42 KiB
Harness is meant to make writing unit test for GStreamer much easier.
It can be thought of as a way of treating a gst::Element as a black box,
deterministically feeding it data, and controlling what data it outputs.
The basic structure of Harness is two "floating" GstPads that connect
to the harnessed gst::Element src and sink GstPads like so:
#include <gst/gst.h>
#include <gst/check/gstharness.h>
GstHarness *h;
GstBuffer *in_buf;
GstBuffer *out_buf;
// attach the harness to the src and sink pad of GstQueue
h = gst_harness_new ("queue");
// we must specify a caps before pushing buffers
gst_harness_set_src_caps_str (h, "mycaps");
// create a buffer of size 42
in_buf = gst_harness_create_buffer (h, 42);
// push the buffer into the queue
gst_harness_push (h, in_buf);
// pull the buffer from the queue
out_buf = gst_harness_pull (h);
// validate the buffer in is the same as buffer out
fail_unless (in_buf == out_buf);
// cleanup
gst_buffer_unref (out_buf);
gst_harness_teardown (h);
]|
Another main feature of the #GstHarness is its integration with the
#GstTestClock. Operating the #GstTestClock can be very challenging, but
#GstHarness simplifies some of the most desired actions a lot, like wanting
to manually advance the clock while at the same time releasing a #GstClockID
that is waiting, with functions like gst_harness_crank_single_clock_wait().
#GstHarness also supports sub-harnesses, as a way of generating and
validating data. A sub-harness is another #GstHarness that is managed by
the "parent" harness, and can either be created by using the standard
gst_harness_new type functions directly on the (GstHarness *)->src_harness,
or using the much more convenient gst_harness_add_src() or
gst_harness_add_sink_parse(). If you have a decoder-element you want to test,
(like vp8dec) it can be very useful to add a src-harness with both a
src-element (videotestsrc) and an encoder (vp8enc) to feed the decoder data
with different configurations, by simply doing:
|[<!-- language="C" -->
GstHarness * h = gst_harness_new (h, "vp8dec");
gst_harness_add_src_parse (h, "videotestsrc is-live=1 ! vp8enc", TRUE);
and then feeding it data with:
gst_harness_push_from_src (h);
Adds a gst::Element to an empty Harness
MT safe.
element
a gst::Element to add to the harness (transfer none)
hsrc
a gst::StaticPadTemplate describing the harness srcpad.
None will not create a harness srcpad.
element_sinkpad_name
a gchar with the name of the element
sinkpad that is then linked to the harness srcpad. Can be a static or request
or a sometimes pad that has been added. None will not get/request a sinkpad
from the element. (Like if the element is a src.)
hsink
a gst::StaticPadTemplate describing the harness sinkpad.
None will not create a harness sinkpad.
element_srcpad_name
a gchar with the name of the element
srcpad that is then linked to the harness sinkpad, similar to the
element_sinkpad_name.
Links the specified gst::Pad the Harness srcpad.
MT safe.
sinkpad
a gst::Pad to link to the harness srcpad
Links the specified gst::Pad the Harness sinkpad. This can be useful if
perhaps the srcpad did not exist at the time of creating the harness,
like a demuxer that provides a sometimes-pad after receiving data.
MT safe.
srcpad
a gst::Pad to link to the harness sinkpad
Parses the launchline and puts that in a gst::Bin,
and then attches the supplied Harness to the bin.
MT safe.
launchline
a gchar describing a gst-launch type line
A convenience function to allows you to call gst_pad_add_probe on a
gst::Pad of a gst::Element that are residing inside the Harness,
by using normal gst_pad_add_probe syntax
MT safe.
element_name
a gchar with a gst::ElementFactory name
pad_name
a gchar with the name of the pad to attach the probe to
mask
a gst::PadProbeType (see gst_pad_add_probe)
callback
a GstPadProbeCallback (see gst_pad_add_probe)
user_data
a gpointer (see gst_pad_add_probe)
destroy_data
a GDestroyNotify (see gst_pad_add_probe)
Add api with params as one of the supported metadata API to propose when receiving an allocation query.
MT safe.
Feature: v1_16
api
a metadata API
params
API specific parameters
Similar to gst_harness_add_sink_harness, this is a convenience to
directly create a sink-harness using the sink_element_name name specified.
