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|
#define EFL_IO_READER_PROTECTED 1
#define EFL_IO_WRITER_PROTECTED 1
#include "config.h"
#include "Efl.h"
#define MY_CLASS EFL_IO_BUFFER_CLASS
typedef struct _Efl_Io_Buffer_Data
{
uint8_t *bytes;
size_t allocated;
size_t used;
size_t limit;
size_t position_read;
size_t position_write;
Eina_Bool closed;
Eina_Bool can_read;
Eina_Bool can_write;
Eina_Bool readonly;
} Efl_Io_Buffer_Data;
static Eina_Bool
_efl_io_buffer_realloc(Eo *o, Efl_Io_Buffer_Data *pd, size_t size)
{
void *tmp;
size_t limit = efl_io_buffer_limit_get(o);
EINA_SAFETY_ON_TRUE_RETURN_VAL(pd->readonly, EINA_FALSE);
if ((limit > 0) && (size > limit))
size = limit;
if (pd->allocated == size) return EINA_FALSE;
if (efl_io_sizer_size_get(o) > size)
{
if (efl_io_buffer_position_read_get(o) > size)
efl_io_buffer_position_read_set(o, size);
if (efl_io_buffer_position_write_get(o) > size)
efl_io_buffer_position_write_set(o, size);
/* no efl_io_sizer_size_set() since it could recurse! */
pd->used = size;
efl_event_callback_call(o, EFL_IO_SIZER_EVENT_SIZE_CHANGED, NULL);
}
if (size == 0)
{
free(pd->bytes);
tmp = NULL;
}
else
{
tmp = realloc(pd->bytes, size);
EINA_SAFETY_ON_NULL_RETURN_VAL(tmp, EINA_FALSE);
}
pd->bytes = tmp;
pd->allocated = size;
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_REALLOCATED, NULL);
return EINA_TRUE;
}
static Eina_Bool
_efl_io_buffer_realloc_rounded(Eo *o, Efl_Io_Buffer_Data *pd, size_t size)
{
if ((size > 0) && (size < 128))
size = ((size / 32) + 1) * 32;
else if (size < 1024)
size = ((size / 128) + 1) * 128;
else if (size < 8192)
size = ((size / 1024) + 1) * 1024;
else
size = ((size / 4096) + 1) * 4096;
return _efl_io_buffer_realloc(o, pd, size);
}
EOLIAN static void
_efl_io_buffer_preallocate(Eo *o, Efl_Io_Buffer_Data *pd, size_t size)
{
EINA_SAFETY_ON_TRUE_RETURN(pd->readonly);
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (pd->allocated < size)
_efl_io_buffer_realloc_rounded(o, pd, size);
}
EOLIAN static void
_efl_io_buffer_limit_set(Eo *o, Efl_Io_Buffer_Data *pd, size_t limit)
{
EINA_SAFETY_ON_TRUE_RETURN(pd->readonly);
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (pd->limit == limit) return;
pd->limit = limit;
if ((limit > 0) && (pd->allocated > limit))
_efl_io_buffer_realloc(o, pd, limit);
if (pd->closed) return;
efl_io_reader_can_read_set(o, efl_io_buffer_position_read_get(o) < efl_io_sizer_size_get(o));
if (pd->closed) return;
efl_io_writer_can_write_set(o, (limit == 0) ||
(efl_io_buffer_position_write_get(o) < limit));
}
EOLIAN static size_t
_efl_io_buffer_limit_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->limit;
}
EOLIAN static Eina_Slice
_efl_io_buffer_slice_get(const Eo *o, Efl_Io_Buffer_Data *pd)
{
Eina_Slice slice = { };
if (!efl_io_closer_closed_get(o))
{
slice.mem = pd->bytes;
slice.len = efl_io_sizer_size_get(o);
}
return slice;
}
EOLIAN static Eina_Binbuf *
_efl_io_buffer_binbuf_steal(Eo *o, Efl_Io_Buffer_Data *pd)
{
