2 files changed, 38 insertions, 40 deletions
diff --git a/toxav/rtp.c b/toxav/rtp.c
index ca4a4a7b..61297937 100644
--- a/toxav/rtp.c
+++ b/toxav/rtp.c
@@ -35,13 +35,11 @@
 #include "../toxcore/mono_time.h"
 #include "../toxcore/util.h"
-enum {
+/**
-    /**
+ * The number of milliseconds we want to keep a keyframe in the buffer for,
-     * The number of milliseconds we want to keep a keyframe in the buffer for,
+ * even though there are no free slots for incoming frames.
-     * even though there are no free slots for incoming frames.
+ */
-     */
+#define VIDEO_KEEP_KEYFRAME_IN_BUFFER_FOR_MS 15
-    VIDEO_KEEP_KEYFRAME_IN_BUFFER_FOR_MS = 15,
-};
 // allocate_len is NOT including header!
 static struct RTPMessage *new_message(const struct RTPHeader *header, size_t allocate_len, const uint8_t *data,
@@ -60,16 +58,15 @@ static struct RTPMessage *new_message(const struct RTPHeader *header, size_t all
    return msg;
 }
-enum {
+/**
-    /**
+ * Instruct the caller to clear slot 0.
-     * Instruct the caller to clear slot 0.
+ */
-     */
+#define GET_SLOT_RESULT_DROP_OLDEST_SLOT (-1)
-    GET_SLOT_RESULT_DROP_OLDEST_SLOT = -1,
-    /**
+/**
-     * Instruct the caller to drop the incoming packet.
+ * Instruct the caller to drop the incoming packet.
-     */
+ */
-    GET_SLOT_RESULT_DROP_INCOMING = -2,
+#define GET_SLOT_RESULT_DROP_INCOMING (-2)
-};
 /**
 * Find the next free slot in work_buffer for the incoming data packet.
@@ -89,7 +86,7 @@ static int8_t get_slot(const Logger *log, struct RTPWorkBufferList *wkbl, bool i
    if (is_multipart) {
        // This RTP message is part of a multipart frame, so we try to find an
        // existing slot with the previous parts of the frame in it.
-        for (uint8_t i = 0; i < wkbl->next_free_entry; i++) {
+        for (uint8_t i = 0; i < wkbl->next_free_entry; ++i) {
            const struct RTPWorkBuffer *slot = &wkbl->work_buffer[i];
            if ((slot->buf->header.sequnum == header->sequnum) && (slot->buf->header.timestamp == header->timestamp)) {
@@ -228,14 +225,14 @@ static struct RTPMessage *process_frame(const Logger *log, struct RTPWorkBufferL
    if (slot_id != wkbl->next_free_entry - 1) {
        // The slot is not the last slot, so we created a gap. We move all the
        // entries after it one step up.
-        for (uint8_t i = slot_id; i < wkbl->next_free_entry - 1; i++) {
+        for (uint8_t i = slot_id; i < wkbl->next_free_entry - 1; ++i) {
            // Move entry (i+1) into entry (i).
            wkbl->work_buffer[i] = wkbl->work_buffer[i + 1];
        }
    }
    // We now have a free entry at the end of the array.
-    wkbl->next_free_entry--;
+    --wkbl->next_free_entry;
    // Clear the newly freed entry.