MT safe.
sink_element_name
a gchar with the name of a gst::Element
Similar to gst_harness_add_src, this allows you to send the data coming out
of your harnessed gst::Element to a sink-element, allowing to test different
responses the element output might create in sink elements. An example might
be an existing sink providing some analytical data on the input it receives that
can be useful to your testing. If the goal is to test a sink-element itself,
this is better achieved using gst_harness_new directly on the sink.
If a sink-harness already exists it will be replaced.
MT safe.
sink_harness
a Harness to be added as a sink-harness.
Similar to gst_harness_add_sink, this allows you to specify a launch-line instead of just an element name. See gst_harness_add_src_parse for details.
MT safe.
launchline
a gchar with the name of a gst::Element
Similar to gst_harness_add_src_harness, this is a convenience to
directly create a src-harness using the src_element_name name specified.
MT safe.
src_element_name
a gchar with the name of a gst::Element
has_clock_wait
a gboolean specifying if the gst::Element uses
gst_clock_wait_id internally.
A src-harness is a great way of providing the Harness with data.
By adding a src-type gst::Element, it is then easy to use functions like
gst_harness_push_from_src or gst_harness_src_crank_and_push_many
to provide your harnessed element with input. The has_clock_wait variable
is a great way to control you src-element with, in that you can have it
produce a buffer for you by simply cranking the clock, and not have it
spin out of control producing buffers as fast as possible.
If a src-harness already exists it will be replaced.
MT safe.
src_harness
a Harness to be added as a src-harness.
has_clock_wait
a gboolean specifying if the gst::Element uses
gst_clock_wait_id internally.
Similar to gst_harness_add_src, this allows you to specify a launch-line,
which can be useful for both having more then one gst::Element acting as your
src (Like a src producing raw buffers, and then an encoder, providing encoded
data), but also by allowing you to set properties like "is-live" directly on
the elements.
MT safe.
launchline
a gchar describing a gst-launch type line
has_clock_wait
a gboolean specifying if the gst::Element uses
gst_clock_wait_id internally.
The number of GstBuffers currently in the Harness sinkpad glib::AsyncQueue
MT safe.
Returns
a guint number of buffers in the queue
The total number of GstBuffers that has arrived on the Harness sinkpad.
This number includes buffers that have been dropped as well as buffers
that have already been pulled out.
MT safe.
Returns
a guint number of buffers received
Similar to Harness::crank_single_clock_wait, this is the function to use
if your harnessed element(s) are using more then one gst_clock_id_wait.
Failing to do so can (and will) make it racy which gst::ClockID you actually
are releasing, where as this function will process all the waits at the
same time, ensuring that one thread can't register another wait before
both are released.
MT safe.
waits
a guint describing the number of GstClockIDs to crank
Returns
a gboolean true if the "crank" was successful, false if not.
A "crank" consists of three steps:
1: Wait for a gst::ClockID to be registered with the TestClock.
2: Advance the TestClock to the time the gst::ClockID is waiting for.
3: Release the gst::ClockID wait.
Together, this provides an easy way to not have to think about the details
around clocks and time, but still being able to write deterministic tests
that are dependent on this. A "crank" can be though of as the notion of
manually driving the clock forward to its next logical step.
MT safe.
Returns
a gboolean true if the "crank" was successful, false if not.
Allocates a buffer using a gst::BufferPool if present, or else using the
configured gst::Allocator and gst::AllocationParams
MT safe.
size
a gsize specifying the size of the buffer
Returns
a gst::Buffer of size size
Allows you to dump the GstBuffers the Harness sinkpad glib::AsyncQueue
to a file.
MT safe.
filename
a gchar with a the name of a file
The number of GstEvents currently in the Harness sinkpad glib::AsyncQueue
MT safe.
Returns
a guint number of events in the queue
The total number of GstEvents that has arrived on the Harness sinkpad
This number includes events handled by the harness as well as events
that have already been pulled out.
MT safe.
Returns
a guint number of events received
Most useful in conjunction with gst_harness_new_parse, this will scan the
GstElements inside the Harness, and check if any of them matches
element_name. Typical usecase being that you need to access one of the
harnessed elements for properties and/or signals.
MT safe.
element_name
a gchar with a gst::ElementFactory name
Returns
a gst::Element or None if not found
A convenience function to allows you to call g_object_get on a gst::Element
that are residing inside the Harness, by using normal g_object_get
syntax.
MT safe.
element_name
a gchar with a gst::ElementFactory name
first_property_name
a gchar with the first property name
Gets the allocator and its params that has been decided to use after an
allocation query.