Eina_Binbuf *ret;
EINA_SAFETY_ON_TRUE_RETURN_VAL(pd->readonly, NULL);
EINA_SAFETY_ON_TRUE_RETURN_VAL(efl_io_closer_closed_get(o), NULL);
ret = eina_binbuf_manage_new(pd->bytes, efl_io_sizer_size_get(o), EINA_FALSE);
EINA_SAFETY_ON_NULL_RETURN_VAL(ret, NULL);
pd->bytes = NULL;
pd->allocated = 0;
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_REALLOCATED, NULL);
efl_io_sizer_resize(o, 0);
return ret;
}
EOLIAN static Efl_Object *
_efl_io_buffer_efl_object_finalize(Eo *o, Efl_Io_Buffer_Data *pd EINA_UNUSED)
{
size_t limit;
o = efl_finalize(efl_super(o, MY_CLASS));
if (!o) return NULL;
efl_io_reader_can_read_set(o, efl_io_buffer_position_read_get(o) < efl_io_sizer_size_get(o));
if (pd->closed) return o;
limit = efl_io_buffer_limit_get(o);
efl_io_writer_can_write_set(o, (limit == 0) ||
(efl_io_buffer_position_write_get(o) < limit));
return o;
}
EOLIAN static void
_efl_io_buffer_efl_object_destructor(Eo *o, Efl_Io_Buffer_Data *pd)
{
if (!efl_io_closer_closed_get(o))
{
efl_event_freeze(o);
efl_io_closer_close(o);
efl_event_thaw(o);
}
efl_destructor(efl_super(o, MY_CLASS));
if (pd->bytes)
{
if (!pd->readonly) free(pd->bytes);
pd->bytes = NULL;
pd->allocated = 0;
pd->used = 0;
pd->position_read = 0;
pd->position_write = 0;
}
}
EOLIAN static Eina_Error
_efl_io_buffer_efl_io_reader_read(Eo *o, Efl_Io_Buffer_Data *pd, Eina_Rw_Slice *rw_slice)
{
Eina_Slice ro_slice;
size_t used, read_pos, available;
EINA_SAFETY_ON_NULL_RETURN_VAL(rw_slice, EINVAL);
EINA_SAFETY_ON_TRUE_GOTO(efl_io_closer_closed_get(o), error);
used = efl_io_sizer_size_get(o);
read_pos = efl_io_buffer_position_read_get(o);
available = used - read_pos;
if (rw_slice->len > available)
{
rw_slice->len = available;
if (rw_slice->len == 0)
return EAGAIN;
}
ro_slice.len = rw_slice->len;
ro_slice.mem = pd->bytes + read_pos;
*rw_slice = eina_rw_slice_copy(*rw_slice, ro_slice);
efl_io_buffer_position_read_set(o, read_pos + ro_slice.len);
return 0;
error:
rw_slice->len = 0;
rw_slice->mem = NULL;
efl_io_reader_can_read_set(o, EINA_FALSE);
return EINVAL;
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_reader_can_read_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->can_read;
}
EOLIAN static void
_efl_io_buffer_efl_io_reader_can_read_set(Eo *o, Efl_Io_Buffer_Data *pd, Eina_Bool can_read)
{
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (pd->can_read == can_read) return;
pd->can_read = can_read;
efl_event_callback_call(o, EFL_IO_READER_EVENT_CAN_READ_CHANGED, NULL);
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_reader_eos_get(const Eo *o, Efl_Io_Buffer_Data *pd EINA_UNUSED)
{
return efl_io_closer_closed_get(o) ||
efl_io_buffer_position_read_get(o) >= efl_io_sizer_size_get(o);
}
EOLIAN static void
_efl_io_buffer_efl_io_reader_eos_set(Eo *o, Efl_Io_Buffer_Data *pd EINA_UNUSED, Eina_Bool is_eos)
{
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (is_eos)
efl_event_callback_call(o, EFL_IO_READER_EVENT_EOS, NULL);
}
EOLIAN static Eina_Error
