "ldd")) ldd_mode = 1;
		*argv++ = (void *)-1;
		if (argv[0] && !strcmp(argv[0], "--")) *argv++ = (void *)-1;
		if (!argv[0]) {
			dprintf(2, "musl libc/dynamic program loader\n");
			dprintf(2, "usage: %s pathname%s\n", ldname,
				ldd_mode ? "" : " [args]");
			_exit(1);
		}
		fd = open(argv[0], O_RDONLY);
		if (fd < 0) {
			dprintf(2, "%s: cannot load %s: %s\n", ldname, argv[0], strerror(errno));
			_exit(1);
		}
		runtime = 1;
		ehdr = (void *)map_library(fd, app);
		if (!ehdr) {
			dprintf(2, "%s: %s: Not a valid dynamic program\n", ldname, argv[0]);
			_exit(1);
		}
		runtime = 0;
		close(fd);
		lib->name = ldname;
		app->name = argv[0];
		aux[AT_ENTRY] = (size_t)app->base + ehdr->e_entry;
		/* Find the name that would have been used for the dynamic
		 * linker had ldd not taken its place. */
		if (ldd_mode) {
			for (i=0; i<app->phnum; i++) {
				if (app->phdr[i].p_type == PT_INTERP)
					lib->name = (void *)(app->base
						+ app->phdr[i].p_vaddr);
			}
			dprintf(1, "\t%s (%p)\n", lib->name, lib->base);
		}
	}
	if (app->tls_size) {
		app->tls_id = tls_cnt = 1;
#ifdef TLS_ABOVE_TP
		app->tls_offset = 0;
		tls_offset = app->tls_size
			+ ( -((uintptr_t)app->tls_image + app->tls_size)
			& (app->tls_align-1) );
#else
		tls_offset = app->tls_offset = app->tls_size
			+ ( -((uintptr_t)app->tls_image + app->tls_size)
			& (app->tls_align-1) );
#endif
		tls_align = MAXP2(tls_align, app->tls_align);
	}
	app->global = 1;
	decode_dyn(app);

	/* Attach to vdso, if provided by the kernel */
	if (search_vec(auxv, &vdso_base, AT_SYSINFO_EHDR)) {
		ehdr = (void *)vdso_base;
		vdso->phdr = phdr = (void *)(vdso_base + ehdr->e_phoff);
		vdso->phnum = ehdr->e_phnum;
		for (i=ehdr->e_phnum; i; i--, phdr=(void *)((char *)phdr + ehdr->e_phentsize)) {
			if (phdr->p_type == PT_DYNAMIC)
				vdso->dynv = (void *)(vdso_base + phdr->p_offset);
			if (phdr->p_type == PT_LOAD)
				vdso->base = (void *)(vdso_base - phdr->p_vaddr + phdr->p_offset);
		}
		vdso->name = "";
		vdso->shortname = "linux-gate.so.1";
		vdso->global = 1;
		decode_dyn(vdso);
		vdso->prev = lib;
		lib->next = vdso;
	}

	/* Initial dso chain consists only of the app. We temporarily
	 * append the dynamic linker/libc so we can relocate it, then
	 * restore the initial chain in preparation for loading third
	 * party libraries (preload/needed). */
	head = tail = app;
	ldso = lib;
	app->next = lib;
	reloc_all(lib);
	app->next = 0;

	/* PAST THIS POINT, ALL LIBC INTERFACES ARE FULLY USABLE. */

	/* Donate unused parts of app and library mapping to malloc */
	reclaim_gaps(app->base, (void *)aux[AT_PHDR], aux[AT_PHENT], aux[AT_PHNUM]);
	ehdr = (void *)lib->base;
	reclaim_gaps(lib->base, (void *)(lib->base+ehdr->e_phoff),
		ehdr->e_phentsize, ehdr->e_phnum);

	/* Load preload/needed libraries, add their symbols to the global
	 * namespace, and perform all remaining relocations. The main
	 * program must be relocated LAST since it may contain copy
	 * relocations which depend on libraries' relocations. */
	if (env_preload) load_preload(env_preload);
	load_deps(app);
	make_global(app);

	reloc_all(app->next);
	reloc_all(app);

	update_tls_size();
	if (tls_cnt) {
		void *mem = mmap(0, libc.tls_size, PROT_READ|PROT_WRITE,
			MAP_ANONYMOUS|MAP_PRIVATE, -1, 0);
		if (mem==MAP_FAILED ||
		    !__install_initial_tls(__copy_tls(mem))) {
			dprintf(2, "%s: Error getting %zu bytes thread-local storage: %m\n",
				argv[0], libc.tls_size);
			_exit(127);
		}
	}

	if (ldso_fail) _exit(127);
	if (ldd_mode) _exit(0);

