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-rw-r--r--src/libcamera/pipeline/simple/simple.cpp91
1 files changed, 50 insertions, 41 deletions
diff --git a/src/libcamera/pipeline/simple/simple.cpp b/src/libcamera/pipeline/simple/simple.cpp
index d7128156..cdf7e3ee 100644
--- a/src/libcamera/pipeline/simple/simple.cpp
+++ b/src/libcamera/pipeline/simple/simple.cpp
@@ -15,6 +15,7 @@
#include <set>
#include <string>
#include <string.h>
+#include <unordered_map>
#include <utility>
#include <vector>
@@ -271,63 +272,71 @@ SimpleCameraData::SimpleCameraData(SimplePipelineHandler *pipe,
int ret;
/*
- * Walk the pipeline towards the video node and store all entities
- * along the way.
+ * Find the shortest path from the camera sensor to a video capture
+ * device using the breadth-first search algorithm. This heuristic will
+ * be most likely to skip paths that aren't suitable for the simple
+ * pipeline handler on more complex devices, and is guaranteed to
+ * produce a valid path on all devices that have a single option.
+ *
+ * For instance, on the IPU-based i.MX6Q, the shortest path will skip
+ * encoders and image converters, and will end in a CSI capture device.
*/
- MediaEntity *source = sensor;
+ std::unordered_set<MediaEntity *> visited;
+ std::queue<MediaEntity *> queue;
- while (source) {
- /* If we have reached a video node, we're done. */
- if (source->function() == MEDIA_ENT_F_IO_V4L)
- break;
+ /* Remember at each entity where we came from. */
+ std::unordered_map<MediaEntity *, Entity> parents;
+ queue.push(sensor);
- /*
- * Use the first output pad that has links and follow its first
- * link.
- */
- MediaPad *sourcePad = nullptr;
- MediaLink *sourceLink = nullptr;
- for (MediaPad *pad : source->pads()) {
- if ((pad->flags() & MEDIA_PAD_FL_SOURCE) &&
- !pad->links().empty()) {
- sourcePad = pad;
- sourceLink = pad->links().front();
- break;
- }
- }
+ MediaEntity *entity = nullptr;
- if (!sourcePad)
- return;
+ while (!queue.empty()) {
+ entity = queue.back();
+ queue.pop();
- entities_.push_back({ source, sourceLink });
+ /* Found the capture device. */
+ if (entity->function() == MEDIA_ENT_F_IO_V4L) {
+ LOG(SimplePipeline, Debug)
+ << "Found capture device " << entity->name();
+ video_ = pipe->video(entity);
+ break;
+ }
- source = sourceLink->sink()->entity();
+ /* The actual breadth-first search algorithm. */
+ visited.insert(entity);
+ for (MediaPad *pad : entity->pads()) {
+ if (!(pad->flags() & MEDIA_PAD_FL_SOURCE))
+ continue;
- /* Avoid infinite loops. */
- auto iter = std::find_if(entities_.begin(), entities_.end(),
- [&](const Entity &entity) {
- return entity.entity == source;
- });
- if (iter != entities_.end()) {
- LOG(SimplePipeline, Info) << "Loop detected in pipeline";
- return;
+ for (MediaLink *link : pad->links()) {
+ MediaEntity *next = link->sink()->entity();
+ if (visited.find(next) == visited.end()) {
+ queue.push(next);
+ parents.insert({ next, { entity, link } });
+ }
+ }
}
}
- /*
- * We have a valid pipeline, get the video device and create the camera
- * sensor.
- */
- video_ = pipe->video(source);
if (!video_)
return;
+ /*
+ * With the parents, we can follow back our way from the capture device
+ * to the sensor.
+ */
+ for (auto it = parents.find(entity); it != parents.end();
+ it = parents.find(entity)) {
+ const Entity &e = it->second;
+ entities_.push_front(e);
+ entity = e.entity;
+ }
+
+ /* Finally also remember the sensor. */
sensor_ = std::make_unique<CameraSensor>(sensor);
ret = sensor_->init();
- if (ret) {
+ if (ret)
sensor_.reset();
- return;
- }
}
int SimpleCameraData::init()