_efl_io_buffer_efl_io_writer_write(Eo *o, Efl_Io_Buffer_Data *pd, Eina_Slice *slice, Eina_Slice *remaining)
{
size_t available, todo, write_pos, limit;
int err = EINVAL;
EINA_SAFETY_ON_TRUE_RETURN_VAL(pd->readonly, EPERM);
EINA_SAFETY_ON_NULL_RETURN_VAL(slice, EINVAL);
EINA_SAFETY_ON_TRUE_GOTO(efl_io_closer_closed_get(o), error);
write_pos = efl_io_buffer_position_write_get(o);
available = pd->allocated - write_pos;
limit = efl_io_buffer_limit_get(o);
err = ENOSPC;
if (available >= slice->len)
todo = slice->len;
else if ((limit > 0) && (pd->allocated == limit)) goto error;
else
{
_efl_io_buffer_realloc_rounded(o, pd, write_pos + slice->len);
if (pd->allocated >= write_pos + slice->len)
todo = slice->len;
else
todo = pd->allocated - write_pos;
if (todo == 0) goto error;
}
memcpy(pd->bytes + write_pos, slice->mem, todo);
if (remaining)
{
remaining->len = slice->len - todo;
if (remaining->len)
remaining->mem = slice->bytes + todo;
else
remaining->mem = NULL;
}
slice->len = todo;
if (pd->used < write_pos + todo)
{
pd->used = write_pos + todo;
efl_event_callback_call(o, EFL_IO_SIZER_EVENT_SIZE_CHANGED, NULL);
if (pd->closed) return 0;
efl_io_reader_can_read_set(o, pd->position_read < pd->used);
if (pd->closed) return 0;
}
efl_io_buffer_position_write_set(o, write_pos + todo);
return 0;
error:
if (remaining) *remaining = *slice;
slice->len = 0;
slice->mem = NULL;
efl_io_writer_can_write_set(o, EINA_FALSE);
return err;
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_writer_can_write_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->can_write;
}
EOLIAN static void
_efl_io_buffer_efl_io_writer_can_write_set(Eo *o, Efl_Io_Buffer_Data *pd, Eina_Bool can_write)
{
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (pd->can_write == can_write) return;
pd->can_write = can_write;
efl_event_callback_call(o, EFL_IO_WRITER_EVENT_CAN_WRITE_CHANGED, NULL);
}
EOLIAN static Eina_Error
_efl_io_buffer_efl_io_closer_close(Eo *o, Efl_Io_Buffer_Data *pd)
{
EINA_SAFETY_ON_TRUE_RETURN_VAL(efl_io_closer_closed_get(o), EINVAL);
efl_io_sizer_resize(o, 0);
pd->closed = EINA_TRUE;
efl_event_callback_call(o, EFL_IO_CLOSER_EVENT_CLOSED, NULL);
return 0;
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_closer_closed_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->closed;
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_closer_close_on_exec_set(Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd EINA_UNUSED, Eina_Bool close_on_exec)
{
if (!close_on_exec) return EINA_FALSE;
return EINA_TRUE;
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_closer_close_on_exec_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd EINA_UNUSED)
{
return EINA_TRUE;
}
EOLIAN static void
_efl_io_buffer_efl_io_closer_close_on_invalidate_set(Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd EINA_UNUSED, Eina_Bool close_on_invalidate EINA_UNUSED)
{
}
EOLIAN static Eina_Bool
