390 lines
11 KiB
C
390 lines
11 KiB
C
/* The kernel call implemented in this file:
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* m_type: SYS_SAFECOPYFROM or SYS_SAFECOPYTO or SYS_VSAFECOPY
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*
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* The parameters for this kernel call are:
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* m_lsys_kern_safecopy.from_to other endpoint
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* m_lsys_kern_safecopy.gid grant id
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* m_lsys_kern_safecopy.offset offset within granted space
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* m_lsys_kern_safecopy.address address in own address space
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* m_lsys_kern_safecopy.bytes bytes to be copied
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*
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* For the vectored variant (do_vsafecopy):
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* m_lsys_kern_vsafecopy.vec_addr address of vector
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* m_lsys_kern_vsafecopy.vec_size number of significant elements in vector
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*/
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#include <assert.h>
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#include "kernel/system.h"
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#include "kernel/kernel.h"
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#include "kernel/vm.h"
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#define MAX_INDIRECT_DEPTH 5 /* up to how many indirect grants to follow? */
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#define MEM_TOP 0xFFFFFFFFUL
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static int safecopy(struct proc *, endpoint_t, endpoint_t,
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cp_grant_id_t, size_t, vir_bytes, vir_bytes, int);
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#define HASGRANTTABLE(gr) \
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(priv(gr) && priv(gr)->s_grant_table)
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/*===========================================================================*
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* verify_grant *
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*===========================================================================*/
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int verify_grant(granter, grantee, grant, bytes, access,
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offset_in, offset_result, e_granter, flags)
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endpoint_t granter, grantee; /* copyee, copyer */
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cp_grant_id_t grant; /* grant id */
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vir_bytes bytes; /* copy size */
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int access; /* direction (read/write) */
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vir_bytes offset_in; /* copy offset within grant */
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vir_bytes *offset_result; /* copy offset within virtual address space */
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endpoint_t *e_granter; /* new granter (magic grants) */
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u32_t *flags; /* CPF_* */
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{
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static cp_grant_t g;
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static int proc_nr;
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static const struct proc *granter_proc;
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int depth = 0;
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do {
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/* Get granter process slot (if valid), and check range of
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* grant id.
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*/
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if(!isokendpt(granter, &proc_nr) ) {
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printf(
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"grant verify failed: invalid granter %d\n", (int) granter);
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return(EINVAL);
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}
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if(!GRANT_VALID(grant)) {
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printf(
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"grant verify failed: invalid grant %d\n", (int) grant);
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return(EINVAL);
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}
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granter_proc = proc_addr(proc_nr);
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/* If there is no priv. structure, or no grant table in the
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* priv. structure, or the grant table in the priv. structure
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* is too small for the grant, return EPERM.
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*/
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if(!HASGRANTTABLE(granter_proc)) {
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printf(
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"grant verify failed: granter %d has no grant table\n",
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granter);
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return(EPERM);
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}
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if(priv(granter_proc)->s_grant_entries <= grant) {
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printf(
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"verify_grant: grant verify failed in ep %d "
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"proc %d: grant %d out of range "
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"for table size %d\n",
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granter, proc_nr, grant,
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priv(granter_proc)->s_grant_entries);
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return(EPERM);
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}
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/* Copy the grant entry corresponding to this id to see what it
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* looks like. If it fails, hide the fact that granter has
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* (presumably) set an invalid grant table entry by returning
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* EPERM, just like with an invalid grant id.
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*/
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if(data_copy(granter,
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priv(granter_proc)->s_grant_table + sizeof(g)*grant,
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KERNEL, (vir_bytes) &g, sizeof(g)) != OK) {
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printf(
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"verify_grant: grant verify: data_copy failed\n");
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return EPERM;
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}
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if(flags) *flags = g.cp_flags;
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/* Check validity. */
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if((g.cp_flags & (CPF_USED | CPF_VALID)) !=
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(CPF_USED | CPF_VALID)) {
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printf(
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"verify_grant: grant failed: invalid (%d flags 0x%lx)\n",
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grant, g.cp_flags);
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return EPERM;
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}
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/* The given grant may be an indirect grant, that is, a grant
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* that provides permission to use a grant given to the
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* granter (i.e., for which it is the grantee). This can lead
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* to a chain of indirect grants which must be followed back.
