sys/kern/kern_ksyms.c

1.8  ragge /*	$NetBSD: kern_ksyms.c,v 1.8 2003/05/07 21:28:16 ragge Exp $	*/
1.1  ragge /*
1.1  ragge  * Copyright (c) 2001, 2003 Anders Magnusson (ragge (at) ludd.luth.se).
1.1  ragge  * All rights reserved.
1.1  ragge  *
1.1  ragge  * Redistribution and use in source and binary forms, with or without
1.1  ragge  * modification, are permitted provided that the following conditions
1.1  ragge  * are met:
1.1  ragge  * 1. Redistributions of source code must retain the above copyright
1.1  ragge  *    notice, this list of conditions and the following disclaimer.
1.1  ragge  * 2. Redistributions in binary form must reproduce the above copyright
1.1  ragge  *    notice, this list of conditions and the following disclaimer in the
1.1  ragge  *    documentation and/or other materials provided with the distribution.
1.1  ragge  * 3. The name of the author may not be used to endorse or promote products
1.1  ragge  *    derived from this software without specific prior written permission
1.1  ragge  *
1.1  ragge  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  ragge  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  ragge  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  ragge  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  ragge  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1  ragge  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1  ragge  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1  ragge  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1  ragge  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.1  ragge  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  ragge  */
1.1  ragge
1.1  ragge /*
1.1  ragge  * Code to deal with in-kernel symbol table management + /dev/ksyms.
1.1  ragge  *
1.1  ragge  * For each loaded module the symbol table info is kept track of by a
1.1  ragge  * struct, placed in a circular list. The first entry is the kernel
1.1  ragge  * symbol table.
1.1  ragge  */
1.1  ragge
1.1  ragge /*
1.1  ragge  * TODO:
1.1  ragge  *	Change the ugly way of adding new symbols (comes with linker)
1.1  ragge  *	Add kernel locking stuff.
1.1  ragge  *	(Ev) add support for poll.
1.1  ragge  *	(Ev) fix support for mmap.
1.1  ragge  *
1.1  ragge  *	Export ksyms internal logic for use in post-mortem debuggers?
1.1  ragge  *	  Need to move struct symtab to ksyms.h for that.
1.1  ragge  */
1.1  ragge
1.1  ragge #ifdef _KERNEL
1.1  ragge #include "opt_ddb.h"
1.3  ragge #include "opt_ddbparam.h"	/* for SYMTAB_SPACE */
1.1  ragge #endif
1.1  ragge
1.1  ragge #include <sys/param.h>
1.1  ragge #include <sys/errno.h>
1.1  ragge #include <sys/queue.h>
1.1  ragge #include <sys/exec.h>
1.1  ragge #include <sys/systm.h>
1.1  ragge #include <sys/conf.h>
1.1  ragge #include <sys/device.h>
1.1  ragge #include <sys/malloc.h>
1.1  ragge #include <sys/proc.h>
1.1  ragge
1.1  ragge #include <machine/elf_machdep.h> /* XXX */
1.1  ragge #define ELFSIZE ARCH_ELFSIZE
1.1  ragge
1.1  ragge #include <sys/exec_elf.h>
1.1  ragge #include <sys/ksyms.h>
1.1  ragge
1.1  ragge #include <lib/libkern/libkern.h>
1.1  ragge
1.1  ragge #ifdef DDB
1.1  ragge #include <ddb/db_output.h>
1.1  ragge #endif
1.1  ragge
1.1  ragge #include "ksyms.h"
1.1  ragge
1.1  ragge static int ksymsinited = 0;
1.1  ragge
1.1  ragge #if NKSYMS
1.1  ragge static void ksyms_hdr_init(caddr_t hdraddr);
1.1  ragge static void ksyms_sizes_calc(void);
1.1  ragge static int ksyms_isopen;
1.5  ragge static int ksyms_maxlen;
1.1  ragge #endif
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge #define	FOLLOW_CALLS		1
1.1  ragge #define	FOLLOW_MORE_CALLS	2
1.1  ragge #define	FOLLOW_DEVKSYMS		4
1.1  ragge static int ksyms_debug;
1.1  ragge #endif
1.1  ragge
1.1  ragge #if NKSYMS
1.1  ragge dev_type_open(ksymsopen);
1.1  ragge dev_type_close(ksymsclose);
1.1  ragge dev_type_read(ksymsread);
1.1  ragge dev_type_write(ksymswrite);
1.1  ragge dev_type_ioctl(ksymsioctl);
1.1  ragge
1.1  ragge const struct cdevsw ksyms_cdevsw = {
1.1  ragge 	ksymsopen, ksymsclose, ksymsread, ksymswrite, ksymsioctl,
1.1  ragge 	nullstop, notty, nopoll, nommap, nullkqfilter, DV_DULL
1.1  ragge };
1.1  ragge #endif
1.1  ragge
1.3  ragge #ifdef SYMTAB_SPACE
1.3  ragge #define		SYMTAB_FILLER	"|This is the symbol table!"
1.3  ragge
1.3  ragge char		db_symtab[SYMTAB_SPACE] = SYMTAB_FILLER;
1.3  ragge int		db_symtabsize = SYMTAB_SPACE;
1.3  ragge #endif
1.1  ragge
1.1  ragge /*
1.1  ragge  * Store the different symbol tables in a double-linked list.
1.1  ragge  */
1.1  ragge struct symtab {
1.1  ragge 	CIRCLEQ_ENTRY(symtab) sd_queue;
1.1  ragge 	char *sd_name;		/* Name of this table */
1.1  ragge 	Elf_Sym *sd_symstart;	/* Address of symbol table */
1.1  ragge 	caddr_t sd_strstart;	/* Adderss of corresponding string table */
1.1  ragge 	int sd_symsize;		/* Size in bytes of symbol table */
1.1  ragge 	int sd_strsize;		/* Size of string table */
1.1  ragge 	int *sd_symnmoff;	/* Used when calculating the name offset */
1.1  ragge };
1.1  ragge
1.1  ragge static CIRCLEQ_HEAD(, symtab) symtab_queue =
1.1  ragge     CIRCLEQ_HEAD_INITIALIZER(symtab_queue);
1.1  ragge
1.1  ragge static struct symtab kernel_symtab;
1.1  ragge
1.8  ragge #define	USE_PTREE
1.8  ragge #ifdef USE_PTREE
1.8  ragge /*
1.8  ragge  * Patricia-tree-based lookup structure for the in-kernel global symbols.
1.8  ragge  * Based on a design by Mikael Sundstrom, msm (at) sm.luth.se.