    const struct RTPWorkBuffer empty = {0};
@@ -290,7 +287,7 @@ static bool fill_data_into_slot(const Logger *log, struct RTPWorkBufferList *wkb
        slot->received_len = 0;
        assert(wkbl->next_free_entry < USED_RTP_WORKBUFFER_COUNT);
-        wkbl->next_free_entry++;
+        ++wkbl->next_free_entry;
    }
    // We already checked this when we received the packet, but we rely on it
@@ -317,7 +314,7 @@ static bool fill_data_into_slot(const Logger *log, struct RTPWorkBufferList *wkb
 static void update_bwc_values(const Logger *log, RTPSession *session, const struct RTPMessage *msg)
 {
    if (session->first_packets_counter < DISMISS_FIRST_LOST_VIDEO_PACKET_COUNT) {
-        session->first_packets_counter++;
+        ++session->first_packets_counter;
    } else {
        uint32_t data_length_full = msg->header.data_length_full; // without header
        uint32_t received_length_full = msg->header.received_length_full; // without header
@@ -586,12 +583,14 @@ NEW_MULTIPARTED:
 size_t rtp_header_pack(uint8_t *const rdata, const struct RTPHeader *header)
 {
    uint8_t *p = rdata;
-    *p++ = (header->ve & 3) << 6
+    *p = (header->ve & 3) << 6
-           | (header->pe & 1) << 5
+         | (header->pe & 1) << 5
-           | (header->xe & 1) << 4
+         | (header->xe & 1) << 4
-           | (header->cc & 0xf);
+         | (header->cc & 0xf);
-    *p++ = (header->ma & 1) << 7
+    ++p;
-           | (header->pt & 0x7f);
+    *p = (header->ma & 1) << 7
+         | (header->pt & 0x7f);
+    ++p;
    p += net_pack_u16(p, header->sequnum);
    p += net_pack_u32(p, header->timestamp);
@@ -601,7 +600,7 @@ size_t rtp_header_pack(uint8_t *const rdata, const struct RTPHeader *header)
    p += net_pack_u32(p, header->data_length_full);
    p += net_pack_u32(p, header->received_length_full);
-    for (size_t i = 0; i < RTP_PADDING_FIELDS; i++) {
+    for (size_t i = 0; i < RTP_PADDING_FIELDS; ++i) {
        p += net_pack_u32(p, 0);
    }
@@ -640,10 +639,8 @@ size_t rtp_header_unpack(const uint8_t *data, struct RTPHeader *header)
    return p - data;
 }
 RTPSession *rtp_new(int payload_type, Messenger *m, uint32_t friendnumber,
-                    BWController *bwc, void *cs,
+                    BWController *bwc, void *cs, rtp_m_cb *mcb)
-                    int (*mcb)(void *, struct RTPMessage *))
 {
    assert(mcb != nullptr);
    assert(cs != nullptr);
@@ -851,6 +848,6 @@ int rtp_send_data(RTPSession *session, const uint8_t *data, uint32_t length,
        }
    }
-    session->sequnum ++;
+    ++session->sequnum;
    return 0;
 }
diff --git a/toxav/rtp.h b/toxav/rtp.h
index e1cf7950..225f4c03 100644
--- a/toxav/rtp.h
+++ b/toxav/rtp.h
@@ -45,16 +45,16 @@ extern "C" {
 /**
 * Payload type identifier. Also used as rtp callback prefix.
 */
-enum {
+typedef enum RTP_Type {
    RTP_TYPE_AUDIO = 192,
    RTP_TYPE_VIDEO = 193,
-};
+} RTP_Type;
 /**
 * A bit mask (up to 64 bits) specifying features of the current frame affecting
 * the behaviour of the decoder.
 */
-enum RTPFlags {
+typedef enum RTPFlags {
    /**
     * Support frames larger than 64KiB. The full 32 bit length and offset are
     * set in \ref RTPHeader::data_length_full and \ref RTPHeader::offset_full.
@@ -64,7 +64,7 @@ enum RTPFlags {
     * Whether the packet is part of a key frame.
     */
    RTP_KEY_FRAME = 1 << 1,
-};
+} RTPFlags;
 struct RTPHeader {
@@ -159,6 +159,8 @@ struct RTPWorkBufferList {
 #define DISMISS_FIRST_LOST_VIDEO_PACKET_COUNT 10
+typedef int rtp_m_cb(void *cs, struct RTPMessage *msg);
 /**
 * RTP control session.