MT safe.
allocator
the gst::Allocator used
params
the gst::AllocationParams of
allocator
Get the timestamp of the last gst::Buffer pushed on the Harness srcpad,
typically with gst_harness_push or gst_harness_push_from_src.
MT safe.
Returns
a gst::ClockTime with the timestamp or GST_CLOCK_TIME_NONE if no
gst::Buffer has been pushed on the Harness srcpad
Get the TestClock. Useful if specific operations on the testclock is
needed.
MT safe.
Returns
a TestClock, or None if the testclock is not
present.
This will set the harnessed gst::Element to gst::State::Playing.
GstElements without a sink-gst::Pad and with the gst::ElementFlags::Source
flag set is considered a src gst::Element
Non-src GstElements (like sinks and filters) are automatically set to
playing by the Harness, but src GstElements are not to avoid them
starting to produce buffers.
Hence, for src gst::Element you must call Harness::play explicitly.
MT safe.
Pulls a gst::Buffer from the glib::AsyncQueue on the Harness sinkpad. The pull
will timeout in 60 seconds. This is the standard way of getting a buffer
from a harnessed gst::Element.
MT safe.
Returns
a gst::Buffer or None if timed out.
Pulls an gst::Event from the glib::AsyncQueue on the Harness sinkpad.
Timeouts after 60 seconds similar to gst_harness_pull.
MT safe.
Returns
a gst::Event or None if timed out.
Pulls an gst::Event from the glib::AsyncQueue on the Harness srcpad.
Timeouts after 60 seconds similar to gst_harness_pull.
MT safe.
Returns
a gst::Event or None if timed out.
Pushes a gst::Buffer on the Harness srcpad. The standard way of
interacting with an harnessed element.
MT safe.
buffer
a gst::Buffer to push
Returns
a gst::FlowReturn with the result from the push
Basically a gst_harness_push and a gst_harness_pull in one line. Reflects the fact that you often want to do exactly this in your test: Push one buffer in, and inspect the outcome.
MT safe.
buffer
a gst::Buffer to push
Returns
a gst::Buffer or None if timed out.
Pushes an gst::Event on the Harness srcpad.
MT safe.
event
a gst::Event to push
Returns
a gboolean with the result from the push
Transfer data from the src-Harness to the main-Harness. It consists
of 4 steps:
1: Make sure the src is started. (see: gst_harness_play)
2: Crank the clock (see: gst_harness_crank_single_clock_wait)
3: Pull a gst::Buffer from the src-Harness (see: gst_harness_pull)
4: Push the same gst::Buffer into the main-Harness (see: gst_harness_push)
MT safe.
Returns
a gst::FlowReturn with the result of the push
Transfer one gst::Buffer from the main-Harness to the sink-Harness.
See gst_harness_push_from_src for details.
MT safe.
Returns
a gst::FlowReturn with the result of the push
Pushes an gst::Event on the Harness sinkpad.
MT safe.
event
a gst::Event to push
Returns
a gboolean with the result from the push
Get the min latency reported by any harnessed gst::Element.
MT safe.
Returns
a gst::ClockTime with min latency
A convenience function to allows you to call g_object_set on a gst::Element
that are residing inside the Harness, by using normal g_object_set
syntax.
MT safe.
element_name
a gchar with a gst::ElementFactory name
first_property_name
a gchar with the first property name
Setting this will make the harness block in the chain-function, and
then release when Harness::pull or Harness::try_pull is called.
Can be useful when wanting to control a src-element that is not implementing
gst::Clock::id_wait so it can't be controlled by the TestClock, since
it otherwise would produce buffers as fast as possible.
MT safe.
Sets the Harness srcpad and sinkpad caps.
MT safe.
in_
a gst::Caps to set on the harness srcpad
out
a gst::Caps to set on the harness sinkpad
Sets the Harness srcpad and sinkpad caps using strings.
MT safe.
in_
a gchar describing a gst::Caps to set on the harness srcpad
out
a gchar describing a gst::Caps to set on the harness sinkpad
When set to true, instead of placing the buffers arriving from the harnessed
gst::Element inside the sinkpads glib::AsyncQueue, they are instead unreffed.
MT safe.
drop_buffers
a gboolean specifying to drop outgoing buffers or not
As a convenience, a src-harness will forward gst::EventType::StreamStart,
gst::EventType::Caps and gst::EventType::Segment to the main-harness if forwarding
is enabled, and forward any sticky-events from the main-harness to
the sink-harness. It will also forward the gst::QueryType::Allocation.