1.8  ragge  */
1.8  ragge struct ptree {
1.8  ragge 	int16_t bitno;
1.8  ragge 	int16_t lr[2];
1.8  ragge } *symb;
1.8  ragge static int16_t baseidx;
1.8  ragge static int treex = 1;
1.8  ragge
1.8  ragge #define	P_BIT(key, bit) ((key[bit >> 3] >> (bit & 7)) & 1)
1.8  ragge #define	STRING(idx) kernel_symtab.sd_symstart[idx].st_name + \
1.8  ragge 			kernel_symtab.sd_strstart
1.8  ragge
1.8  ragge /*
1.8  ragge  * Walk down the tree until a terminal node is found.
1.8  ragge  */
1.8  ragge static int
1.8  ragge symbol_traverse(char *key)
1.8  ragge {
1.8  ragge 	int16_t nb, rbit = baseidx;
1.8  ragge
1.8  ragge 	while (rbit > 0) {
1.8  ragge 		nb = symb[rbit].bitno;
1.8  ragge 		rbit = symb[rbit].lr[P_BIT(key, nb)];
1.8  ragge 	}
1.8  ragge 	return -rbit;
1.8  ragge }
1.8  ragge
1.8  ragge static int
1.8  ragge ptree_add(char *key, int val)
1.8  ragge {
1.8  ragge 	int idx;
1.8  ragge 	int nix, cix, bit, rbit, sb, lastrbit, svbit, ix;
1.8  ragge 	char *m, *k;
1.8  ragge
1.8  ragge 	if (baseidx == 0) {
1.8  ragge 		baseidx = -val;
1.8  ragge 		return 0; /* First element */
1.8  ragge 	}
1.8  ragge
1.8  ragge 	/* Get string to match against */
1.8  ragge 	idx = symbol_traverse(key);
1.8  ragge
1.8  ragge 	/* Find first mismatching bit */
1.8  ragge 	m = STRING(idx);
1.8  ragge 	k = key;
1.8  ragge 	if (strcmp(m, k) == 0)
1.8  ragge 		return 1;
1.8  ragge
1.8  ragge 	for (cix = 0; *m && *k && *m == *k; m++, k++, cix += 8)
1.8  ragge 		;
1.8  ragge 	ix = ffs((int)*m ^ (int)*k) - 1;
1.8  ragge 	cix += ix;
1.8  ragge
1.8  ragge 	/* Create new node */
1.8  ragge 	nix = treex++;
1.8  ragge 	bit = P_BIT(key, cix);
1.8  ragge 	symb[nix].bitno = cix;
1.8  ragge 	symb[nix].lr[bit] = -val;
1.8  ragge
1.8  ragge 	/* Find where to insert node */
1.8  ragge 	rbit = baseidx;
1.8  ragge 	lastrbit = 0;
1.8  ragge 	for (;;) {
1.8  ragge 		if (rbit < 0)
1.8  ragge 			break;
1.8  ragge 		sb = symb[rbit].bitno;
1.8  ragge 		if (sb > cix)
1.8  ragge 			break;
1.8  ragge 		if (sb == cix)
1.8  ragge 			printf("symb[rbit].bitno == cix!!!\n");
1.8  ragge 		lastrbit = rbit;
1.8  ragge 		svbit = P_BIT(key, sb);
1.8  ragge 		rbit = symb[rbit].lr[svbit];
1.8  ragge 	}
1.8  ragge
1.8  ragge 	/* Do the actual insertion */
1.8  ragge 	if (lastrbit == 0) {
1.8  ragge 		/* first element */
1.8  ragge 		symb[nix].lr[!bit] = baseidx;
1.8  ragge 		baseidx = nix;
1.8  ragge 	} else {
1.8  ragge 		symb[nix].lr[!bit] = rbit;
1.8  ragge 		symb[lastrbit].lr[svbit] = nix;
1.8  ragge 	}
1.8  ragge 	return 0;
1.8  ragge }
1.8  ragge
1.8  ragge static int
1.8  ragge ptree_find(char *key)
1.8  ragge {
1.8  ragge 	int idx;
1.8  ragge
1.8  ragge 	if (baseidx == 0)
1.8  ragge 		return 0;
1.8  ragge 	idx = symbol_traverse(key);
1.8  ragge
1.8  ragge 	if (strcmp(key, STRING(idx)) == 0)
1.8  ragge 		return idx;
1.8  ragge 	return 0;
1.8  ragge }
1.8  ragge
1.8  ragge static void
1.8  ragge ptree_gen(char *off, struct symtab *tab)
1.8  ragge {
1.8  ragge 	Elf_Sym *sym;
1.8  ragge 	int i;
1.8  ragge
1.8  ragge 	if (off != NULL)
1.8  ragge 		symb = (struct ptree *)ALIGN(off);
1.8  ragge 	else
1.8  ragge 		symb = malloc((tab->sd_symsize/sizeof(Elf_Sym)) *
1.8  ragge 		    sizeof(struct ptree), M_DEVBUF, M_WAITOK);
1.8  ragge 	symb--; /* sym index won't be 0 */
1.8  ragge
1.8  ragge 	sym = tab->sd_symstart;
1.8  ragge 	for (i = 1; i < tab->sd_symsize/sizeof(Elf_Sym); i++) {
1.8  ragge 		if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL)
1.8  ragge 			continue;
1.8  ragge 		ptree_add(tab->sd_strstart+sym[i].st_name, i);
1.8  ragge 	}
1.8  ragge }
1.8  ragge #endif
1.8  ragge
1.1  ragge /*
1.1  ragge  * Finds a certain symbol name in a certain symbol table.
1.1  ragge  */
1.1  ragge static Elf_Sym *
1.1  ragge findsym(char *name, struct symtab *table)
1.1  ragge {
1.1  ragge 	Elf_Sym *start = table->sd_symstart;
1.1  ragge 	int i, sz = table->sd_symsize/sizeof(Elf_Sym);
1.1  ragge 	char *np;
1.1  ragge
1.8  ragge #ifdef USE_PTREE
1.8  ragge 	if (table == &kernel_symtab && (i = ptree_find(name)) != 0)
1.8  ragge 		return &start[i];
1.8  ragge #endif
1.8  ragge
1.1  ragge 	for (i = 0; i < sz; i++) {
1.1  ragge 		np = table->sd_strstart + start[i].st_name;
1.1  ragge 		if (name[0] == np[0] && name[1] == np[1] &&
1.1  ragge 		    strcmp(name, np) == 0)
1.1  ragge 			return &start[i];
1.1  ragge 	}
1.1  ragge 	return NULL;
1.1  ragge }
1.1  ragge
1.1  ragge /*
1.1  ragge  * The "attach" is in reality done in ksyms_init().
