/* -*- Mode: C; c-basic-offset: 4; indent-tabs-mode: nil -*- */
/*
Copyright (C) 2010 Red Hat, Inc.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see .
*/
#include "config.h"
#include "marshaller.h"
#include "mem.h"
#include
#include
#include
#ifdef WORDS_BIGENDIAN
#define write_int8(ptr,v) (*((int8_t *)(ptr)) = v)
#define write_uint8(ptr,v) (*((uint8_t *)(ptr)) = v)
#define write_int16(ptr,v) (*((int16_t)(ptr)) = SPICE_BYTESWAP16((uint16_t)(v)))
#define write_uint16(ptr,v) (*((uint16_t)(ptr)) = SPICE_BYTESWAP16((uint16_t)(v)))
#define write_int32(ptr,v) (*((int32_t)(ptr)) = SPICE_BYTESWAP32((uint32_t)(v)))
#define write_uint32(ptr,v) (*((uint32_t)(ptr)) = SPICE_BYTESWAP32((uint32_t)(v)))
#define write_int64(ptr,v) (*((int64_t)(ptr)) = SPICE_BYTESWAP64((uint63_t)(v)))
#define write_uint64(ptr,v) (*((uint64_t)(ptr)) = SPICE_BYTESWAP64((uint63_t)(v)))
#else
#define write_int8(ptr,v) (*((int8_t *)(ptr)) = v)
#define write_uint8(ptr,v) (*((uint8_t *)(ptr)) = v)
#define write_int16(ptr,v) (*((int16_t *)(ptr)) = v)
#define write_uint16(ptr,v) (*((uint16_t *)(ptr)) = v)
#define write_int32(ptr,v) (*((int32_t *)(ptr)) = v)
#define write_uint32(ptr,v) (*((uint32_t *)(ptr)) = v)
#define write_int64(ptr,v) (*((int64_t *)(ptr)) = v)
#define write_uint64(ptr,v) (*((uint64_t *)(ptr)) = v)
#endif
typedef struct {
uint8_t *data;
size_t len;
spice_marshaller_item_free_func free_data;
void *opaque;
} MarshallerItem;
/* Try to fit in 4k page with 2*pointer-size overhead (next ptr and malloc size) */
#define MARSHALLER_BUFFER_SIZE (4096 - sizeof(void *) * 2)
typedef struct MarshallerBuffer MarshallerBuffer;
struct MarshallerBuffer {
MarshallerBuffer *next;
uint8_t data[MARSHALLER_BUFFER_SIZE];
};
#define N_STATIC_ITEMS 4
typedef struct SpiceMarshallerData SpiceMarshallerData;
typedef struct {
SpiceMarshaller *marshaller;
int item_nr;
int is_64bit;
size_t offset;
} MarshallerRef;
struct SpiceMarshaller {
size_t total_size;
SpiceMarshallerData *data;
SpiceMarshaller *next;
MarshallerRef pointer_ref;
int n_items;
int items_size; /* number of items availible in items */
MarshallerItem *items;
MarshallerItem static_items[N_STATIC_ITEMS];
};
struct SpiceMarshallerData {
size_t total_size;
size_t base;
SpiceMarshaller *marshallers;
SpiceMarshaller *last_marshaller;
size_t current_buffer_position;
MarshallerBuffer *current_buffer;
MarshallerItem *current_buffer_item;
MarshallerBuffer *buffers;
SpiceMarshaller static_marshaller;
MarshallerBuffer static_buffer;
};
static void spice_marshaller_init(SpiceMarshaller *m,
SpiceMarshallerData *data)
{
m->data = data;
m->next = NULL;
m->total_size = 0;
m->pointer_ref.marshaller = NULL;
m->n_items = 0;
m->items_size = N_STATIC_ITEMS;
m->items = m->static_items;
}
SpiceMarshaller *spice_marshaller_new(void)
{
SpiceMarshallerData *d;
SpiceMarshaller *m;
d = spice_new(SpiceMarshallerData, 1);
d->last_marshaller = d->marshallers = &d->static_marshaller;
d->total_size = 0;
d->base = 0;
d->buffers = &d->static_buffer;
d->buffers->next = NULL;
d->current_buffer = d->buffers;
d->current_buffer_position = 0;
d->current_buffer_item = NULL;
m = &d->static_marshaller;
spice_marshaller_init(m, d);
return m;
}
static void free_item_data(SpiceMarshaller *m)
{
MarshallerItem *item;
int i;
/* Free all user data */
for (i = 0; i < m->n_items; i++) {
item = &m->items[i];
if (item->free_data != NULL) {
item->free_data(item->data, item->opaque);
}
}
}
static void free_items(SpiceMarshaller *m)
{
if (m->items != m->static_items) {
free(m->items);
}
}
void spice_marshaller_reset(SpiceMarshaller *m)
{
SpiceMarshaller *m2, *next;
SpiceMarshallerData *d;
/* Only supported for root marshaller */
assert(m->data->marshallers == m);
for (m2 = m; m2 != NULL; m2 = next) {
next = m2->next;
free_item_data(m2);
/* Free non-root marshallers */
if (m2 != m) {
free_items(m2);
free(m2);
}
}
m->next = NULL;
m->n_items = 0;
m->total_size = 0;
d = m->data;
d->last_marshaller = d->marshallers;
d->total_size = 0;
d->base = 0;
d->current_buffer_item = NULL;