 */
@@ -175,7 +177,7 @@ typedef struct RTPSession {
    uint32_t friend_number;
    BWController *bwc;
    void *cs;
-    int (*mcb)(void *, struct RTPMessage *msg);
+    rtp_m_cb *mcb;
 } RTPSession;
@@ -198,8 +200,7 @@ size_t rtp_header_pack(uint8_t *rdata, const struct RTPHeader *header);
 size_t rtp_header_unpack(const uint8_t *data, struct RTPHeader *header);
 RTPSession *rtp_new(int payload_type, Messenger *m, uint32_t friendnumber,
-                    BWController *bwc, void *cs,
+                    BWController *bwc, void *cs, rtp_m_cb *mcb);
-                    int (*mcb)(void *, struct RTPMessage *));
 void rtp_kill(RTPSession *session);
 int rtp_allow_receiving(RTPSession *session);
 int rtp_stop_receiving(RTPSession *session);

diff --git a/toxav/rtp.c b/toxav/rtp.c index ca4a4a7b..61297937 100644 --- a/toxav/rtp.c +++ b/toxav/rtp.c
@@ -35,13 +35,11 @@
35	#include "../toxcore/mono_time.h"	35	#include "../toxcore/mono_time.h"
36	#include "../toxcore/util.h"	36	#include "../toxcore/util.h"
37		37
38	enum {	38	/**
39	/**	39	* The number of milliseconds we want to keep a keyframe in the buffer for,
40	* The number of milliseconds we want to keep a keyframe in the buffer for,	40	* even though there are no free slots for incoming frames.
41	* even though there are no free slots for incoming frames.	41	*/
42	*/	42	#define VIDEO_KEEP_KEYFRAME_IN_BUFFER_FOR_MS 15
43	VIDEO_KEEP_KEYFRAME_IN_BUFFER_FOR_MS = 15,
44	};
45		43
46	// allocate_len is NOT including header!	44	// allocate_len is NOT including header!
47	static struct RTPMessage new_message(const struct RTPHeader header, size_t allocate_len, const uint8_t *data,	45	static struct RTPMessage new_message(const struct RTPHeader header, size_t allocate_len, const uint8_t *data,
@@ -60,16 +58,15 @@ static struct RTPMessage new_message(const struct RTPHeader header, size_t all
60	return msg;	58	return msg;
61	}	59	}
62		60
63	enum {	61	/**
64	/**	62	* Instruct the caller to clear slot 0.
65	* Instruct the caller to clear slot 0.	63	*/
66	*/	64	#define GET_SLOT_RESULT_DROP_OLDEST_SLOT (-1)
67	GET_SLOT_RESULT_DROP_OLDEST_SLOT = -1,	65
68	/**	66	/**
69	* Instruct the caller to drop the incoming packet.	67	* Instruct the caller to drop the incoming packet.
70	*/	68	*/
71	GET_SLOT_RESULT_DROP_INCOMING = -2,	69	#define GET_SLOT_RESULT_DROP_INCOMING (-2)
72	};
73		70
74	/**	71	/**
75	* Find the next free slot in work_buffer for the incoming data packet.	72	* Find the next free slot in work_buffer for the incoming data packet.
@@ -89,7 +86,7 @@ static int8_t get_slot(const Logger log, struct RTPWorkBufferList wkbl, bool i
89	if (is_multipart) {	86	if (is_multipart) {
90	// This RTP message is part of a multipart frame, so we try to find an	87	// This RTP message is part of a multipart frame, so we try to find an
91	// existing slot with the previous parts of the frame in it.	88	// existing slot with the previous parts of the frame in it.