1.1  ragge  */
1.1  ragge void ksymsattach(int);
1.1  ragge void
1.1  ragge ksymsattach(int arg)
1.1  ragge {
1.8  ragge
1.8  ragge #ifdef USE_PTREE
1.8  ragge 	if (baseidx == 0)
1.8  ragge 		ptree_gen(0, &kernel_symtab);
1.8  ragge #endif
1.8  ragge
1.1  ragge }
1.1  ragge
1.1  ragge /*
1.1  ragge  * Add a symbol table named name.
1.1  ragge  * This is intended for use when the kernel loader enters the table.
1.1  ragge  */
1.1  ragge static void
1.1  ragge addsymtab(char *name, Elf_Ehdr *ehdr, struct symtab *tab)
1.1  ragge {
1.1  ragge 	caddr_t start = (caddr_t)ehdr;
1.8  ragge 	caddr_t send;
1.1  ragge 	Elf_Shdr *shdr;
1.8  ragge 	Elf_Sym *sym, *nsym;
1.8  ragge 	int i, j, n, g;
1.8  ragge 	char *str;
1.1  ragge
1.1  ragge 	/* Find the symbol table and the corresponding string table. */
1.1  ragge 	shdr = (Elf_Shdr *)(start + ehdr->e_shoff);
1.1  ragge 	for (i = 1; i < ehdr->e_shnum; i++) {
1.1  ragge 		if (shdr[i].sh_type != SHT_SYMTAB)
1.1  ragge 			continue;
1.1  ragge 		if (shdr[i].sh_offset == 0)
1.1  ragge 			continue;
1.1  ragge 		tab->sd_symstart = (Elf_Sym *)(start + shdr[i].sh_offset);
1.1  ragge 		tab->sd_symsize = shdr[i].sh_size;
1.1  ragge 		j = shdr[i].sh_link;
1.1  ragge 		if (shdr[j].sh_offset == 0)
1.1  ragge 			continue; /* Can this happen? */
1.1  ragge 		tab->sd_strstart = start + shdr[j].sh_offset;
1.1  ragge 		tab->sd_strsize = shdr[j].sh_size;
1.1  ragge 		break;
1.1  ragge 	}
1.1  ragge 	tab->sd_name = name;
1.8  ragge 	send = tab->sd_strstart + tab->sd_strsize;
1.8  ragge
1.8  ragge #ifdef KSYMS_DEBUG
1.8  ragge 	printf("start %p sym %p symsz %d str %p strsz %d send %p\n",
1.8  ragge 	    start, tab->sd_symstart, tab->sd_symsize,
1.8  ragge 	    tab->sd_strstart, tab->sd_strsize, send);
1.8  ragge #endif
1.1  ragge
1.8  ragge 	/*
1.8  ragge 	 * Pack symbol table by removing all file name references
1.8  ragge 	 * and overwrite the elf header.
1.8  ragge 	 */
1.8  ragge 	sym = tab->sd_symstart;
1.8  ragge 	nsym = (Elf_Sym *)start;
1.8  ragge 	str = tab->sd_strstart;
1.8  ragge 	for (g = i = n = 0; i < tab->sd_symsize/sizeof(Elf_Sym); i++) {
1.8  ragge 		if (i == 0) {
1.8  ragge 			nsym[n++] = sym[i];
1.8  ragge 			continue;
1.8  ragge 		}
1.8  ragge 		/*
1.8  ragge 		 * Remove useless symbols.
1.8  ragge 		 * Should actually remove all typeless symbols.
1.8  ragge 		 */
1.5  ragge 		if (sym[i].st_name == 0)
1.8  ragge 			continue; /* Skip nameless entries */
1.8  ragge 		if (ELF_ST_TYPE(sym[i].st_info) == STT_FILE)
1.8  ragge 			continue; /* Skip filenames */
1.8  ragge 		if (ELF_ST_TYPE(sym[i].st_info) == STT_NOTYPE &&
1.8  ragge 		    sym[i].st_value == 0 &&
1.8  ragge 		    strcmp(str + sym[i].st_name, "*ABS*") == 0)
1.8  ragge 			continue; /* XXX */
1.8  ragge 		if (ELF_ST_TYPE(sym[i].st_info) == STT_NOTYPE &&
1.8  ragge 		    strcmp(str + sym[i].st_name, "gcc2_compiled.") == 0)
1.8  ragge 			continue; /* XXX */
1.8  ragge
1.8  ragge #ifndef DDB
1.8  ragge 		/* Only need global symbols */
1.8  ragge 		if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL)
1.5  ragge 			continue;
1.8  ragge #endif
1.8  ragge
1.8  ragge 		/* Save symbol. Set it as an absolute offset */
1.8  ragge 		nsym[n] = sym[i];
1.8  ragge 		nsym[n].st_shndx = SHN_ABS;
1.8  ragge 		if (ELF_ST_BIND(nsym[n].st_info) == STB_GLOBAL)
1.8  ragge 			g++;
1.6   tron #if NKSYMS
1.8  ragge 		j = strlen(nsym[n].st_name + tab->sd_strstart) + 1;
1.5  ragge 		if (j > ksyms_maxlen)
1.5  ragge 			ksyms_maxlen = j;
1.6   tron #endif
1.8  ragge 		n++;
1.8  ragge
1.5  ragge 	}
1.8  ragge 	tab->sd_symstart = nsym;
1.8  ragge 	tab->sd_symsize = n * sizeof(Elf_Sym);
1.8  ragge
1.8  ragge #ifdef notyet
1.8  ragge 	/*
1.8  ragge 	 * Remove left-over strings.
1.8  ragge 	 */
1.8  ragge 	sym = tab->sd_symstart;
1.8  ragge 	str = (caddr_t)tab->sd_symstart + tab->sd_symsize;
1.8  ragge 	str[0] = 0;
1.8  ragge 	n = 1;
1.8  ragge 	for (i = 1; i < tab->sd_symsize/sizeof(Elf_Sym); i++) {
1.8  ragge 		strcpy(str+n, tab->sd_strstart + sym[i].st_name);
1.8  ragge 		sym[i].st_name = n;
1.8  ragge 		n += strlen(str+n) + 1;
1.8  ragge 	}
1.8  ragge 	tab->sd_strstart = str;
1.8  ragge 	tab->sd_strsize = n;
1.8  ragge
1.8  ragge #ifdef KSYMS_DEBUG
1.8  ragge 	printf("str %p strsz %d send %p\n", str, n, send);
1.8  ragge #endif
1.8  ragge #endif
1.1  ragge
1.1  ragge 	CIRCLEQ_INSERT_HEAD(&symtab_queue, tab, sd_queue);
1.8  ragge
1.8  ragge #ifdef notyet
1.8  ragge #ifdef USE_PTREE
1.8  ragge 	/* Try to use the freed space, if possible */
1.8  ragge 	if (send - str - n > g * sizeof(struct ptree))
1.8  ragge 		ptree_gen(str + n, tab);
1.8  ragge #endif
1.8  ragge #endif
1.1  ragge }
1.1  ragge
1.1  ragge /*
1.1  ragge  * Setup the kernel symbol table stuff.