If forwarding is disabled, the user will have to either manually push
these events from the src-harness using Harness::src_push_event, or
create and push them manually. While this will allow full control and
inspection of these events, for the most cases having forwarding enabled
will be sufficient when writing a test where the src-harness' main function
is providing data for the main-harness.
Forwarding is enabled by default.
MT safe.
forwarding
a gboolean to enable/disable forwarding
Sets the allocator and params to propose when receiving an allocation
query.
MT safe.
allocator
a gst::Allocator
params
a gst::AllocationParams
Sets the Harness sinkpad caps.
MT safe.
caps
a gst::Caps to set on the harness sinkpad
Sets the Harness sinkpad caps using a string.
MT safe.
str
a gchar describing a gst::Caps to set on the harness sinkpad
Sets the Harness srcpad caps. This must be done before any buffers
can legally be pushed from the harness to the element.
MT safe.
caps
a gst::Caps to set on the harness srcpad
Sets the Harness srcpad caps using a string. This must be done before
any buffers can legally be pushed from the harness to the element.
MT safe.
str
a gchar describing a gst::Caps to set on the harness srcpad
Advance the TestClock to a specific time.
MT safe.
time
a gst::ClockTime to advance the clock to
Returns
a gboolean true if the time could be set. false if not.
Sets the min latency reported by Harness when receiving a latency-query
latency
a gst::ClockTime specifying the latency
Convenience that calls gst_harness_push_to_sink pushes number of times.
Will abort the pushing if any one push fails.
MT safe.
pushes
a gint with the number of calls to gst_harness_push_to_sink
Returns
a gst::FlowReturn with the result of the push
Transfer data from the src-Harness to the main-Harness. Similar to
gst_harness_push_from_src, this variant allows you to specify how many cranks
and how many pushes to perform. This can be useful for both moving a lot
of data at the same time, as well as cases when one crank does not equal one
buffer to push and v.v.
MT safe.
cranks
a gint with the number of calls to gst_harness_crank_single_clock_wait
pushes
a gint with the number of calls to gst_harness_push
Returns
a gst::FlowReturn with the result of the push
Similar to what gst_harness_src_push does with GstBuffers, this transfers
a gst::Event from the src-Harness to the main-Harness. Note that
some GstEvents are being transferred automagically. Look at sink_forward_pad
for details.
MT safe.
Returns
a gboolean with the result of the push
Start a custom stress-thread that will call your callback for every
iteration allowing you to do something nasty.
MT safe.
init
a GFunc that is called initially and only once
callback
a GFunc that is called as often as possible
data
a gpointer with custom data to pass to the callback function
sleep
a gulong specifying how long to sleep in (microseconds) for
each call to the callback
Returns
a HarnessThread
Call g_object_set with name and value in intervals of sleep microseconds
MT safe.
name
a gchar specifying a property name
value
a gobject::Value to set the property to
sleep
a gulong specifying how long to sleep in (microseconds) for
each g_object_set with name and value
Returns
a HarnessThread
Push a gst::Buffer in intervals of sleep microseconds.
MT safe.
caps
a gst::Caps for the gst::Buffer
segment
a gst::Segment
buf
a gst::Buffer to push
sleep
a gulong specifying how long to sleep in (microseconds) for
each call to gst_pad_push
Returns
a HarnessThread
Push a gst::Buffer returned by func in intervals of sleep microseconds.
MT safe.
caps
a gst::Caps for the gst::Buffer
segment
a gst::Segment
func
a GstHarnessPrepareBufferFunc function called before every iteration
to prepare / create a gst::Buffer for pushing
data
a gpointer with data to the GstHarnessPrepareBufferFunc function
notify
a GDestroyNotify that is called when thread is stopped
sleep
a gulong specifying how long to sleep in (microseconds) for
each call to gst_pad_push
Returns
a HarnessThread
Push the event onto the harnessed gst::Element sinkpad in intervals of
sleep microseconds
MT safe.
event
a gst::Event to push
sleep
a gulong specifying how long to sleep in (microseconds) for
each gst_event_push with event
Returns
a HarnessThread
Push a gst::Event returned by func onto the harnessed gst::Element sinkpad
in intervals of sleep microseconds.