d->current_buffer = d->buffers;
d->current_buffer_position = 0;
}
void spice_marshaller_destroy(SpiceMarshaller *m)
{
MarshallerBuffer *buf, *next;
SpiceMarshallerData *d;
/* Only supported for root marshaller */
assert(m->data->marshallers == m);
spice_marshaller_reset(m);
free_items(m);
d = m->data;
buf = d->buffers->next;
while (buf != NULL) {
next = buf->next;
free(buf);
buf = next;
}
free(d);
}
static MarshallerItem *spice_marshaller_add_item(SpiceMarshaller *m)
{
MarshallerItem *item;
if (m->n_items == m->items_size) {
int items_size = m->items_size * 2;
if (m->items == m->static_items) {
m->items = spice_new(MarshallerItem, items_size);
memcpy(m->items, m->static_items, sizeof(MarshallerItem) * m->n_items);
} else {
m->items = spice_renew(MarshallerItem, m->items, items_size);
}
m->items_size = items_size;
}
item = &m->items[m->n_items++];
item->free_data = NULL;
return item;
}
static size_t remaining_buffer_size(SpiceMarshallerData *d)
{
return MARSHALLER_BUFFER_SIZE - d->current_buffer_position;
}
uint8_t *spice_marshaller_reserve_space(SpiceMarshaller *m, size_t size)
{
MarshallerItem *item;
SpiceMarshallerData *d;
uint8_t *res;
if (size == 0) {
return NULL;
}
d = m->data;
/* Check current item */
item = &m->items[m->n_items - 1];
if (item == d->current_buffer_item &&
remaining_buffer_size(d) >= size) {
assert(m->n_items >= 1);
/* We can piggy back on existing item+buffer */
res = item->data + item->len;
item->len += size;
d->current_buffer_position += size;
d->total_size += size;
m->total_size += size;
return res;
}
item = spice_marshaller_add_item(m);
if (remaining_buffer_size(d) >= size) {
/* Fits in current buffer */
item->data = d->current_buffer->data + d->current_buffer_position;
item->len = size;
d->current_buffer_position += size;
d->current_buffer_item = item;
} else if (size > MARSHALLER_BUFFER_SIZE / 2) {
/* Large item, allocate by itself */
item->data = (uint8_t *)spice_malloc(size);
item->len = size;
item->free_data = (spice_marshaller_item_free_func)free;
item->opaque = NULL;
} else {
/* Use next buffer */
if (d->current_buffer->next == NULL) {
d->current_buffer->next = spice_new(MarshallerBuffer, 1);
d->current_buffer->next->next = NULL;
}
d->current_buffer = d->current_buffer->next;
d->current_buffer_position = size;
d->current_buffer_item = item;
item->data = d->current_buffer->data;
item->len = size;
}
d->total_size += size;
m->total_size += size;
return item->data;
}
void spice_marshaller_unreserve_space(SpiceMarshaller *m, size_t size)
{
MarshallerItem *item;
if (size == 0) {
return;
}
item = &m->items[m->n_items - 1];
assert(item->len >= size);
item->len -= size;
}
uint8_t *spice_marshaller_add_ref_full(SpiceMarshaller *m, uint8_t *data, size_t size,
spice_marshaller_item_free_func free_data, void *opaque)
{
MarshallerItem *item;
SpiceMarshallerData *d;
if (data == NULL || size == 0) {
return NULL;
}
item = spice_marshaller_add_item(m);
item->data = data;
item->len = size;
item->free_data = free_data;
item->opaque = opaque;
d = m->data;
m->total_size += size;
d->total_size += size;
return data;
}
uint8_t *spice_marshaller_add(SpiceMarshaller *m, uint8_t *data, size_t size)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, size);
memcpy(ptr, data, size);
return ptr;
}
uint8_t *spice_marshaller_add_ref(SpiceMarshaller *m, uint8_t *data, size_t size)
{
return spice_marshaller_add_ref_full(m, data, size, NULL, NULL);
}
SpiceMarshaller *spice_marshaller_get_submarshaller(SpiceMarshaller *m)
{
SpiceMarshallerData *d;
SpiceMarshaller *m2;
d = m->data;
m2 = spice_new(SpiceMarshaller, 1);
spice_marshaller_init(m2, d);
d->last_marshaller->next = m2;
d->last_marshaller = m2;
return m2;
}
SpiceMarshaller *spice_marshaller_get_ptr_submarshaller(SpiceMarshaller *m, int is_64bit)
{
SpiceMarshaller *m2;
uint8_t *p;
int size;
size = is_64bit ? 8 : 4;
p = spice_marshaller_reserve_space(m, size);
memset(p, 0, size);
m2 = spice_marshaller_get_submarshaller(m);
m2->pointer_ref.marshaller = m;