1.1  ragge  */
1.1  ragge void
1.4  ragge ksyms_init(int symsize, void *start, void *end)
1.1  ragge {
1.3  ragge 	Elf_Ehdr *ehdr;
1.3  ragge
1.3  ragge #ifdef SYMTAB_SPACE
1.3  ragge 	if (symsize <= 0 &&
1.3  ragge 	    strncmp(db_symtab, SYMTAB_FILLER, sizeof(SYMTAB_FILLER))) {
1.3  ragge 		symsize = db_symtabsize;
1.3  ragge 		start = db_symtab;
1.3  ragge 		end = db_symtab + db_symtabsize;
1.3  ragge 	}
1.3  ragge #endif
1.3  ragge 	if (symsize <= 0) {
1.3  ragge 		printf("[ Kernel symbol table missing! ]\n");
1.3  ragge 		return;
1.3  ragge 	}
1.3  ragge
1.3  ragge 	/* Sanity check */
1.3  ragge 	if (ALIGNED_POINTER(start, long) == 0) {
1.3  ragge 		printf("[ Kernel symbol table has bad start address %p ]\n",
1.3  ragge 		    start);
1.3  ragge 		return;
1.3  ragge 	}
1.3  ragge
1.3  ragge 	ehdr = (Elf_Ehdr *)start;
1.1  ragge
1.1  ragge 	/* check if this is a valid ELF header */
1.1  ragge 	/* No reason to verify arch type, the kernel is actually running! */
1.1  ragge 	if (memcmp(ehdr->e_ident, ELFMAG, SELFMAG) ||
1.1  ragge 	    ehdr->e_ident[EI_CLASS] != ELFCLASS ||
1.1  ragge 	    ehdr->e_version > 1) {
1.3  ragge #ifdef notyet /* DDB */
1.3  ragge 		if (ddb_init(symsize, start, end))
1.3  ragge 			return; /* old-style symbol table */
1.3  ragge #endif
1.3  ragge 		printf("[ Kernel symbol table invalid! ]\n");
1.1  ragge 		return; /* nothing to do */
1.1  ragge 	}
1.1  ragge
1.8  ragge #if NKSYMS
1.8  ragge 	/* Loaded header will be scratched in addsymtab */
1.8  ragge 	ksyms_hdr_init(start);
1.8  ragge #endif
1.8  ragge
1.1  ragge 	addsymtab("netbsd", ehdr, &kernel_symtab);
1.8  ragge
1.1  ragge #if NKSYMS
1.1  ragge 	ksyms_sizes_calc();
1.1  ragge #endif
1.8  ragge
1.1  ragge 	ksymsinited = 1;
1.8  ragge
1.1  ragge #ifdef DEBUG
1.1  ragge 	printf("Loaded initial symtab at %p, strtab at %p, # entries %ld\n",
1.1  ragge 	    kernel_symtab.sd_symstart, kernel_symtab.sd_strstart,
1.2  ragge 	    (long)kernel_symtab.sd_symsize/sizeof(Elf_Sym));
1.1  ragge #endif
1.1  ragge }
1.1  ragge
1.1  ragge /*
1.1  ragge  * Get the value associated with a symbol.
1.1  ragge  * "mod" is the module name, or null if any module.
1.1  ragge  * "sym" is the symbol name.
1.1  ragge  * "val" is a pointer to the corresponding value, if call succeeded.
1.1  ragge  * Returns 0 if success or ENOENT if no such entry.
1.1  ragge  */
1.1  ragge int
1.1  ragge ksyms_getval(char *mod, char *sym, unsigned long *val, int type)
1.1  ragge {
1.1  ragge 	struct symtab *st;
1.1  ragge 	Elf_Sym *es;
1.1  ragge
1.1  ragge 	if (ksymsinited == 0)
1.1  ragge 		return ENOENT;
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge 	if (ksyms_debug & FOLLOW_CALLS)
1.1  ragge 		printf("ksyms_getval: mod %s sym %s valp %p\n", mod, sym, val);
1.1  ragge #endif
1.1  ragge
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (mod && strcmp(st->sd_name, mod))
1.1  ragge 			continue;
1.1  ragge 		if ((es = findsym(sym, st)) == NULL)
1.1  ragge 			continue;
1.1  ragge
1.1  ragge 		/* Skip if bad binding */
1.1  ragge 		if (type == KSYMS_EXTERN &&
1.1  ragge 		    ELF_ST_BIND(es->st_info) != STB_GLOBAL)
1.1  ragge 			continue;
1.1  ragge
1.1  ragge 		if (val)
1.1  ragge 			*val = es->st_value;
1.1  ragge 		return 0;
1.1  ragge 	}
1.1  ragge 	return ENOENT;
1.1  ragge }
1.1  ragge
1.1  ragge /*
1.1  ragge  * Get "mod" and "symbol" associated with an address.
1.1  ragge  * Returns 0 if success or ENOENT if no such entry.
