/*
* Read a single message from a (socket) filedescriptor. Messages are delimited
* by blank lines. This call will block until all of a message is received. The
* memory will be allocated from heap. Upon error, all memory is freed and the
* buffer pointer is set to NULL.
*
* See also write_buffer about blocking (read_buffer has identical behaviour).
*/
int buffer_read(int fd, struct buffer *buffer) {
int result;
if (!buffer_realloc(buffer, 32)) /* ensure we have some space */
return 0;
while (1) {
result = read(fd, buffer->mem + buffer->used, buffer->allocated - buffer->used);
if (result > 0) {
buffer->used += result;
if (buffer->used >= 4 && !strncmp((buffer->mem) + buffer->used - 4, "\n##\n", 4)) {
buffer->used -= 4;
buffer->mem[buffer->used] = 0;
break; /* success, we have the full message now */
}
if ((buffer->allocated - buffer->used < 32) &&
!buffer_realloc(buffer, 1024))
return 0;
} else if (result == 0) {
errno = ECONNRESET;
return 0; /* we should never encounter EOF here */
} else if (result < 0 && (errno == EAGAIN ||
(EWOULDBLOCK != EAGAIN && errno == EWOULDBLOCK) ||
errno == EINTR || errno == EIO)) {
fd_set in;
FD_ZERO(&in);
FD_SET(fd, &in);
/* ignore the result, this is just a glorified sleep */
select(FD_SETSIZE, &in, NULL, NULL, NULL);
} else if (result < 0)
return 0;
}
return 1;
}
void
buffer_shrink(BUFFER* buf)
{
/* Avoid realloc() if the potential memory gain is negligible. */
if(buf->alloc / 4 > buf->size / 3)
buffer_realloc(buf, buf->size);
}
void BLI_buffer_resize(BLI_Buffer *buffer, const size_t new_count)
{
if (UNLIKELY(new_count > buffer->alloc_count)) {
if (buffer->flag & BLI_BUFFER_USE_STATIC) {
void *orig = buffer->data;
buffer->data = buffer_alloc(buffer, new_count);
memcpy(buffer->data, orig, buffer->elem_size * buffer->count);
buffer->alloc_count = new_count;
buffer->flag &= ~BLI_BUFFER_USE_STATIC;
}
else {
if (buffer->alloc_count && (new_count < buffer->alloc_count * 2)) {
buffer->alloc_count *= 2;
}
else {
buffer->alloc_count = new_count;
}
buffer->data = buffer_realloc(buffer, buffer->alloc_count);
}
}
buffer->count = new_count;
}
static VALUE
buffer_initialize_copy(VALUE copy, VALUE origin)
{
buffer_t *ptr_copy, *ptr_origin;
size_t buffer_len;
if (copy == origin) return copy;
rb_check_frozen(copy);
Data_Get_Struct(copy, buffer_t, ptr_copy);
Data_Get_Struct(origin, buffer_t, ptr_origin);
buffer_len = buffer_buffer_length(ptr_origin);
if (ptr_copy->memsize < ptr_origin->memsize) {
buffer_realloc(ptr_copy, sizeof(char) * ptr_origin->memsize);
}
memcpy(ptr_copy->buffer, ptr_origin->buffer, buffer_len);
ptr_copy->p = ptr_copy->buffer + buffer_len;
ptr_copy->memsize = ptr_origin->memsize;
return copy;
}
static VALUE
buffer_update(VALUE self, VALUE str)
{
size_t buffer_len, str_len, require, newsize;
const char* str_p;
buffer_t *ptr;
Data_Get_Struct(self, buffer_t, ptr);
StringValue(str);
str_p = RSTRING_PTR(str);
str_len = RSTRING_LEN(str);
buffer_len = buffer_buffer_length(ptr);
require = buffer_len + str_len;
if (ptr->memsize < require) {
newsize = ptr->memsize;
while (newsize < require) {
newsize *= 2;
}
buffer_realloc(ptr, sizeof(char) * newsize);
ptr->p = ptr->buffer + buffer_len;
ptr->memsize = newsize;
}
memcpy(ptr->p, str_p, str_len);
ptr->p += str_len;
return self;
}
/**
* Initializes a client
* - fd: The file descriptor of the client
* - addr: The address of the client
*/
client_t* server_client_init(server_t* server, int fd, struct in_addr addr)
{
client_t* client = server->accept_cb(fd, addr, server);
if (client == NULL) {
return NULL;
}
client->fd = fd;
client->addr = addr;
client->server = server;
client->handshake_stage = HANDSHAKE_PENDING;
client->client_drop = false;
object_init(buffer, &client->read_buffer);
object_init(buffer, &client->write_buffer);
buffer_realloc(&client->read_buffer, server->buf_size);
buffer_realloc(&client->write_buffer, server->buf_size);
return client;
}
int
buffer_reserve(BUFFER* buf, size_t extra_alloc)
{
if(buf->size + extra_alloc > buf->alloc)
return buffer_realloc(buf, buf->size + extra_alloc);
else
return 0;
}
void buffer_string_set_length(buffer *b, size_t len) {
force_assert(NULL != b);
force_assert(len + 1 > len);
buffer_realloc(b, len + 1);
b->used = len + 1;
b->ptr[len] = '\0';
}
/*
* Add a char to the bottom of a buffer
*/
void buffer_add(buffer * buf, char c)
{
assert(buf);
if ((buf->use + 1) >= buf->size) buffer_realloc(buf);
buf->buf[buf->use] = c;
buf->buf[buf->use + 1] = '\0';
buf->use++;
}
/*
* Return a buffer from a double
*/
buffer *buffer_ftoa(double f)
{
buffer *res;
res = buffer_init();
while (res->size < 100) buffer_realloc(res);
snprintf(res->buf, 99, "%f", f);
res->use = strlen(res->buf);
return res;
}
/*
* Add a string to a buffer
*/
void buffer_add_str(buffer * buf, const char *str)
{
assert(buf);
assert(str);
if ((strlen(str) + buf->use) >= buf->size)
while ((strlen(str) + buf->use) >= buf->size)
buffer_realloc(buf);
strcat(buf->buf, str);
buf->use = buf->use + strlen(str);
}
/*
* Convert an integer to a buffer (base 10 only)
*/
buffer *buffer_itoa(int i)
{
buffer *res;
res = buffer_init();
/* FIXME use snprintf instead ! */
while (res->size < 100) buffer_realloc(res);
sprintf(res->buf, "%i", i);
res->use = strlen(res->buf);
return res;
}
/*
* Return a buffer from a double
*/
buffer *buffer_ftoa(double f)
{
buffer *res;
res = buffer_init();
/* FIXME use snprintf instead ! */
while (res->size < 100) buffer_realloc(res);
sprintf(res->buf, "%f", f);
res->use = strlen(res->buf);
return res;
}
/*
* Función data_buffer_write.