	/* Switch to runtime mode: any further failures in the dynamic
	 * linker are a reportable failure rather than a fatal startup
	 * error. If the dynamic loader (dlopen) will not be used, free
	 * all memory used by the dynamic linker. */
	runtime = 1;

#ifndef DYNAMIC_IS_RO
	for (i=0; app->dynv[i]; i+=2)
		if (app->dynv[i]==DT_DEBUG)
			app->dynv[i+1] = (size_t)&debug;
#endif
	debug.ver = 1;
	debug.bp = _dl_debug_state;
	debug.head = head;
	debug.base = lib->base;
	debug.state = 0;
	_dl_debug_state();

	if (ssp_used) __init_ssp((void *)aux[AT_RANDOM]);
	__init_libc(envp, argv[0]);
	atexit(do_fini);
	errno = 0;
	do_init_fini(tail);

	return (void *)aux[AT_ENTRY];
}

void *dlopen(const char *file, int mode)
{
	struct dso *volatile p, *orig_tail, *next;
	size_t orig_tls_cnt, orig_tls_offset, orig_tls_align;
	size_t i;
	int cs;
	jmp_buf jb;

	if (!file) return head;

	pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, &cs);
	pthread_rwlock_wrlock(&lock);
	__inhibit_ptc();

	p = 0;
	orig_tls_cnt = tls_cnt;
	orig_tls_offset = tls_offset;
	orig_tls_align = tls_align;
	orig_tail = tail;
	noload = mode & RTLD_NOLOAD;

	rtld_fail = &jb;
	if (setjmp(*rtld_fail)) {
		/* Clean up anything new that was (partially) loaded */
		if (p && p->deps) for (i=0; p->deps[i]; i++)
			if (p->deps[i]->global < 0)
				p->deps[i]->global = 0;
		for (p=orig_tail->next; p; p=next) {
			next = p->next;
			munmap(p->map, p->map_len);
			free(p->deps);
			free(p);
		}
		tls_cnt = orig_tls_cnt;
		tls_offset = orig_tls_offset;
		tls_align = orig_tls_align;
		tail = orig_tail;
		tail->next = 0;
		p = 0;
		errflag = 1;
		goto end;
	} else p = load_library(file);

	if (!p) {
		snprintf(errbuf, sizeof errbuf, noload ?
			"Library %s is not already loaded" :
			"Error loading shared library %s: %m",
			file);
		errflag = 1;
		goto end;
	}

	/* First load handling */
	if (!p->deps) {
		load_deps(p);
		if (p->deps) for (i=0; p->deps[i]; i++)
			if (!p->deps[i]->global)
				p->deps[i]->global = -1;
		if (!p->global) p->global = -1;
		reloc_all(p);
		if (p->deps) for (i=0; p->deps[i]; i++)
			if (p->deps[i]->global < 0)
				p->deps[i]->global = 0;
		if (p->global < 0) p->global = 0;
	}

	if (mode & RTLD_GLOBAL) {
		if (p->deps) for (i=0; p->deps[i]; i++)
			p->deps[i]->global = 1;
		p->global = 1;
	}

	update_tls_size();

	if (ssp_used) __init_ssp(libc.auxv);

	_dl_debug_state();
	orig_tail = tail;
end:
	__release_ptc();
	if (p) gencnt++;
	pthread_rwlock_unlock(&lock);
	if (p) do_init_fini(orig_tail);
	pthread_setcancelstate(cs, 0);
	return p;
}

static int invalid_dso_handle(void *h)
{
	struct dso *p;
	for (p=head; p; p=p->next) if (h==p) return 0;
	snprintf(errbuf, sizeof errbuf, "Invalid library handle %p", (void *)h);
	errflag = 1;
	return 1;
}

static void *do_dlsym(struct dso *p, const char *s, void *ra)
{
	size_t i;
	uint32_t h = 0, gh = 0;
	Sym *sym;
	if (p == head || p == RTLD_DEFAULT || p == RTLD_NEXT) {
		if (p == RTLD_DEFAULT) {
			p = head;
		} else if (p == RTLD_NEXT) {
			for (p=head; p && (unsigned char *)ra-p->map>p->map_len; p=p->next);
			if (!p) p=head;
			p = p->next;
		}
		struct symdef def = find_sym(p, s, 0);
		if (!def.sym) goto failed;
		if ((def.sym->st_info&0xf) == STT_TLS)
			return __tls_get_addr((size_t []){def.dso->tls_id, def.sym->st_value});
		return def.dso->base + def.sym->st_value;
	}
	if (p != RTLD_DEFAULT && p != RTLD_NEXT && invalid_dso_handle(p))
		return 0;
	if (p->ghashtab) {
		gh = gnu_hash(s);
		sym = gnu_lookup(s, gh, p);
	} else {
		h = sysv_hash(s);
		sym = sysv_lookup(s, h, p);
	}
	if (sym && (sym->st_info&0xf) == STT_TLS)
		return __tls_get_addr((size_t []){p->tls_id, sym->st_value});
	if (sym && sym->st_value && (1<<(sym->st_info&0xf) & OK_TYPES))
		return p->base + sym->st_value;
	if (p->deps) for (i=0; p->deps[i]; i++) {
		if (p->deps[i]->ghashtab) {
			if (!gh) gh = gnu_hash(s);
			sym = gnu_lookup(s, gh, p->deps[i]);
		} else {
			if (!h) h = sysv_hash(s);
			sym = sysv_lookup(s, h, p->deps[i]);
		}
		if (sym && (sym->st_info&0xf) == STT_TLS)
			return __tls_get_addr((size_t []){p->deps[i]->tls_id, sym->st_value});
		if (sym && sym->st_value && (1<<(sym->st_info&0xf) & OK_TYPES))
			return p->deps[i]->base + sym->st_value;
	}
failed:
	errflag = 1;
	snprintf(errbuf, sizeof errbuf, "Symbol not found: %s", s);
	return 0;
}