MT safe.
func
a GstHarnessPrepareEventFunc function called before every iteration
to prepare / create a gst::Event for pushing
data
a gpointer with data to the GstHarnessPrepareEventFunc function
notify
a GDestroyNotify that is called when thread is stopped
sleep
a gulong specifying how long to sleep in (microseconds) for
each call to gst_pad_push
Returns
a HarnessThread
Push the event onto the harnessed gst::Element srcpad in intervals of
sleep microseconds.
MT safe.
event
a gst::Event to push
sleep
a gulong specifying how long to sleep in (microseconds) for
each gst_event_push with event
Returns
a HarnessThread
Push a gst::Event returned by func onto the harnessed gst::Element srcpad
in intervals of sleep microseconds.
MT safe.
func
a GstHarnessPrepareEventFunc function called before every iteration
to prepare / create a gst::Event for pushing
data
a gpointer with data to the GstHarnessPrepareEventFunc function
notify
a GDestroyNotify that is called when thread is stopped
sleep
a gulong specifying how long to sleep in (microseconds) for
each call to gst_pad_push
Returns
a HarnessThread
Call gst_element_request_pad in intervals of sleep microseconds
MT safe.
templ
a gst::PadTemplate
name
a gchar
caps
a gst::Caps
release
a gboolean
sleep
a gulong specifying how long to sleep in (microseconds) for
each gst_element_request_pad
Returns
a HarnessThread
Change the state of your harnessed gst::Element from NULL to PLAYING and
back again, only pausing for sleep microseconds every time.
MT safe.
sleep
a gulong specifying how long to sleep in (microseconds) for
each state-change
Returns
a HarnessThread
Pulls all pending data from the harness and returns it as a single data slice.
Feature: v1_14
size
the size of the data in bytes
Returns
a pointer to the data, newly allocated. Free
with g_free when no longer needed. Will return None if there is no
data.
Pulls all pending data from the harness and returns it as a single buffer.
Feature: v1_14
Returns
the data as a buffer. Unref with gst_buffer_unref
when no longer needed.
Pulls all pending data from the harness and returns it as a single glib::Bytes.
Feature: v1_14
Returns
a pointer to the data, newly allocated. Free
with g_free when no longer needed.
Tears down a Harness, freeing all resources allocated using it.
MT safe.
Pulls a gst::Buffer from the glib::AsyncQueue on the Harness sinkpad. Unlike
gst_harness_pull this will not wait for any buffers if not any are present,
and return None straight away.
MT safe.
Returns
a gst::Buffer or None if no buffers are present in the glib::AsyncQueue
Pulls an gst::Event from the glib::AsyncQueue on the Harness sinkpad.
See gst_harness_try_pull for details.
MT safe.
Returns
a gst::Event or None if no buffers are present in the glib::AsyncQueue
Pulls an gst::Event from the glib::AsyncQueue on the Harness srcpad.
See gst_harness_try_pull for details.
MT safe.
Returns
a gst::Event or None if no buffers are present in the glib::AsyncQueue
The number of GstEvents currently in the Harness srcpad glib::AsyncQueue
MT safe.
Returns
a guint number of events in the queue
The total number of GstEvents that has arrived on the Harness srcpad
This number includes events handled by the harness as well as events
that have already been pulled out.
MT safe.
Returns
a guint number of events received
Sets the system gst::Clock on the Harness gst::Element
MT safe.
Sets the TestClock on the Harness gst::Element
MT safe.
Waits for timeout seconds until waits number of gst::ClockID waits is
registered with the TestClock. Useful for writing deterministic tests,
where you want to make sure that an expected number of waits have been
reached.
MT safe.
waits
a guint describing the numbers of gst::ClockID registered with
the TestClock
timeout
a guint describing how many seconds to wait for waits to be true
Returns
a gboolean true if the waits have been registered, false if not.
(Could be that it timed out waiting or that more waits than waits was found)
Creates a new harness. Works like Harness::new_with_padnames, except it
assumes the gst::Element sinkpad is named "sink" and srcpad is named "src"
MT safe.
element_name
a gchar describing the gst::Element name
Returns
a Harness, or None if the harness could
not be created
Creates a new empty harness. Use Harness::add_element_full to add
an gst::Element to it.
MT safe.
Returns
a Harness, or None if the harness could
not be created
Creates a new harness.
MT safe.
element
a gst::Element to attach the harness to (transfer none)
hsrc
a gst::StaticPadTemplate describing the harness srcpad.