1.1  ragge  */
1.1  ragge int
1.1  ragge ksyms_getname(char **mod, char **sym, vaddr_t v, int f)
1.1  ragge {
1.1  ragge 	struct symtab *st;
1.1  ragge 	Elf_Sym *les, *es = NULL;
1.1  ragge 	vaddr_t laddr = 0;
1.1  ragge 	char *lmod, *stable;
1.1  ragge 	int type, i, sz;
1.1  ragge
1.1  ragge 	if (ksymsinited == 0)
1.1  ragge 		return ENOENT;
1.1  ragge
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		sz = st->sd_symsize/sizeof(Elf_Sym);
1.1  ragge 		for (i = 0; i < sz; i++) {
1.1  ragge 			les = st->sd_symstart + i;
1.1  ragge 			type = ELF_ST_TYPE(les->st_info);
1.1  ragge
1.1  ragge 			if ((f & KSYMS_PROC) && (type != STT_FUNC))
1.1  ragge 				continue;
1.1  ragge
1.1  ragge 			if (type == STT_NOTYPE)
1.1  ragge 				continue;
1.1  ragge
1.1  ragge 			if (((f & KSYMS_ANY) == 0) &&
1.1  ragge 			    (type != STT_FUNC) && (type != STT_OBJECT))
1.1  ragge 				continue;
1.1  ragge
1.1  ragge 			if ((les->st_value <= v) && (les->st_value > laddr)) {
1.1  ragge 				laddr = les->st_value;
1.1  ragge 				es = les;
1.1  ragge 				lmod = st->sd_name;
1.1  ragge 				stable = st->sd_strstart;
1.1  ragge 			}
1.1  ragge 		}
1.1  ragge 	}
1.1  ragge 	if (es == NULL)
1.1  ragge 		return ENOENT;
1.1  ragge 	if ((f & KSYMS_EXACT) && (v != es->st_value))
1.1  ragge 		return ENOENT;
1.1  ragge 	if (mod)
1.1  ragge 		*mod = lmod;
1.1  ragge 	if (sym)
1.1  ragge 		*sym = stable + es->st_name;
1.1  ragge 	return 0;
1.1  ragge }
1.1  ragge
1.1  ragge #if NKSYMS
1.1  ragge static int symsz, strsz;
1.1  ragge
1.1  ragge static void
1.1  ragge ksyms_sizes_calc(void)
1.1  ragge {
1.1  ragge         struct symtab *st;
1.1  ragge 	int i;
1.1  ragge
1.1  ragge         symsz = strsz = 0;
1.1  ragge         CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (st != &kernel_symtab) {
1.1  ragge 			for (i = 0; i < st->sd_symsize/sizeof(Elf_Sym); i++)
1.1  ragge 				st->sd_symstart[i].st_name =
1.1  ragge 				    strsz + st->sd_symnmoff[i];
1.1  ragge 		}
1.1  ragge                 symsz += st->sd_symsize;
1.1  ragge                 strsz += st->sd_strsize;
1.1  ragge         }
1.1  ragge }
1.1  ragge #endif
1.1  ragge
1.1  ragge /*
1.1  ragge  * Temporary work buffers for dynamic loaded symbol tables.
1.1  ragge  * Will go away when in-kernel linker is in place.
1.1  ragge  */
1.1  ragge #define	NSAVEDSYMS 512
1.1  ragge #define	SZSYMNAMES NSAVEDSYMS*8		/* Just an approximation */
1.1  ragge static Elf_Sym savedsyms[NSAVEDSYMS];
1.1  ragge static int symnmoff[NSAVEDSYMS];
1.1  ragge static char symnames[SZSYMNAMES];
1.1  ragge static int cursyms, curnamep;
1.1  ragge
1.1  ragge /*
1.1  ragge  * Add a symbol to the temporary save area for symbols.
1.1  ragge  * This routine will go away when the in-kernel linker is in place.
1.1  ragge  */
1.1  ragge static void
1.1  ragge addsym(Elf_Sym *sym, char *name)
1.1  ragge {
1.1  ragge 	int len;
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge 	if (ksyms_debug & FOLLOW_MORE_CALLS)
1.1  ragge 		printf("addsym: name %s val %lx\n", name, (long)sym->st_value);
1.1  ragge #endif
1.1  ragge 	if (cursyms == NSAVEDSYMS ||
1.5  ragge 	    ((len = strlen(name) + 1) + curnamep) > SZSYMNAMES) {
1.1  ragge 		printf("addsym: too many sumbols, skipping '%s'\n", name);
1.1  ragge 		return;
1.1  ragge 	}
1.1  ragge 	strcpy(&symnames[curnamep], name);
1.1  ragge 	savedsyms[cursyms] = *sym;
1.1  ragge 	symnmoff[cursyms] = savedsyms[cursyms].st_name = curnamep;
1.5  ragge 	curnamep += len;
1.7  ragge #if NKSYMS
1.5  ragge 	if (len > ksyms_maxlen)
1.5  ragge 		ksyms_maxlen = len;
1.6   tron #endif
1.1  ragge 	cursyms++;
1.1  ragge }
1.1  ragge /*
1.1  ragge  * Adds a symbol table.
1.1  ragge  * "name" is the module name, "start" and "size" is where the symbol table
1.1  ragge  * is located, and "type" is in which binary format the symbol table is.
1.1  ragge  * New memory for keeping the symbol table is allocated in this function.
1.1  ragge  * Returns 0 if success and EEXIST if the module name is in use.
1.1  ragge  */
1.1  ragge int
1.1  ragge ksyms_addsymtab(char *mod, void *symstart, vsize_t symsize,
1.1  ragge     char *strstart, vsize_t strsize)
1.1  ragge {
1.1  ragge 	Elf_Sym *sym = symstart;
1.1  ragge 	struct symtab *st;
1.1  ragge 	long rval;
1.1  ragge 	int i;
1.1  ragge 	char *str;
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge 	if (ksyms_debug & FOLLOW_CALLS)
1.1  ragge 		printf("ksyms_addsymtab: mod %s symsize %lx strsize %lx\n",
1.1  ragge 		    mod, symsize, strsize);
1.1  ragge #endif
1.1  ragge
1.1  ragge #if NKSYMS
1.1  ragge 	/*
1.1  ragge 	 * Do not try to add a symbol table while someone is reading
1.1  ragge 	 * from /dev/ksyms.
1.1  ragge 	 */
1.1  ragge 	while (ksyms_isopen != 0)
1.1  ragge 		tsleep(&ksyms_isopen, PWAIT, "ksyms", 0);
1.1  ragge #endif
1.1  ragge
1.1  ragge 	/* Check if this symtab already loaded */
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (strcmp(mod, st->sd_name) == 0)
1.1  ragge 			return EEXIST;
1.1  ragge 	}
1.1  ragge
1.1  ragge 	/*
1.1  ragge 	 * XXX - Only add a symbol if it do not exist already.
1.1  ragge 	 * This is because of a flaw in the current LKM implementation,
1.1  ragge 	 * the loop will be removed once the in-kernel linker is in place.