* Recibe por parámetro la dirección de memoria de una estructura data_buffer_t,
* la dirección de memoria del dato a escribir, y el tamaño del dato.
*/
void data_buffer_write(data_buffer_t * d, void * dato, uint32_t tam)
{
if (d != NULL)
{
if (d->bufferUsado == d->tamBuffer)
buffer_realloc(d);
memcpy(&d->buffer[d->bufferUsado], dato, tam);
d->bufferUsado += tam;
}
else
printf("Error! La función data_buffer_write() recibió un puntero nulo!\n");
}
static size_t write_callback(void *ptr, size_t size, size_t nmemb, void *data)
{
viprinet_status_t *status;
size_t realsize = size * nmemb;
status = (viprinet_status_t *)data;
buffer_realloc(status, realsize + 1);
if (status->buffer) {
memcpy(&(status->buffer[0]), ptr, realsize);
status->buffer[realsize] = 0;
handle_messages(status);
}
return realsize;
}
void*
buffer_insert_(BUFFER* buf, size_t pos, size_t n)
{
if(buf->size + n > buf->alloc) {
if(buffer_realloc(buf, (buf->size + n) * 2) != 0)
return NULL;
}
if(buf->size > pos)
memmove((uint8_t*)buf->data + pos + n, (uint8_t*)buf->data + pos, buf->size - pos);
buf->size += n;
return buffer_data_at(buf, pos);
}
/*
* Add n char from string to a buffer
*/
void buffer_add_nstr(buffer * buf, const char *str, size_t n)
{
assert(buf);
assert(str);
assert(n > 0);
assert(n <= strlen(str));
if ((n + buf->use) >= buf->size)
while ((n + buf->use) >= buf->size)
buffer_realloc(buf);
strncat(buf->buf, str, n);
buf->use = buf->use + n;
}
void unix_socket_client_recv(usc_t *usc,
size_t sz,
usc_reader_t reader, void *ctx) {
assert(usc);
usc->read_task.currently_read = 0;
usc->read_task.b.offset = usc->read_task.b.user_size;
buffer_realloc(&usc->read_task.b, usc->read_task.b.offset + sz);
usc->read_task.reader = reader;
usc->read_task.ctx = ctx;
io_service_post_job(
usc->iosvc, usc->fd, IO_SVC_OP_READ, !IOSVC_JOB_ONESHOT,
(iosvc_job_function_t)data_may_be_read,
usc
);
}
/*
* Add a char to the top of a buffer
*/
void buffer_add_head(buffer * buf, char c)
{
size_t i;
assert(buf);
if ((buf->use + 2) >= buf->size)
buffer_realloc(buf);
if (buf->use > 0)
for (i = buf->use; i > 0; i--)
buf->buf[i] = buf->buf[i - 1];
buf->buf[0] = c;
buf->buf[buf->use + 1] = '\0';
buf->use++;
}
void unix_socket_client_send(usc_t *usc,
const void *d, size_t sz,
usc_writer_t writer, void *ctx) {
assert(usc);
usc->write_task.currently_wrote = 0;
buffer_realloc(&usc->write_task.b, sz);
memcpy(usc->write_task.b.data, d, sz);
usc->write_task.writer = writer;
usc->write_task.ctx = ctx;
io_service_post_job(
usc->iosvc, usc->fd, IO_SVC_OP_WRITE, !IOSVC_JOB_ONESHOT,
(iosvc_job_function_t)data_may_be_sent,
usc
);
}
char* buffer_string_prepare_append(buffer *b, size_t size) {
force_assert(NULL != b);
if (buffer_string_is_empty(b)) {
return buffer_string_prepare_copy(b, size);
} else {
size_t req_size = b->used + size;
/* not empty, b->used already includes a terminating 0 */
force_assert(req_size >= b->used);
/* check for overflow: unsigned overflow is defined to wrap around */
force_assert(req_size >= b->used);
buffer_realloc(b, req_size);
return b->ptr + b->used - 1;
}
}
void writer(uss_t *srv, uss_connection_t *conn,
int error, driver_core_t *core) {
driver_core_connection_state_t *s = conn->priv;
if (error) {
LOG(LOG_LEVEL_WARN, "Couldn't send buffer to client: %s\n",
strerror(errno));
avl_tree_remove(&core->connection_state, conn->fd);
unix_socket_server_close_connection(srv, conn);
return;
}
s->argc = s->args_received = 0;
s->last_argument_offset = 0;
buffer_realloc(&conn->read_task.b, 0);
unix_socket_server_recv(srv, conn, sizeof(pr_signature_t),
(uss_reader_t)reader,
core);
}