_efl_io_buffer_efl_io_closer_close_on_invalidate_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd EINA_UNUSED)
{
return EINA_TRUE;
}
EOLIAN static Eina_Error
_efl_io_buffer_efl_io_sizer_resize(Eo *o, Efl_Io_Buffer_Data *pd, uint64_t size)
{
Eina_Error ret = 0;
Eina_Bool reallocated = EINA_FALSE;
size_t old_size, pos_read, pos_write;
EINA_SAFETY_ON_TRUE_RETURN_VAL(efl_io_closer_closed_get(o), EINVAL);
if (efl_io_sizer_size_get(o) == size) return 0;
if (pd->readonly)
{
EINA_SAFETY_ON_TRUE_RETURN_VAL(size > pd->used, EPERM);
pd->used = size;
goto end;
}
old_size = pd->used;
pd->used = size;
efl_event_freeze(o);
reallocated = _efl_io_buffer_realloc_rounded(o, pd, size);
efl_event_thaw(o);
if (size > pd->allocated)
{
pd->used = size = pd->allocated;
ret = ENOSPC;
}
if (old_size < size)
memset(pd->bytes + old_size, 0, size - old_size);
end:
pos_read = efl_io_buffer_position_read_get(o);
if (pos_read > size)
efl_io_buffer_position_read_set(o, size);
else
efl_io_reader_can_read_set(o, pos_read < size);
if (pd->closed) return 0;
pos_write = efl_io_buffer_position_write_get(o);
if (pos_write > size)
efl_io_buffer_position_write_set(o, size);
else
{
size_t limit = efl_io_buffer_limit_get(o);
efl_io_writer_can_write_set(o, (limit == 0) || (pos_write < limit));
if (pd->closed) return 0;
}
efl_event_callback_call(o, EFL_IO_SIZER_EVENT_SIZE_CHANGED, NULL);
if (reallocated)
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_REALLOCATED, NULL);
return ret;
}
EOLIAN static uint64_t
_efl_io_buffer_efl_io_sizer_size_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->used;
}
EOLIAN static Eina_Error
_efl_io_buffer_efl_io_positioner_seek(Eo *o, Efl_Io_Buffer_Data *pd EINA_UNUSED, int64_t offset, Efl_Io_Positioner_Whence whence)
{
size_t size;
EINA_SAFETY_ON_TRUE_RETURN_VAL(efl_io_closer_closed_get(o), EINVAL);
size = efl_io_sizer_size_get(o);
if (whence == EFL_IO_POSITIONER_WHENCE_CURRENT)
{
whence = EFL_IO_POSITIONER_WHENCE_START;
offset += efl_io_positioner_position_get(o);
}
else if (whence == EFL_IO_POSITIONER_WHENCE_END)
{
whence = EFL_IO_POSITIONER_WHENCE_START;
offset += size;
}
EINA_SAFETY_ON_TRUE_RETURN_VAL(whence != EFL_IO_POSITIONER_WHENCE_START, EINVAL);
EINA_SAFETY_ON_TRUE_RETURN_VAL(offset < 0, EINVAL);
EINA_SAFETY_ON_TRUE_RETURN_VAL((size_t)offset > size, EINVAL);
efl_io_buffer_position_read_set(o, offset);
efl_io_buffer_position_write_set(o, offset);
return 0;
}
EOLIAN static uint64_t
_efl_io_buffer_efl_io_positioner_position_get(const Eo *o, Efl_Io_Buffer_Data *pd EINA_UNUSED)
{
uint64_t r = efl_io_buffer_position_read_get(o);
uint64_t w = efl_io_buffer_position_write_get(o);
/* if using Efl.Io.Positioner.position, on set it will do both
* read/write to the same offset, however on Efl.Io.Reader.read it
* will only update position_read (and similarly for
* Efl.Io.Writer), thus on the next position.get we want the
* greatest position.
*
* This allows the buffer to be used solely as reader or writer
* without the need to know it have two internal offsets.