1.1  ragge 	 */
1.1  ragge 	cursyms = curnamep = 0;
1.1  ragge 	for (i = 0; i < symsize/sizeof(Elf_Sym); i++) {
1.1  ragge 		if (sym[i].st_name == 0)
1.1  ragge 			continue; /* Just ignore */
1.1  ragge
1.1  ragge 		/* check validity of the symbol */
1.1  ragge 		/* XXX - save local symbols if DDB */
1.1  ragge 		if (ELF_ST_BIND(sym[i].st_info) != STB_GLOBAL)
1.1  ragge 			continue;
1.1  ragge
1.1  ragge 		/* Check if the symbol exists */
1.1  ragge 		if (ksyms_getval(NULL, strstart + sym[i].st_name,
1.1  ragge 		    &rval, KSYMS_EXTERN) == 0) {
1.1  ragge 			/* Check (and complain) about differing values */
1.1  ragge 			if (sym[i].st_value != rval) {
1.1  ragge 				printf("%s: symbol '%s' redeclared with "
1.1  ragge 				    "different value (%lx != %lx)\n",
1.1  ragge 				    mod, strstart + sym[i].st_name,
1.1  ragge 				    rval, (long)sym[i].st_value);
1.1  ragge 			}
1.1  ragge 		} else
1.1  ragge 			/* Ok, save this symbol */
1.1  ragge 			addsym(&sym[i], strstart + sym[i].st_name);
1.1  ragge 	}
1.5  ragge
1.1  ragge 	sym = malloc(sizeof(Elf_Sym)*cursyms, M_DEVBUF, M_WAITOK);
1.1  ragge 	str = malloc(curnamep, M_DEVBUF, M_WAITOK);
1.1  ragge 	memcpy(sym, savedsyms, sizeof(Elf_Sym)*cursyms);
1.1  ragge 	memcpy(str, symnames, curnamep);
1.1  ragge
1.1  ragge 	st = malloc(sizeof(struct symtab), M_DEVBUF, M_WAITOK);
1.1  ragge 	st->sd_name = malloc(strlen(mod)+1, M_DEVBUF, M_WAITOK);
1.1  ragge 	strcpy(st->sd_name, mod);
1.1  ragge 	st->sd_symnmoff = malloc(sizeof(int)*cursyms, M_DEVBUF, M_WAITOK);
1.1  ragge 	memcpy(st->sd_symnmoff, symnmoff, sizeof(int)*cursyms);
1.1  ragge 	st->sd_symstart = sym;
1.1  ragge 	st->sd_symsize = sizeof(Elf_Sym)*cursyms;
1.1  ragge 	st->sd_strstart = str;
1.1  ragge 	st->sd_strsize = curnamep;
1.1  ragge
1.1  ragge 	/* Make them absolute references */
1.1  ragge 	sym = st->sd_symstart;
1.1  ragge 	for (i = 0; i < st->sd_symsize/sizeof(Elf_Sym); i++)
1.1  ragge 		sym[i].st_shndx = SHN_ABS;
1.1  ragge
1.1  ragge 	CIRCLEQ_INSERT_TAIL(&symtab_queue, st, sd_queue);
1.1  ragge #if NKSYMS
1.1  ragge 	ksyms_sizes_calc();
1.1  ragge #endif
1.1  ragge 	return 0;
1.1  ragge }
1.1  ragge
1.1  ragge /*
1.1  ragge  * Remove a symbol table specified by name.
1.1  ragge  * Returns 0 if success, EBUSY if device open and ENOENT if no such name.
1.1  ragge  */
1.1  ragge int
1.1  ragge ksyms_delsymtab(char *mod)
1.1  ragge {
1.1  ragge 	struct symtab *st;
1.1  ragge 	int found = 0;
1.1  ragge
1.1  ragge #if NKSYMS
1.1  ragge 	/*
1.1  ragge 	 * Do not try to delete a symbol table while someone is reading
1.1  ragge 	 * from /dev/ksyms.
1.1  ragge 	 */
1.1  ragge 	while (ksyms_isopen != 0)
1.1  ragge 		tsleep(&ksyms_isopen, PWAIT, "ksyms", 0);
1.1  ragge #endif
1.1  ragge
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (strcmp(mod, st->sd_name) == 0) {
1.1  ragge 			found = 1;
1.1  ragge 			break;
1.1  ragge 		}
1.1  ragge 	}
1.1  ragge 	if (found == 0)
1.1  ragge 		return ENOENT;
1.1  ragge 	CIRCLEQ_REMOVE(&symtab_queue, st, sd_queue);
1.1  ragge 	free(st->sd_symstart, M_DEVBUF);
1.1  ragge 	free(st->sd_strstart, M_DEVBUF);
1.1  ragge 	free(st->sd_symnmoff, M_DEVBUF);
1.1  ragge 	free(st->sd_name, M_DEVBUF);
1.1  ragge 	free(st, M_DEVBUF);
1.1  ragge #if NKSYMS
1.1  ragge 	ksyms_sizes_calc();
1.1  ragge #endif
1.1  ragge 	return 0;
1.1  ragge }
1.1  ragge
1.1  ragge #ifdef DDB
1.1  ragge
1.1  ragge /*
1.1  ragge  * Keep sifting stuff here, to avoid export of ksyms internals.
1.1  ragge  */
1.1  ragge int
1.1  ragge ksyms_sift(char *mod, char *sym, int mode)
1.1  ragge {
1.1  ragge 	struct symtab *st;
1.1  ragge 	char *sb;
1.1  ragge 	int i, sz;
1.1  ragge
1.1  ragge 	if (ksymsinited == 0)
1.1  ragge 		return ENOENT;
1.1  ragge
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (mod && strcmp(mod, st->sd_name))
1.1  ragge 			continue;
1.1  ragge 		sb = st->sd_strstart;
1.1  ragge
1.1  ragge 		sz = st->sd_symsize/sizeof(Elf_Sym);
1.1  ragge 		for (i = 0; i < sz; i++) {
1.1  ragge 			Elf_Sym *les = st->sd_symstart + i;
1.1  ragge 			char c;
1.1  ragge
1.1  ragge 			if (strstr(sb + les->st_name, sym) == NULL)
1.1  ragge 				continue;
1.1  ragge
1.1  ragge 			if (mode == 'F') {
1.1  ragge 				switch (ELF_ST_TYPE(les->st_info)) {
1.1  ragge 				case STT_OBJECT:
1.1  ragge 					c = '+';
1.1  ragge 					break;
1.1  ragge 				case STT_FUNC:
1.1  ragge 					c = '*';
1.1  ragge 					break;
1.1  ragge 				case STT_SECTION:
1.1  ragge 					c = '&';
1.1  ragge 					break;
1.1  ragge 				case STT_FILE:
1.1  ragge 					c = '/';
1.1  ragge 					break;
1.1  ragge 				default:
1.1  ragge 					c = ' ';
1.1  ragge 					break;
1.1  ragge 				}
1.1  ragge 				db_printf("%s%c ", sb + les->st_name, c);
1.1  ragge 			} else
1.1  ragge 				db_printf("%s ", sb + les->st_name);
1.1  ragge 		}
1.1  ragge 	}
1.1  ragge 	return ENOENT;
1.1  ragge }
1.1  ragge #endif
1.1  ragge
1.1  ragge #if NKSYMS
1.1  ragge
1.1  ragge /*
1.1  ragge  * Static allocated ELF header.
