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gck-rpc-message.c
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gck-rpc-message.c
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/* -*- Mode: C; indent-tabs-mode: t; c-basic-offset: 8; tab-width: 8 -*- */
/* p11-rpc-message.c - our marshalled PKCS#11 protocol.
Copyright (C) 2008, Stef Walter
The Gnome Keyring Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
The Gnome Keyring Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with the Gnome Library; see the file COPYING.LIB. If not,
write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.
Author: Stef Walter <[email protected]>
*/
#include "config.h"
#include "gck-rpc-layer.h"
#include "gck-rpc-private.h"
#include <string.h>
#ifdef G_DISABLE_ASSERT
#define assert(x)
#else
#include <assert.h>
#endif
GckRpcMessage *gck_rpc_message_new(EggBufferAllocator allocator)
{
GckRpcMessage *msg;
assert(allocator);
msg = (GckRpcMessage *) (allocator) (NULL, sizeof(GckRpcMessage));
if (!msg)
return NULL;
memset(msg, 0, sizeof(*msg));
if (!egg_buffer_init_full(&msg->buffer, 64, allocator)) {
(allocator) (msg, 0); /* Frees allocation */
return NULL;
}
gck_rpc_message_reset(msg);
return msg;
}
void gck_rpc_message_free(GckRpcMessage * msg)
{
EggBufferAllocator allocator;
if (msg) {
assert(msg->buffer.allocator);
allocator = msg->buffer.allocator;
egg_buffer_uninit(&msg->buffer);
/* frees data buffer */
(allocator) (msg, 0);
}
}
void gck_rpc_message_reset(GckRpcMessage * msg)
{
assert(msg);
msg->call_id = 0;
msg->call_type = 0;
msg->signature = NULL;
msg->sigverify = NULL;
msg->parsed = 0;
egg_buffer_reset(&msg->buffer);
}
int
gck_rpc_message_prep(GckRpcMessage * msg, int call_id, GckRpcMessageType type)
{
int len;
assert(type);
assert(call_id >= GCK_RPC_CALL_ERROR);
assert(call_id < GCK_RPC_CALL_MAX);
gck_rpc_message_reset(msg);
if (call_id != GCK_RPC_CALL_ERROR) {
/* The call id and signature */
if (type == GCK_RPC_REQUEST)
msg->signature = gck_rpc_calls[call_id].request;
else if (type == GCK_RPC_RESPONSE)
msg->signature = gck_rpc_calls[call_id].response;
else
assert(0 && "invalid message type");
assert(msg->signature);
msg->sigverify = msg->signature;
}
msg->call_id = call_id;
msg->call_type = type;
/* Encode the two of them */
egg_buffer_add_uint32(&msg->buffer, call_id);
if (msg->signature) {
len = strlen(msg->signature);
egg_buffer_add_byte_array(&msg->buffer,
(unsigned char *)msg->signature, len);
}
msg->parsed = 0;
return !egg_buffer_has_error(&msg->buffer);
}
int gck_rpc_message_parse(GckRpcMessage * msg, GckRpcMessageType type)
{
const unsigned char *val;
size_t len;
uint32_t call_id;
msg->parsed = 0;
/* Pull out the call identifier */
if (!egg_buffer_get_uint32
(&msg->buffer, msg->parsed, &(msg->parsed), &call_id)) {
gck_rpc_warn("invalid message: couldn't read call identifier");
return 0;
}
msg->signature = msg->sigverify = NULL;
/* If it's an error code then no more processing */
if (call_id == GCK_RPC_CALL_ERROR) {
if (type == GCK_RPC_REQUEST) {
gck_rpc_warn("invalid message: error code in request");
return 0;
}
return 1;
}
/* The call id and signature */
if (call_id <= 0 || call_id >= GCK_RPC_CALL_MAX) {
gck_rpc_warn("invalid message: bad call id: %d", call_id);
return 0;
}
if (type == GCK_RPC_REQUEST)
msg->signature = gck_rpc_calls[call_id].request;
else if (type == GCK_RPC_RESPONSE)
msg->signature = gck_rpc_calls[call_id].response;
else
assert(0 && "invalid message type");
msg->call_id = call_id;
msg->call_type = type;
msg->sigverify = msg->signature;
/* Verify the incoming signature */
if (!egg_buffer_get_byte_array