m2->pointer_ref.item_nr = m->n_items - 1;
m2->pointer_ref.offset = m->items[m->n_items - 1].len - size;
m2->pointer_ref.is_64bit = is_64bit;
return m2;
}
uint8_t *lookup_ref(MarshallerRef *ref)
{
MarshallerItem *item;
item = &ref->marshaller->items[ref->item_nr];
return item->data + ref->offset;
}
void spice_marshaller_set_base(SpiceMarshaller *m, size_t base)
{
/* Only supported for root marshaller */
assert(m->data->marshallers == m);
m->data->base = base;
}
uint8_t *spice_marshaller_linearize(SpiceMarshaller *m, size_t skip_bytes,
size_t *len, int *free_res)
{
MarshallerItem *item;
uint8_t *res, *p;
int i;
/* Only supported for root marshaller */
assert(m->data->marshallers == m);
if (m->n_items == 1) {
*free_res = FALSE;
if (m->items[0].len <= skip_bytes) {
*len = 0;
return NULL;
}
*len = m->items[0].len - skip_bytes;
return m->items[0].data + skip_bytes;
}
*free_res = TRUE;
res = (uint8_t *)spice_malloc(m->data->total_size - skip_bytes);
*len = m->data->total_size - skip_bytes;
p = res;
do {
for (i = 0; i < m->n_items; i++) {
item = &m->items[i];
if (item->len <= skip_bytes) {
skip_bytes -= item->len;
continue;
}
memcpy(p, item->data + skip_bytes, item->len - skip_bytes);
p += item->len - skip_bytes;
skip_bytes = 0;
}
m = m->next;
} while (m != NULL);
return res;
}
uint8_t *spice_marshaller_get_ptr(SpiceMarshaller *m)
{
return m->items[0].data;
}
size_t spice_marshaller_get_offset(SpiceMarshaller *m)
{
SpiceMarshaller *m2;
size_t offset;
offset = 0;
m2 = m->data->marshallers;
while (m2 != m) {
offset += m2->total_size;
m2 = m2->next;
}
return offset - m->data->base;
}
size_t spice_marshaller_get_size(SpiceMarshaller *m)
{
return m->total_size;
}
size_t spice_marshaller_get_total_size(SpiceMarshaller *m)
{
return m->data->total_size;
}
void spice_marshaller_flush(SpiceMarshaller *m)
{
SpiceMarshaller *m2;
uint8_t *ptr_pos;
/* Only supported for root marshaller */
assert(m->data->marshallers == m);
for (m2 = m; m2 != NULL; m2 = m2->next) {
if (m2->pointer_ref.marshaller != NULL && m2->total_size > 0) {
ptr_pos = lookup_ref(&m2->pointer_ref);
if (m2->pointer_ref.is_64bit) {
write_uint64(ptr_pos,
spice_marshaller_get_offset(m2));
} else {
write_uint32(ptr_pos,
spice_marshaller_get_offset(m2));
}
}
}
}
#ifndef WIN32
int spice_marshaller_fill_iovec(SpiceMarshaller *m, struct iovec *vec,
int n_vec, size_t skip_bytes)
{
MarshallerItem *item;
int v, i;
/* Only supported for root marshaller */
assert(m->data->marshallers == m);
v = 0;
do {
for (i = 0; i < m->n_items; i++) {
item = &m->items[i];
if (item->len <= skip_bytes) {
skip_bytes -= item->len;
continue;
}
if (v == n_vec) {
return v; /* Not enough space in vec */
}
vec[v].iov_base = item->data + skip_bytes;
vec[v].iov_len = item->len - skip_bytes;
skip_bytes = 0;
v++;
}
m = m->next;
} while (m != NULL);
return v;
}
#endif
void spice_marshaller_add_uint64(SpiceMarshaller *m, uint64_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(uint64_t));
write_uint64(ptr, v);
}
void spice_marshaller_add_int64(SpiceMarshaller *m, int64_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(int64_t));
write_int64(ptr, v);
}
void spice_marshaller_add_uint32(SpiceMarshaller *m, uint32_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(uint32_t));
write_uint32(ptr, v);
}
void spice_marshaller_add_int32(SpiceMarshaller *m, int32_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(int32_t));
write_int32(ptr, v);
}
void spice_marshaller_add_uint16(SpiceMarshaller *m, uint16_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(uint16_t));
write_uint16(ptr, v);
}
void spice_marshaller_add_int16(SpiceMarshaller *m, int16_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(int16_t));
write_int16(ptr, v);
}
void spice_marshaller_add_uint8(SpiceMarshaller *m, uint8_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(uint8_t));
write_uint8(ptr, v);
}
void spice_marshaller_add_int8(SpiceMarshaller *m, int8_t v)
{
uint8_t *ptr;
ptr = spice_marshaller_reserve_space(m, sizeof(int8_t));
write_int8(ptr, v);
}