1.1  ragge  * Basic info is filled in at attach, sizes at open.
1.1  ragge  */
1.1  ragge #define	SYMTAB		1
1.1  ragge #define	STRTAB		2
1.1  ragge #define	SHSTRTAB	3
1.1  ragge #define NSECHDR		4
1.1  ragge
1.1  ragge #define	NPRGHDR		2
1.1  ragge #define	SHSTRSIZ	28
1.1  ragge
1.1  ragge static struct ksyms_hdr {
1.1  ragge 	Elf_Ehdr	kh_ehdr;
1.1  ragge 	Elf_Phdr	kh_phdr[NPRGHDR];
1.1  ragge 	Elf_Shdr	kh_shdr[NSECHDR];
1.1  ragge 	char 		kh_strtab[SHSTRSIZ];
1.1  ragge } ksyms_hdr;
1.1  ragge
1.1  ragge
1.1  ragge void
1.1  ragge ksyms_hdr_init(caddr_t hdraddr)
1.1  ragge {
1.1  ragge
1.1  ragge 	/* Copy the loaded elf exec header */
1.1  ragge 	memcpy(&ksyms_hdr.kh_ehdr, hdraddr, sizeof(Elf_Ehdr));
1.1  ragge
1.1  ragge 	/* Set correct program/section header sizes, offsets and numbers */
1.1  ragge 	ksyms_hdr.kh_ehdr.e_phoff = offsetof(struct ksyms_hdr, kh_phdr[0]);
1.1  ragge 	ksyms_hdr.kh_ehdr.e_phentsize = sizeof(Elf_Phdr);
1.1  ragge 	ksyms_hdr.kh_ehdr.e_phnum = NPRGHDR;
1.1  ragge 	ksyms_hdr.kh_ehdr.e_shoff = offsetof(struct ksyms_hdr, kh_shdr[0]);
1.1  ragge 	ksyms_hdr.kh_ehdr.e_shentsize = sizeof(Elf_Shdr);
1.1  ragge 	ksyms_hdr.kh_ehdr.e_shnum = NSECHDR;
1.1  ragge 	ksyms_hdr.kh_ehdr.e_shstrndx = NSECHDR - 1; /* Last section */
1.1  ragge
1.1  ragge 	/*
1.1  ragge 	 * Keep program headers zeroed (unused).
1.1  ragge 	 * The section headers are hand-crafted.
1.1  ragge 	 * First section is section zero.
1.1  ragge 	 */
1.1  ragge
1.1  ragge 	/* Second section header; ".symtab" */
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_name = 1; /* Section 3 offset */
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_type = SHT_SYMTAB;
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_offset = sizeof(struct ksyms_hdr);
1.1  ragge /*	ksyms_hdr.kh_shdr[SYMTAB].sh_size = filled in at open */
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_link = 2; /* Corresponding strtab */
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_info = 0; /* XXX */
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_addralign = sizeof(long);
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_entsize = sizeof(Elf_Sym);
1.1  ragge
1.1  ragge 	/* Third section header; ".strtab" */
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_name = 9; /* Section 3 offset */
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_type = SHT_STRTAB;
1.1  ragge /*	ksyms_hdr.kh_shdr[STRTAB].sh_offset = filled in at open */
1.1  ragge /*	ksyms_hdr.kh_shdr[STRTAB].sh_size = filled in at open */
1.1  ragge /*	ksyms_hdr.kh_shdr[STRTAB].sh_link = kept zero */
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_info = 0;
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_addralign = sizeof(char);
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_entsize = 0;
1.1  ragge
1.1  ragge 	/* Fourth section, ".shstrtab" */
1.1  ragge 	ksyms_hdr.kh_shdr[SHSTRTAB].sh_name = 17; /* This section name offset */
1.1  ragge 	ksyms_hdr.kh_shdr[SHSTRTAB].sh_type = SHT_STRTAB;
1.1  ragge 	ksyms_hdr.kh_shdr[SHSTRTAB].sh_offset =
1.1  ragge 	    offsetof(struct ksyms_hdr, kh_strtab);
1.1  ragge 	ksyms_hdr.kh_shdr[SHSTRTAB].sh_size = SHSTRSIZ;
1.1  ragge 	ksyms_hdr.kh_shdr[SHSTRTAB].sh_addralign = sizeof(char);
1.1  ragge
1.1  ragge 	/* Set section names */
1.1  ragge 	strcpy(&ksyms_hdr.kh_strtab[1], ".symtab");
1.1  ragge 	strcpy(&ksyms_hdr.kh_strtab[9], ".strtab");
1.1  ragge 	strcpy(&ksyms_hdr.kh_strtab[17], ".shstrtab");
1.1  ragge };
1.1  ragge
1.1  ragge int
1.1  ragge ksymsopen(dev_t dev, int oflags, int devtype, struct proc *p)
1.1  ragge {
1.1  ragge
1.1  ragge 	if (minor(dev))
1.1  ragge 		return ENXIO;
1.1  ragge
1.1  ragge 	ksyms_hdr.kh_shdr[SYMTAB].sh_size = symsz;
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_offset = symsz +
1.1  ragge 	    ksyms_hdr.kh_shdr[SYMTAB].sh_offset;
1.1  ragge 	ksyms_hdr.kh_shdr[STRTAB].sh_size = strsz;
1.1  ragge 	ksyms_isopen = 1;
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge 	if (ksyms_debug & FOLLOW_DEVKSYMS)
1.1  ragge 		printf("ksymsopen: symsz 0x%x strsz 0x%x\n", symsz, strsz);
1.1  ragge #endif
1.1  ragge
1.1  ragge 	return 0;
1.1  ragge }
1.1  ragge
1.1  ragge int
1.1  ragge ksymsclose(dev_t dev, int oflags, int devtype, struct proc *p)
1.1  ragge {
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge 	if (ksyms_debug & FOLLOW_DEVKSYMS)
1.1  ragge 		printf("ksymsclose\n");
1.1  ragge #endif
1.1  ragge
1.1  ragge 	ksyms_isopen = 0;
1.1  ragge 	wakeup(&ksyms_isopen);
1.1  ragge 	return 0;
1.1  ragge }
1.1  ragge
1.1  ragge #define	HDRSIZ	sizeof(struct ksyms_hdr)
1.1  ragge
1.1  ragge int
1.1  ragge ksymsread(dev_t dev, struct uio *uio, int ioflag)
1.1  ragge {
1.1  ragge 	struct symtab *st;
1.1  ragge 	size_t filepos, inpos, off;
1.1  ragge
1.1  ragge #ifdef KSYMS_DEBUG
1.1  ragge 	if (ksyms_debug & FOLLOW_DEVKSYMS)
1.1  ragge 		printf("ksymsread: offset 0x%llx resid 0x%lx\n",
1.1  ragge 		    (long long)uio->uio_offset, uio->uio_resid);
1.1  ragge #endif
1.1  ragge 	if (ksymsinited == 0)
1.1  ragge 		return ENXIO;
1.1  ragge
1.1  ragge 	off = uio->uio_offset;
1.1  ragge 	if (off >= (strsz + symsz + HDRSIZ))
1.1  ragge 		return 0; /* End of symtab */
1.1  ragge 	/*
1.1  ragge 	 * First: Copy out the ELF header.