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*/
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if((g.cp_flags & CPF_INDIRECT)) {
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/* Stop after a few iterations. There may be a loop. */
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if (depth == MAX_INDIRECT_DEPTH) {
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printf(
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"verify grant: indirect grant verify "
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"failed: exceeded maximum depth\n");
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return ELOOP;
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}
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depth++;
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/* Verify actual grantee. */
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if(g.cp_u.cp_indirect.cp_who_to != grantee &&
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grantee != ANY &&
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g.cp_u.cp_indirect.cp_who_to != ANY) {
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printf(
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"verify_grant: indirect grant verify "
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"failed: bad grantee\n");
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return EPERM;
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}
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/* Start over with new granter, grant, and grantee. */
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grantee = granter;
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granter = g.cp_u.cp_indirect.cp_who_from;
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grant = g.cp_u.cp_indirect.cp_grant;
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}
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} while(g.cp_flags & CPF_INDIRECT);
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/* Check access of grant. */
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if(((g.cp_flags & access) != access)) {
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printf(
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"verify_grant: grant verify failed: access invalid; want 0x%x, have 0x%x\n",
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access, g.cp_flags);
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return EPERM;
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}
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if((g.cp_flags & CPF_DIRECT)) {
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/* Don't fiddle around with grants that wrap, arithmetic
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* below may be confused.
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*/
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if(MEM_TOP - g.cp_u.cp_direct.cp_len + 1 <
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g.cp_u.cp_direct.cp_start) {
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printf(
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"verify_grant: direct grant verify failed: len too long\n");
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return EPERM;
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}
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/* Verify actual grantee. */
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if(g.cp_u.cp_direct.cp_who_to != grantee && grantee != ANY
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&& g.cp_u.cp_direct.cp_who_to != ANY) {
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printf(
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"verify_grant: direct grant verify failed: bad grantee\n");
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return EPERM;
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}
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/* Verify actual copy range. */
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if((offset_in+bytes < offset_in) ||
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offset_in+bytes > g.cp_u.cp_direct.cp_len) {
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printf(
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"verify_grant: direct grant verify failed: bad size or range. "
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"granted %d bytes @ 0x%lx; wanted %d bytes @ 0x%lx\n",
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g.cp_u.cp_direct.cp_len,
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g.cp_u.cp_direct.cp_start,
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bytes, offset_in);
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return EPERM;
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}
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/* Verify successful - tell caller what address it is. */
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*offset_result = g.cp_u.cp_direct.cp_start + offset_in;
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*e_granter = granter;
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} else if(g.cp_flags & CPF_MAGIC) {
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/* Currently, it is hardcoded that only FS may do
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* magic grants.
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*/
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if(granter != VFS_PROC_NR) {
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printf(
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"verify_grant: magic grant verify failed: granter (%d) "
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"is not FS (%d)\n", granter, VFS_PROC_NR);
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return EPERM;
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}
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/* Verify actual grantee. */
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if(g.cp_u.cp_magic.cp_who_to != grantee && grantee != ANY
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&& g.cp_u.cp_direct.cp_who_to != ANY) {
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printf(
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"verify_grant: magic grant verify failed: bad grantee\n");
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return EPERM;
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}
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/* Verify actual copy range. */
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if((offset_in+bytes < offset_in) ||
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offset_in+bytes > g.cp_u.cp_magic.cp_len) {
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printf(
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"verify_grant: magic grant verify failed: bad size or range. "
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"granted %d bytes @ 0x%lx; wanted %d bytes @ 0x%lx\n",
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g.cp_u.cp_magic.cp_len,
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g.cp_u.cp_magic.cp_start,
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bytes, offset_in);
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return EPERM;
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}
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/* Verify successful - tell caller what address it is. */
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*offset_result = g.cp_u.cp_magic.cp_start + offset_in;
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*e_granter = g.cp_u.cp_magic.cp_who_from;
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} else {
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printf(
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"verify_grant: grant verify failed: unknown grant type\n");
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return EPERM;
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}
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return OK;
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}
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/*===========================================================================*
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* safecopy *
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*===========================================================================*/
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static int safecopy(caller, granter, grantee, grantid, bytes,
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g_offset, addr, access)
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struct proc * caller;
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endpoint_t granter, grantee;
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cp_grant_id_t grantid;
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size_t bytes;
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vir_bytes g_offset, addr;
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int access; /* CPF_READ for a copy from granter to grantee, CPF_WRITE
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* for a copy from grantee to granter.