(&msg->buffer, msg->parsed, &(msg->parsed), &val, &len)) {
gck_rpc_warn("invalid message: couldn't read signature");
return 0;
}
if ((strlen(msg->signature) != len)
|| (memcmp(val, msg->signature, len) != 0)) {
gck_rpc_warn("invalid message: signature doesn't match");
return 0;
}
return 1;
}
int gck_rpc_message_equals(GckRpcMessage * m1, GckRpcMessage * m2)
{
assert(m1 && m2);
/* Any errors and messages are never equal */
if (egg_buffer_has_error(&m1->buffer) ||
egg_buffer_has_error(&m2->buffer))
return 0;
/* Calls and signatures must be identical */
if (m1->call_id != m2->call_id)
return 0;
if (m1->call_type != m2->call_type)
return 0;
if (m1->signature && m2->signature) {
if (strcmp(m1->signature, m2->signature) != 0)
return 0;
} else if (m1->signature != m2->signature) {
return 0;
}
/* Data in buffer must be identical */
return egg_buffer_equal(&m1->buffer, &m2->buffer);
}
int gck_rpc_message_verify_part(GckRpcMessage * msg, const char *part)
{
int len, ok;
if (!msg->sigverify)
return 1;
len = strlen(part);
ok = (strncmp(msg->sigverify, part, len) == 0);
if (ok)
msg->sigverify += len;
return ok;
}
int
gck_rpc_message_write_attribute_buffer(GckRpcMessage * msg,
CK_ATTRIBUTE_PTR arr, CK_ULONG num)
{
CK_ATTRIBUTE_PTR attr;
CK_ULONG i;
assert(!num || arr);
assert(msg);
/* Make sure this is in the rigth order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "fA"));
/* Write the number of items */
egg_buffer_add_uint32(&msg->buffer, num);
for (i = 0; i < num; ++i) {
attr = &(arr[i]);
/* The attribute type */
egg_buffer_add_uint32(&msg->buffer, attr->type);
/* And the attribute buffer length */
egg_buffer_add_uint32(&msg->buffer,
attr->pValue ? attr->ulValueLen : 0);
}
return !egg_buffer_has_error(&msg->buffer);
}
int
gck_rpc_message_write_attribute_array(GckRpcMessage * msg,
CK_ATTRIBUTE_PTR arr, CK_ULONG num)
{
CK_ULONG i;
CK_ATTRIBUTE_PTR attr;
unsigned char validity;
assert(!num || arr);
assert(msg);
/* Make sure this is in the rigth order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "aA"));
/* Write the number of items */
egg_buffer_add_uint32(&msg->buffer, num);
for (i = 0; i < num; ++i) {
attr = &(arr[i]);
/* The attribute type */
egg_buffer_add_uint32(&msg->buffer, attr->type);
/* Write out the attribute validity */
validity = (((CK_LONG) attr->ulValueLen) == -1) ? 0 : 1;
egg_buffer_add_byte(&msg->buffer, validity);
/* The attribute length and value */
if (validity) {
egg_buffer_add_uint32(&msg->buffer, attr->ulValueLen);
if (gck_rpc_has_bad_sized_ulong_parameter(attr)) {
uint64_t val = *(CK_ULONG *)attr->pValue;
egg_buffer_add_byte_array (&msg->buffer, (unsigned char *)&val, sizeof (val));
} else
egg_buffer_add_byte_array(&msg->buffer, attr->pValue,
attr->ulValueLen);
}
}
return !egg_buffer_has_error(&msg->buffer);
}
int gck_rpc_message_read_byte(GckRpcMessage * msg, CK_BYTE * val)
{
assert(msg);
/* Make sure this is in the right order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "y"));
return egg_buffer_get_byte(&msg->buffer, msg->parsed, &msg->parsed,
val);
}
int gck_rpc_message_write_byte(GckRpcMessage * msg, CK_BYTE val)
{
assert(msg);
/* Make sure this is in the right order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "y"));
return egg_buffer_add_byte(&msg->buffer, val);
}
int gck_rpc_message_read_ulong(GckRpcMessage * msg, CK_ULONG * val)
{
uint64_t v;
assert(msg);
/* Make sure this is in the right order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "u"));
if (!egg_buffer_get_uint64(&msg->buffer, msg->parsed, &msg->parsed, &v))
return 0;
if (val)
*val = (CK_ULONG) v;
return 1;
}