1.1  ragge 	 */
1.1  ragge 	if (off < HDRSIZ)
1.1  ragge 		uiomove((char *)&ksyms_hdr + off, HDRSIZ - off, uio);
1.1  ragge
1.1  ragge 	/*
1.1  ragge 	 * Copy out the symbol table.
1.1  ragge 	 */
1.1  ragge 	filepos = HDRSIZ;
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (uio->uio_resid == 0)
1.1  ragge 			return 0;
1.1  ragge 		if (uio->uio_offset <= st->sd_symsize + filepos) {
1.1  ragge 			inpos = uio->uio_offset - filepos;
1.1  ragge 			uiomove((char *)st->sd_symstart + inpos,
1.1  ragge 			   st->sd_symsize - inpos, uio);
1.1  ragge 		}
1.1  ragge 		filepos += st->sd_symsize;
1.1  ragge 	}
1.1  ragge
1.1  ragge 	if (filepos != HDRSIZ + symsz)
1.1  ragge 		panic("ksymsread: unsunc");
1.1  ragge
1.1  ragge 	/*
1.1  ragge 	 * Copy out the string table
1.1  ragge 	 */
1.1  ragge 	CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.1  ragge 		if (uio->uio_resid == 0)
1.1  ragge 			return 0;
1.1  ragge 		if (uio->uio_offset <= st->sd_strsize + filepos) {
1.1  ragge 			inpos = uio->uio_offset - filepos;
1.1  ragge 			uiomove((char *)st->sd_strstart + inpos,
1.1  ragge 			   st->sd_strsize - inpos, uio);
1.1  ragge 		}
1.1  ragge 		filepos += st->sd_strsize;
1.1  ragge 	}
1.1  ragge 	return 0;
1.1  ragge }
1.1  ragge
1.1  ragge int
1.1  ragge ksymswrite(dev_t dev, struct uio *uio, int ioflag)
1.1  ragge {
1.1  ragge 	return EROFS;
1.1  ragge }
1.1  ragge
1.1  ragge int
1.1  ragge ksymsioctl(dev_t dev, u_long cmd, caddr_t data, int fflag, struct proc *p)
1.1  ragge {
1.1  ragge 	struct ksyms_gsymbol *kg = (struct ksyms_gsymbol *)data;
1.1  ragge 	struct symtab *st;
1.1  ragge 	Elf_Sym *sym;
1.1  ragge 	unsigned long val;
1.1  ragge 	int error = 0;
1.5  ragge 	char *str;
1.5  ragge
1.5  ragge 	if (cmd == KIOCGVALUE || cmd == KIOCGSYMBOL)
1.5  ragge 		str = malloc(ksyms_maxlen, M_DEVBUF, M_WAITOK);
1.1  ragge
1.1  ragge 	switch (cmd) {
1.1  ragge 	case KIOCGVALUE:
1.1  ragge 		/*
1.1  ragge 		 * Use the in-kernel symbol lookup code for fast
1.1  ragge 		 * retreival of a value.
1.1  ragge 		 */
1.5  ragge 		if ((error = copyinstr(kg->kg_name, str, ksyms_maxlen, NULL)))
1.1  ragge 			break;
1.5  ragge 		if ((error = ksyms_getval(NULL, str, &val, KSYMS_EXTERN)))
1.1  ragge 			break;
1.1  ragge 		error = copyout(&val, kg->kg_value, sizeof(long));
1.1  ragge 		break;
1.1  ragge
1.1  ragge 	case KIOCGSYMBOL:
1.1  ragge 		/*
1.1  ragge 		 * Use the in-kernel symbol lookup code for fast
1.1  ragge 		 * retreival of a symbol.
1.1  ragge 		 */
1.5  ragge 		if ((error = copyinstr(kg->kg_name, str, ksyms_maxlen, NULL)))
1.1  ragge 			break;
1.1  ragge 		CIRCLEQ_FOREACH(st, &symtab_queue, sd_queue) {
1.5  ragge 			if ((sym = findsym(str, st)) == NULL)
1.1  ragge 				continue;
1.1  ragge
1.1  ragge 			/* Skip if bad binding */
1.1  ragge 			if (ELF_ST_BIND(sym->st_info) != STB_GLOBAL) {
1.1  ragge 				sym = NULL;
1.1  ragge 				continue;
1.1  ragge 			}
1.1  ragge 			break;
1.1  ragge 		}
1.1  ragge 		if (sym != NULL)
1.1  ragge 			error = copyout(sym, kg->kg_sym, sizeof(Elf_Sym));
1.1  ragge 		else
1.1  ragge 			error = ENOENT;
1.1  ragge 		break;
1.1  ragge
1.1  ragge 	case KIOCGSIZE:
1.1  ragge 		/*
1.1  ragge 		 * Get total size of symbol table.
1.1  ragge 		 */
1.1  ragge 		*(int *)data = strsz + symsz + HDRSIZ;
1.1  ragge 		break;
1.1  ragge
1.1  ragge 	default:
1.1  ragge 		error = ENOTTY;
1.1  ragge 		break;
1.1  ragge 	}
1.5  ragge
1.5  ragge 	if (cmd == KIOCGVALUE || cmd == KIOCGSYMBOL)
1.5  ragge 		free(str, M_DEVBUF);
1.5  ragge
1.5  ragge 	return error;
1.1  ragge }
1.1  ragge #endif