None will not create a harness srcpad.
element_sinkpad_name
a gchar with the name of the element
sinkpad that is then linked to the harness srcpad. Can be a static or request
or a sometimes pad that has been added. None will not get/request a sinkpad
from the element. (Like if the element is a src.)
hsink
a gst::StaticPadTemplate describing the harness sinkpad.
None will not create a harness sinkpad.
element_srcpad_name
a gchar with the name of the element
srcpad that is then linked to the harness sinkpad, similar to the
element_sinkpad_name.
Returns
a Harness, or None if the harness could
not be created
Creates a new harness, parsing the launchline and putting that in a gst::Bin,
and then attches the harness to the bin.
MT safe.
launchline
a gchar describing a gst-launch type line
Returns
a Harness, or None if the harness could
not be created
Creates a new harness. Works in the same way as Harness::new_full, only
that generic padtemplates are used for the harness src and sinkpads, which
will be sufficient in most usecases.
MT safe.
element
a gst::Element to attach the harness to (transfer none)
element_sinkpad_name
a gchar with the name of the element
sinkpad that is then linked to the harness srcpad. None does not attach a
sinkpad
element_srcpad_name
a gchar with the name of the element
srcpad that is then linked to the harness sinkpad. None does not attach a
srcpad
Returns
a Harness, or None if the harness could
not be created
Creates a new harness. Works like Harness::new_with_element,
except you specify the factoryname of the gst::Element
MT safe.
element_name
a gchar describing the gst::Element name
element_sinkpad_name
a gchar with the name of the element
sinkpad that is then linked to the harness srcpad. None does not attach a
sinkpad
element_srcpad_name
a gchar with the name of the element
srcpad that is then linked to the harness sinkpad. None does not attach a
srcpad
Returns
a Harness, or None if the harness could
not be created
Creates a new harness, like Harness::new_full, except it
assumes the gst::Element sinkpad is named "sink" and srcpad is named "src"
MT safe.
element_name
a gchar describing the gst::Element name
hsrc
a gst::StaticPadTemplate describing the harness srcpad.
None will not create a harness srcpad.
hsink
a gst::StaticPadTemplate describing the harness sinkpad.
None will not create a harness sinkpad.
Returns
a Harness, or None if the harness could
not be created
Stop the running HarnessThread
MT safe.
t
a HarnessThread
GstTestClock is an implementation of gst::Clock which has different
behaviour compared to gst::SystemClock. Time for gst::SystemClock advances
according to the system time, while time for TestClock changes only
when TestClock::set_time or TestClock::advance_time are
called. TestClock provides unit tests with the possibility to
precisely advance the time in a deterministic manner, independent of the
system time or any other external factors.
Advancing the time of a TestClock
#include <gst/gst.h>
#include <gst/check/gsttestclock.h>
GstClock *clock;
GstTestClock *test_clock;
clock = gst_test_clock_new ();
test_clock = GST_TEST_CLOCK (clock);
GST_INFO ("Time: %" GST_TIME_FORMAT, GST_TIME_ARGS (gst_clock_get_time (clock)));
gst_test_clock_advance_time ( test_clock, 1 * GST_SECOND);
GST_INFO ("Time: %" GST_TIME_FORMAT, GST_TIME_ARGS (gst_clock_get_time (clock)));
g_usleep (10 * G_USEC_PER_SEC);
GST_INFO ("Time: %" GST_TIME_FORMAT, GST_TIME_ARGS (gst_clock_get_time (clock)));
gst_test_clock_set_time (test_clock, 42 * GST_SECOND);
GST_INFO ("Time: %" GST_TIME_FORMAT, GST_TIME_ARGS (gst_clock_get_time (clock)));
...
gst::Clock allows for setting up single shot or periodic clock notifications
as well as waiting for these notifications synchronously (using
gst::Clock::id_wait) or asynchronously (using gst::Clock::id_wait_async or
gst::Clock::id_wait_async). This is used by many GStreamer elements,
among them GstBaseSrc and GstBaseSink.
TestClock keeps track of these clock notifications. By calling
TestClock::wait_for_next_pending_id or
TestClock::wait_for_multiple_pending_ids a unit tests may wait for the
next one or several clock notifications to be requested. Additionally unit
tests may release blocked waits in a controlled fashion by calling
TestClock::process_next_clock_id. This way a unit test can control the
inaccuracy (jitter) of clock notifications, since the test can decide to
release blocked waits when the clock time has advanced exactly to, or past,
the requested clock notification time.