int gck_rpc_message_write_ulong(GckRpcMessage * msg, CK_ULONG val)
{
assert(msg);
/* Make sure this is in the rigth order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "u"));
return egg_buffer_add_uint64(&msg->buffer, val);
}
int gck_rpc_message_write_byte_buffer(GckRpcMessage * msg, CK_ULONG count)
{
assert(msg);
/* Make sure this is in the right order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "fy"));
return egg_buffer_add_uint32(&msg->buffer, count);
}
int
gck_rpc_message_write_byte_array(GckRpcMessage * msg, CK_BYTE_PTR arr,
CK_ULONG num)
{
assert(msg);
/* Make sure this is in the right order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "ay"));
/* No array, no data, just length */
if (!arr) {
egg_buffer_add_byte(&msg->buffer, 0);
egg_buffer_add_uint32(&msg->buffer, num);
} else {
egg_buffer_add_byte(&msg->buffer, 1);
egg_buffer_add_byte_array(&msg->buffer, arr, num);
}
return !egg_buffer_has_error(&msg->buffer);
}
int gck_rpc_message_write_ulong_buffer(GckRpcMessage * msg, CK_ULONG count)
{
assert(msg);
/* Make sure this is in the right order */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "fu"));
return egg_buffer_add_uint32(&msg->buffer, count);
}
int
gck_rpc_message_write_ulong_array(GckRpcMessage * msg, CK_ULONG_PTR array,
CK_ULONG n_array)
{
CK_ULONG i;
assert(msg);
/* Check that we're supposed to have this at this point */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "au"));
/* We send a byte which determines whether there's actual data present or not */
egg_buffer_add_byte(&msg->buffer, array ? 1 : 0);
egg_buffer_add_uint32(&msg->buffer, n_array);
/* Now send the data if valid */
if (array) {
for (i = 0; i < n_array; ++i)
egg_buffer_add_uint64(&msg->buffer, array[i]);
}
return !egg_buffer_has_error(&msg->buffer);
}
int gck_rpc_message_read_version(GckRpcMessage * msg, CK_VERSION * version)
{
assert(msg);
assert(version);
/* Check that we're supposed to have this at this point */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "v"));
return egg_buffer_get_byte(&msg->buffer, msg->parsed, &msg->parsed,
&version->major)
&& egg_buffer_get_byte(&msg->buffer, msg->parsed, &msg->parsed,
&version->minor);
}
int gck_rpc_message_write_version(GckRpcMessage * msg, CK_VERSION * version)
{
assert(msg);
assert(version);
/* Check that we're supposed to have this at this point */
assert(!msg->signature || gck_rpc_message_verify_part(msg, "v"));
egg_buffer_add_byte(&msg->buffer, version->major);
egg_buffer_add_byte(&msg->buffer, version->minor);
return !egg_buffer_has_error(&msg->buffer);
}
int
gck_rpc_message_read_space_string(GckRpcMessage * msg, CK_UTF8CHAR * buffer,
CK_ULONG length)
{
const unsigned char *data;
size_t n_data;
assert(msg);
assert(buffer);
assert(length);
assert(!msg->signature || gck_rpc_message_verify_part(msg, "s"));
if (!egg_buffer_get_byte_array
(&msg->buffer, msg->parsed, &msg->parsed, &data, &n_data))
return 0;
if (n_data != length) {
gck_rpc_warn
("invalid length space padded string received: %d != %d",
length, n_data);
return 0;
}
memcpy(buffer, data, length);
return 1;
}
int
gck_rpc_message_write_space_string(GckRpcMessage * msg, CK_UTF8CHAR * buffer,
CK_ULONG length)
{
assert(msg);
assert(buffer);
assert(length);
assert(!msg->signature || gck_rpc_message_verify_part(msg, "s"));
return egg_buffer_add_byte_array(&msg->buffer, buffer, length);
}
int gck_rpc_message_write_zero_string(GckRpcMessage * msg, CK_UTF8CHAR * string)
{
assert(msg);
assert(string);
assert(!msg->signature || gck_rpc_message_verify_part(msg, "z"));
return egg_buffer_add_string(&msg->buffer, (const char *)string);
}