*/
if (r >= w)
return r;
return w;
}
EOLIAN static Eina_Bool
_efl_io_buffer_position_read_set(Eo *o, Efl_Io_Buffer_Data *pd, uint64_t position)
{
size_t size;
Eina_Bool changed;
EINA_SAFETY_ON_TRUE_RETURN_VAL(efl_io_closer_closed_get(o), EINA_FALSE);
size = efl_io_sizer_size_get(o);
EINA_SAFETY_ON_TRUE_RETURN_VAL(position > size, EINA_FALSE);
if (pd->position_read == position) return EINA_TRUE;
changed = efl_io_positioner_position_get(o) != position;
pd->position_read = position;
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_POSITION_READ_CHANGED, NULL);
if (changed)
efl_event_callback_call(o, EFL_IO_POSITIONER_EVENT_POSITION_CHANGED, NULL);
efl_io_reader_can_read_set(o, position < size);
if (pd->closed) return EINA_TRUE;
efl_io_reader_eos_set(o, position >= size);
return EINA_TRUE;
}
EOLIAN static uint64_t
_efl_io_buffer_position_read_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->position_read;
}
EOLIAN static Eina_Bool
_efl_io_buffer_position_write_set(Eo *o, Efl_Io_Buffer_Data *pd, uint64_t position)
{
size_t size;
size_t limit;
Eina_Bool changed;
EINA_SAFETY_ON_TRUE_RETURN_VAL(efl_io_closer_closed_get(o), EINA_FALSE);
size = efl_io_sizer_size_get(o);
if (position < size)
EINA_SAFETY_ON_TRUE_RETURN_VAL(pd->readonly, EINA_FALSE);
EINA_SAFETY_ON_TRUE_RETURN_VAL(position > size, EINA_FALSE);
if (pd->position_write == position) return EINA_TRUE;
changed = efl_io_positioner_position_get(o) != position;
pd->position_write = position;
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_POSITION_WRITE_CHANGED, NULL);
if (changed)
efl_event_callback_call(o, EFL_IO_POSITIONER_EVENT_POSITION_CHANGED, NULL);
if (pd->closed) return 0;
limit = efl_io_buffer_limit_get(o);
efl_io_writer_can_write_set(o, (limit == 0) || (position < limit));
return EINA_TRUE;
}
EOLIAN static uint64_t
_efl_io_buffer_position_write_get(const Eo *o EINA_UNUSED, Efl_Io_Buffer_Data *pd)
{
return pd->position_write;
}
EOLIAN static void
_efl_io_buffer_adopt_readonly(Eo *o, Efl_Io_Buffer_Data *pd, const Eina_Slice slice)
{
Eina_Bool changed_size;
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (!pd->readonly) free(pd->bytes);
pd->readonly = EINA_TRUE;
pd->bytes = (uint8_t *)slice.bytes;
pd->allocated = slice.len;
changed_size = (pd->used != slice.len);
pd->used = slice.len;
efl_io_writer_can_write_set(o, EINA_FALSE);
if (pd->closed) return;
if (efl_io_buffer_position_read_get(o) > slice.len)
{
efl_io_buffer_position_read_set(o, slice.len);
if (pd->closed) return;
}
efl_io_buffer_position_write_set(o, slice.len);
if (pd->closed) return;
if (changed_size)
{
efl_event_callback_call(o, EFL_IO_SIZER_EVENT_SIZE_CHANGED, NULL);
if (pd->closed) return;
}
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_REALLOCATED, NULL);
}
EOLIAN static void
_efl_io_buffer_adopt_readwrite(Eo *o, Efl_Io_Buffer_Data *pd, Eina_Rw_Slice slice)
{
Eina_Bool changed_size;
EINA_SAFETY_ON_TRUE_RETURN(efl_io_closer_closed_get(o));
if (!pd->readonly) free(pd->bytes);
pd->readonly = EINA_FALSE;
pd->bytes = slice.bytes;
pd->allocated = slice.len;
changed_size = (pd->used != slice.len);
pd->used = slice.len;
efl_io_writer_can_write_set(o, (pd->limit == 0) ||
(efl_io_buffer_position_write_get(o) < pd->limit));
if (pd->closed) return;
if (efl_io_buffer_position_read_get(o) > slice.len)
{
efl_io_buffer_position_read_set(o, slice.len);
if (pd->closed) return;
}
if (efl_io_buffer_position_write_get(o) > slice.len)
{
efl_io_buffer_position_write_set(o, slice.len);
if (pd->closed) return;
}
if (changed_size)
{
efl_event_callback_call(o, EFL_IO_SIZER_EVENT_SIZE_CHANGED, NULL);
if (pd->closed) return;
}
efl_event_callback_call(o, EFL_IO_BUFFER_EVENT_REALLOCATED, NULL);
}
#include "interfaces/efl_io_buffer.eo.c"
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