There are also interfaces for determining if a notification belongs to a
TestClock or not, as well as getting the number of requested clock
notifications so far.
N.B.: When a unit test waits for a certain amount of clock notifications to
be requested in TestClock::wait_for_next_pending_id or
TestClock::wait_for_multiple_pending_ids then these functions may block
for a long time. If they block forever then the expected clock notifications
were never requested from TestClock, and so the assumptions in the code
of the unit test are wrong. The unit test case runner in gstcheck is
expected to catch these cases either by the default test case timeout or the
one set for the unit test by calling tcase_set_timeout().
The sample code below assumes that the element under test will delay a
buffer pushed on the source pad by some latency until it arrives on the sink
pad. Moreover it is assumed that the element will at some point call
gst::Clock::id_wait to synchronously wait for a specific time. The first
buffer sent will arrive exactly on time only delayed by the latency. The
second buffer will arrive a little late (7ms) due to simulated jitter in the
clock notification.
Demonstration of how to work with clock notifications and TestClock
#include <gst/gst.h>
#include <gst/check/gstcheck.h>
#include <gst/check/gsttestclock.h>
GstClockTime latency;
GstElement *element;
GstPad *srcpad;
GstClock *clock;
GstTestClock *test_clock;
GstBuffer buf;
GstClockID pending_id;
GstClockID processed_id;
latency = 42 * GST_MSECOND;
element = create_element (latency, ...);
srcpad = get_source_pad (element);
clock = gst_test_clock_new ();
test_clock = GST_TEST_CLOCK (clock);
gst_element_set_clock (element, clock);
GST_INFO ("Set time, create and push the first buffer\n");
gst_test_clock_set_time (test_clock, 0);
buf = create_test_buffer (gst_clock_get_time (clock), ...);
gst_assert_cmpint (gst_pad_push (srcpad, buf), ==, GST_FLOW_OK);
GST_INFO ("Block until element is waiting for a clock notification\n");
gst_test_clock_wait_for_next_pending_id (test_clock, &pending_id);
GST_INFO ("Advance to the requested time of the clock notification\n");
gst_test_clock_advance_time (test_clock, latency);
GST_INFO ("Release the next blocking wait and make sure it is the one from element\n");
processed_id = gst_test_clock_process_next_clock_id (test_clock);
g_assert (processed_id == pending_id);
g_assert_cmpint (GST_CLOCK_ENTRY_STATUS (processed_id), ==, GST_CLOCK_OK);
gst_clock_id_unref (pending_id);
gst_clock_id_unref (processed_id);
GST_INFO ("Validate that element produced an output buffer and check its timestamp\n");
g_assert_cmpint (get_number_of_output_buffer (...), ==, 1);
buf = get_buffer_pushed_by_element (element, ...);
g_assert_cmpint (GST_BUFFER_TIMESTAMP (buf), ==, latency);
gst_buffer_unref (buf);
GST_INFO ("Check that element does not wait for any clock notification\n");
g_assert (!gst_test_clock_peek_next_pending_id (test_clock, NULL));
GST_INFO ("Set time, create and push the second buffer\n");
gst_test_clock_advance_time (test_clock, 10 * GST_SECOND);
buf = create_test_buffer (gst_clock_get_time (clock), ...);
gst_assert_cmpint (gst_pad_push (srcpad, buf), ==, GST_FLOW_OK);
GST_INFO ("Block until element is waiting for a new clock notification\n");
(gst_test_clock_wait_for_next_pending_id (test_clock, &pending_id);
GST_INFO ("Advance past 7ms beyond the requested time of the clock notification\n");
gst_test_clock_advance_time (test_clock, latency + 7 * GST_MSECOND);
GST_INFO ("Release the next blocking wait and make sure it is the one from element\n");
processed_id = gst_test_clock_process_next_clock_id (test_clock);
g_assert (processed_id == pending_id);
g_assert_cmpint (GST_CLOCK_ENTRY_STATUS (processed_id), ==, GST_CLOCK_OK);
gst_clock_id_unref (pending_id);
gst_clock_id_unref (processed_id);
GST_INFO ("Validate that element produced an output buffer and check its timestamp\n");
g_assert_cmpint (get_number_of_output_buffer (...), ==, 1);
buf = get_buffer_pushed_by_element (element, ...);
g_assert_cmpint (GST_BUFFER_TIMESTAMP (buf), ==,
10 * GST_SECOND + latency + 7 * GST_MSECOND);
gst_buffer_unref (buf);
GST_INFO ("Check that element does not wait for any clock notification\n");
g_assert (!gst_test_clock_peek_next_pending_id (test_clock, NULL));
...