92	for (uint8_t i = 0; i < wkbl->next_free_entry; i++) {	89	for (uint8_t i = 0; i < wkbl->next_free_entry; ++i) {
93	const struct RTPWorkBuffer *slot = &wkbl->work_buffer[i];	90	const struct RTPWorkBuffer *slot = &wkbl->work_buffer[i];
94		91
95	if ((slot->buf->header.sequnum == header->sequnum) && (slot->buf->header.timestamp == header->timestamp)) {	92	if ((slot->buf->header.sequnum == header->sequnum) && (slot->buf->header.timestamp == header->timestamp)) {
@@ -228,14 +225,14 @@ static struct RTPMessage process_frame(const Logger log, struct RTPWorkBufferL
228	if (slot_id != wkbl->next_free_entry - 1) {	225	if (slot_id != wkbl->next_free_entry - 1) {
229	// The slot is not the last slot, so we created a gap. We move all the	226	// The slot is not the last slot, so we created a gap. We move all the
230	// entries after it one step up.	227	// entries after it one step up.
231	for (uint8_t i = slot_id; i < wkbl->next_free_entry - 1; i++) {	228	for (uint8_t i = slot_id; i < wkbl->next_free_entry - 1; ++i) {
232	// Move entry (i+1) into entry (i).	229	// Move entry (i+1) into entry (i).
233	wkbl->work_buffer[i] = wkbl->work_buffer[i + 1];	230	wkbl->work_buffer[i] = wkbl->work_buffer[i + 1];
234	}	231	}
235	}	232	}
236		233
237	// We now have a free entry at the end of the array.	234	// We now have a free entry at the end of the array.
238	wkbl->next_free_entry--;	235	--wkbl->next_free_entry;
239		236
240	// Clear the newly freed entry.	237	// Clear the newly freed entry.
241	const struct RTPWorkBuffer empty = {0};	238	const struct RTPWorkBuffer empty = {0};
@@ -290,7 +287,7 @@ static bool fill_data_into_slot(const Logger log, struct RTPWorkBufferList wkb
290	slot->received_len = 0;	287	slot->received_len = 0;
291		288
292	assert(wkbl->next_free_entry < USED_RTP_WORKBUFFER_COUNT);	289	assert(wkbl->next_free_entry < USED_RTP_WORKBUFFER_COUNT);
293	wkbl->next_free_entry++;	290	++wkbl->next_free_entry;
294	}	291	}
295		292
296	// We already checked this when we received the packet, but we rely on it	293	// We already checked this when we received the packet, but we rely on it
@@ -317,7 +314,7 @@ static bool fill_data_into_slot(const Logger log, struct RTPWorkBufferList wkb
317	static void update_bwc_values(const Logger log, RTPSession session, const struct RTPMessage *msg)	314	static void update_bwc_values(const Logger log, RTPSession session, const struct RTPMessage *msg)
318	{	315	{
319	if (session->first_packets_counter < DISMISS_FIRST_LOST_VIDEO_PACKET_COUNT) {	316	if (session->first_packets_counter < DISMISS_FIRST_LOST_VIDEO_PACKET_COUNT) {
320	session->first_packets_counter++;	317	++session->first_packets_counter;
321	} else {	318	} else {
322	uint32_t data_length_full = msg->header.data_length_full; // without header	319	uint32_t data_length_full = msg->header.data_length_full; // without header
323	uint32_t received_length_full = msg->header.received_length_full; // without header	320	uint32_t received_length_full = msg->header.received_length_full; // without header
@@ -586,12 +583,14 @@ NEW_MULTIPARTED:
586	size_t rtp_header_pack(uint8_t const rdata, const struct RTPHeader header)	583	size_t rtp_header_pack(uint8_t const rdata, const struct RTPHeader header)
587	{	584	{
588	uint8_t *p = rdata;	585	uint8_t *p = rdata;