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*/
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{
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static struct vir_addr v_src, v_dst;
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static vir_bytes v_offset;
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endpoint_t new_granter, *src, *dst;
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struct proc *granter_p;
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int r;
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u32_t flags;
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#if PERF_USE_COW_SAFECOPY
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vir_bytes size;
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#endif
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if(granter == NONE || grantee == NONE) {
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printf("safecopy: nonsense processes\n");
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return EFAULT;
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}
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/* See if there is a reasonable grant table. */
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if(!(granter_p = endpoint_lookup(granter))) return EINVAL;
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if(!HASGRANTTABLE(granter_p)) {
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printf(
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"safecopy failed: granter %d has no grant table\n", granter);
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return(EPERM);
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}
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/* Decide who is src and who is dst. */
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if(access & CPF_READ) {
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src = &granter;
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dst = &grantee;
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} else {
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src = &grantee;
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dst = &granter;
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}
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/* Verify permission exists. */
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if((r=verify_grant(granter, grantee, grantid, bytes, access,
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g_offset, &v_offset, &new_granter, &flags)) != OK) {
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printf(
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"grant %d verify to copy %d->%d by %d failed: err %d\n",
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grantid, *src, *dst, grantee, r);
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return r;
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}
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/* verify_grant() can redirect the grantee to someone else,
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* meaning the source or destination changes.
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*/
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granter = new_granter;
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/* Now it's a regular copy. */
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v_src.proc_nr_e = *src;
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v_dst.proc_nr_e = *dst;
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/* Now the offset in virtual addressing is known in 'offset'.
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* Depending on the access, this is the source or destination
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* address.
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*/
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if(access & CPF_READ) {
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v_src.offset = v_offset;
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v_dst.offset = (vir_bytes) addr;
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} else {
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v_src.offset = (vir_bytes) addr;
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v_dst.offset = v_offset;
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}
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/* Do the regular copy. */
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if(flags & CPF_TRY) {
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int r;
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/* Try copy without transparently faulting in pages. */
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r = virtual_copy(&v_src, &v_dst, bytes);
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if(r == EFAULT_SRC || r == EFAULT_DST) return EFAULT;
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return r;
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}
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return virtual_copy_vmcheck(caller, &v_src, &v_dst, bytes);
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}
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/*===========================================================================*
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* do_safecopy_to *
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*===========================================================================*/
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int do_safecopy_to(struct proc * caller, message * m_ptr)
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{
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return safecopy(caller, m_ptr->m_lsys_kern_safecopy.from_to, caller->p_endpoint,
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(cp_grant_id_t) m_ptr->m_lsys_kern_safecopy.gid,
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m_ptr->m_lsys_kern_safecopy.bytes, m_ptr->m_lsys_kern_safecopy.offset,
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(vir_bytes) m_ptr->m_lsys_kern_safecopy.address, CPF_WRITE);
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}
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/*===========================================================================*
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* do_safecopy_from *
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*===========================================================================*/
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int do_safecopy_from(struct proc * caller, message * m_ptr)
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{
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return safecopy(caller, m_ptr->m_lsys_kern_safecopy.from_to, caller->p_endpoint,
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(cp_grant_id_t) m_ptr->m_lsys_kern_safecopy.gid,
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m_ptr->m_lsys_kern_safecopy.bytes, m_ptr->m_lsys_kern_safecopy.offset,
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(vir_bytes) m_ptr->m_lsys_kern_safecopy.address, CPF_READ);
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}
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/*===========================================================================*
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* do_vsafecopy *
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*===========================================================================*/
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int do_vsafecopy(struct proc * caller, message * m_ptr)
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{
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static struct vscp_vec vec[SCPVEC_NR];
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static struct vir_addr src, dst;
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int r, i, els;
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size_t bytes;
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/* Set vector copy parameters. */
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src.proc_nr_e = caller->p_endpoint;
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assert(src.proc_nr_e != NONE);
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src.offset = (vir_bytes) m_ptr->m_lsys_kern_vsafecopy.vec_addr;
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dst.proc_nr_e = KERNEL;
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dst.offset = (vir_bytes) vec;
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/* No. of vector elements. */
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els = m_ptr->m_lsys_kern_vsafecopy.vec_size;
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bytes = els * sizeof(struct vscp_vec);
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/* Obtain vector of copies. */
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if((r=virtual_copy_vmcheck(caller, &src, &dst, bytes)) != OK)
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return r;
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/* Perform safecopies. */
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for(i = 0; i < els; i++) {
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int access;
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endpoint_t granter;
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if(vec[i].v_from == SELF) {
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access = CPF_WRITE;
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granter = vec[i].v_to;
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} else if(vec[i].v_to == SELF) {
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access = CPF_READ;
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granter = vec[i].v_from;
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} else {
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printf("vsafecopy: %d: element %d/%d: no SELF found\n",
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caller->p_endpoint, i, els);
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return EINVAL;
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}
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/* Do safecopy for this element. */
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if((r=safecopy(caller, granter, caller->p_endpoint,
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vec[i].v_gid,
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vec[i].v_bytes, vec[i].v_offset,
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vec[i].v_addr, access)) != OK) {
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return r;
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}
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}
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return OK;
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}
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