Since TestClock is only supposed to be used in unit tests it calls
g_assert, g_assert_cmpint or g_assert_cmpuint to validate all function
arguments. This will highlight any issues with the unit test code itself.
Implements
gst::ClockExt, gst::ObjectExt, glib::object::ObjectExt
Creates a new test clock with its time set to zero.
MT safe.
Returns
a TestClock cast to gst::Clock.
Creates a new test clock with its time set to the specified time.
MT safe.
start_time
a gst::ClockTime set to the desired start time of the clock.
Returns
a TestClock cast to gst::Clock.
Finds the latest time inside the list.
MT safe.
pending_list
List
of of pending GstClockIDs
Advances the time of the self by the amount given by delta. The
time of self is monotonically increasing, therefore providing a
delta which is negative or zero is a programming error.
MT safe.
delta
a positive gst::ClockTimeDiff to be added to the time of the clock
A "crank" consists of three steps:
1: Wait for a gst::ClockID to be registered with the TestClock.
2: Advance the TestClock to the time the gst::ClockID is waiting for.
3: Release the gst::ClockID wait.
A "crank" can be though of as the notion of
manually driving the clock forward to its next logical step.
Returns
true if the crank was successful, false otherwise.
MT safe.
Retrieve the requested time for the next pending clock notification.
MT safe.
Returns
a gst::ClockTime set to the time of the next pending clock
notification. If no clock notifications have been requested
GST_CLOCK_TIME_NONE will be returned.
Checks whether self was requested to provide the clock notification
given by id.
MT safe.
id
a gst::ClockID clock notification
Returns
true if the clock has been asked to provide the given clock
notification, false otherwise.
Determine the number of pending clock notifications that have been
requested from the self.
MT safe.
Returns
the number of pending clock notifications.
Determines if the pending_id is the next clock notification scheduled to
be triggered given the current time of the self.
MT safe.
pending_id
a gst::ClockID clock
notification to look for
Returns
true if pending_id is the next clock notification to be
triggered, false otherwise.
Processes and releases the pending IDs in the list.
MT safe.
pending_list
List
of pending GstClockIDs
MT safe.
Returns
a gst::ClockID containing the next pending clock
notification.
Sets the time of self to the time given by new_time. The time of
self is monotonically increasing, therefore providing a new_time
which is earlier or equal to the time of the clock as given by
gst::ClockExt::get_time is a programming error.
MT safe.
new_time
a gst::ClockTime later than that returned by gst::ClockExt::get_time
Blocks until at least count clock notifications have been requested from
self, or the timeout expires.
MT safe.
Feature: v1_16
count
the number of pending clock notifications to wait for
timeout_ms
the timeout in milliseconds
pending_list
Address
of a glib::List pointer variable to store the list of pending GstClockIDs
that expired, or None
Returns
a gboolean true if the waits have been registered, false if not.
(Could be that it timed out waiting or that more waits than waits was found)
Blocks until at least count clock notifications have been requested from
self. There is no timeout for this wait, see the main description of
TestClock.
MT safe.
count
the number of pending clock notifications to wait for
pending_list
Address
of a glib::List pointer variable to store the list of pending GstClockIDs
that expired, or None
Waits until a clock notification is requested from self. There is no
timeout for this wait, see the main description of TestClock. A reference
to the pending clock notification is stored in pending_id.
MT safe.
pending_id
gst::ClockID
with information about the pending clock notification
Blocks until at least count clock notifications have been requested from
self. There is no timeout for this wait, see the main description of
TestClock.
Deprecated
use TestClock::wait_for_multiple_pending_ids instead.
count
the number of pending clock notifications to wait for
When a TestClock is constructed it will have a certain start time set.
If the clock was created using TestClock::new_with_start_time then
this property contains the value of the start_time argument. If
TestClock::new was called the clock started at time zero, and thus
this property contains the value 0.
When a TestClock is constructed it will have a certain start time set.
If the clock was created using TestClock::new_with_start_time then
this property contains the value of the start_time argument. If
TestClock::new was called the clock started at time zero, and thus
this property contains the value 0.