int __dladdr(void *addr, Dl_info *info)
{
	struct dso *p;
	Sym *sym;
	uint32_t nsym;
	char *strings;
	size_t i;
	void *best = 0;
	char *bestname;

	pthread_rwlock_rdlock(&lock);
	for (p=head; p && (unsigned char *)addr-p->map>p->map_len; p=p->next);
	pthread_rwlock_unlock(&lock);

	if (!p) return 0;

	sym = p->syms;
	strings = p->strings;
	if (p->hashtab) {
		nsym = p->hashtab[1];
	} else {
		uint32_t *buckets;
		uint32_t *hashval;
		buckets = p->ghashtab + 4 + (p->ghashtab[2]*sizeof(size_t)/4);
		sym += p->ghashtab[1];
		for (i = 0; i < p->ghashtab[0]; i++) {
			if (buckets[i] > nsym)
				nsym = buckets[i];
		}
		if (nsym) {
			nsym -= p->ghashtab[1];
			hashval = buckets + p->ghashtab[0] + nsym;
			do nsym++;
			while (!(*hashval++ & 1));
		}
	}

	for (; nsym; nsym--, sym++) {
		if (sym->st_value
		 && (1<<(sym->st_info&0xf) & OK_TYPES)
		 && (1<<(sym->st_info>>4) & OK_BINDS)) {
			void *symaddr = p->base + sym->st_value;
			if (symaddr > addr || symaddr < best)
				continue;
			best = symaddr;
			bestname = strings + sym->st_name;
			if (addr == symaddr)
				break;
		}
	}

	if (!best) return 0;

	info->dli_fname = p->name;
	info->dli_fbase = p->base;
	info->dli_sname = bestname;
	info->dli_saddr = best;

	return 1;
}

void *__dlsym(void *restrict p, const char *restrict s, void *restrict ra)
{
	void *res;
	pthread_rwlock_rdlock(&lock);
	res = do_dlsym(p, s, ra);
	pthread_rwlock_unlock(&lock);
	return res;
}

int dl_iterate_phdr(int(*callback)(struct dl_phdr_info *info, size_t size, void *data), void *data)
{
	struct dso *current;
	struct dl_phdr_info info;
	int ret = 0;
	for(current = head; current;) {
		info.dlpi_addr      = (uintptr_t)current->base;
		info.dlpi_name      = current->name;
		info.dlpi_phdr      = current->phdr;
		info.dlpi_phnum     = current->phnum;
		info.dlpi_adds      = gencnt;
		info.dlpi_subs      = 0;
		info.dlpi_tls_modid = current->tls_id;
		info.dlpi_tls_data  = current->tls_image;

		ret = (callback)(&info, sizeof (info), data);

		if (ret != 0) break;

		pthread_rwlock_rdlock(&lock);
		current = current->next;
		pthread_rwlock_unlock(&lock);
	}
	return ret;
}
#else
static int invalid_dso_handle(void *h)
{
	snprintf(errbuf, sizeof errbuf, "Invalid library handle %p", (void *)h);
	errflag = 1;
	return 1;
}
void *dlopen(const char *file, int mode)
{
	return 0;
}
void *__dlsym(void *restrict p, const char *restrict s, void *restrict ra)
{
	return 0;
}
int __dladdr (void *addr, Dl_info *info)
{
	return 0;
}
#endif

int __dlinfo(void *dso, int req, void *res)
{
	if (invalid_dso_handle(dso)) return -1;
	if (req != RTLD_DI_LINKMAP) {
		snprintf(errbuf, sizeof errbuf, "Unsupported request %d", req);
		errflag = 1;
		return -1;
	}
	*(struct link_map **)res = dso;
	return 0;
}

char *dlerror()
{
	if (!errflag) return 0;
	errflag = 0;
	return errbuf;
}

int dlclose(void *p)
{
	return invalid_dso_handle(p);
}