589	*p++ = (header->ve & 3) << 6	586	*p = (header->ve & 3) << 6
590	\| (header->pe & 1) << 5	587	\| (header->pe & 1) << 5
591	\| (header->xe & 1) << 4	588	\| (header->xe & 1) << 4
592	\| (header->cc & 0xf);	589	\| (header->cc & 0xf);
593	*p++ = (header->ma & 1) << 7	590	++p;
594	\| (header->pt & 0x7f);	591	*p = (header->ma & 1) << 7
		592	\| (header->pt & 0x7f);
		593	++p;
595		594
596	p += net_pack_u16(p, header->sequnum);	595	p += net_pack_u16(p, header->sequnum);
597	p += net_pack_u32(p, header->timestamp);	596	p += net_pack_u32(p, header->timestamp);
@@ -601,7 +600,7 @@ size_t rtp_header_pack(uint8_t const rdata, const struct RTPHeader header)
601	p += net_pack_u32(p, header->data_length_full);	600	p += net_pack_u32(p, header->data_length_full);
602	p += net_pack_u32(p, header->received_length_full);	601	p += net_pack_u32(p, header->received_length_full);
603		602
604	for (size_t i = 0; i < RTP_PADDING_FIELDS; i++) {	603	for (size_t i = 0; i < RTP_PADDING_FIELDS; ++i) {
605	p += net_pack_u32(p, 0);	604	p += net_pack_u32(p, 0);
606	}	605	}
607		606
@@ -640,10 +639,8 @@ size_t rtp_header_unpack(const uint8_t data, struct RTPHeader header)
640	return p - data;	639	return p - data;
641	}	640	}
642		641
643
644	RTPSession rtp_new(int payload_type, Messenger m, uint32_t friendnumber,	642	RTPSession rtp_new(int payload_type, Messenger m, uint32_t friendnumber,
645	BWController bwc, void cs,	643	BWController bwc, void cs, rtp_m_cb *mcb)
646	int (mcb)(void , struct RTPMessage *))
647	{	644	{
648	assert(mcb != nullptr);	645	assert(mcb != nullptr);
649	assert(cs != nullptr);	646	assert(cs != nullptr);
@@ -851,6 +848,6 @@ int rtp_send_data(RTPSession session, const uint8_t data, uint32_t length,
851	}	848	}
852	}	849	}
853		850
854	session->sequnum ++;	851	++session->sequnum;
855	return 0;	852	return 0;
856	}	853	}


diff --git a/toxav/rtp.h b/toxav/rtp.h index e1cf7950..225f4c03 100644 --- a/toxav/rtp.h +++ b/toxav/rtp.h
@@ -45,16 +45,16 @@ extern "C" {
45	/**	45	/**
46	* Payload type identifier. Also used as rtp callback prefix.	46	* Payload type identifier. Also used as rtp callback prefix.
47	*/	47	*/
48	enum {	48	typedef enum RTP_Type {
49	RTP_TYPE_AUDIO = 192,	49	RTP_TYPE_AUDIO = 192,
50	RTP_TYPE_VIDEO = 193,	50	RTP_TYPE_VIDEO = 193,
51	};	51	} RTP_Type;
52		52
53	/**	53	/**
54	* A bit mask (up to 64 bits) specifying features of the current frame affecting	54	* A bit mask (up to 64 bits) specifying features of the current frame affecting
55	* the behaviour of the decoder.	55	* the behaviour of the decoder.
56	*/	56	*/
57	enum RTPFlags {	57	typedef enum RTPFlags {
58	/**	58	/**
59	* Support frames larger than 64KiB. The full 32 bit length and offset are	59	* Support frames larger than 64KiB. The full 32 bit length and offset are
60	* set in \ref RTPHeader::data_length_full and \ref RTPHeader::offset_full.	60	* set in \ref RTPHeader::data_length_full and \ref RTPHeader::offset_full.
@@ -64,7 +64,7 @@ enum RTPFlags {
64	* Whether the packet is part of a key frame.	64	* Whether the packet is part of a key frame.
65	*/	65	*/
66	RTP_KEY_FRAME = 1 << 1,	66	RTP_KEY_FRAME = 1 << 1,
67	};	67	} RTPFlags;
68		68
69		69
70	struct RTPHeader {	70	struct RTPHeader {
@@ -159,6 +159,8 @@ struct RTPWorkBufferList {
159		159
160	#define DISMISS_FIRST_LOST_VIDEO_PACKET_COUNT 10	160	#define DISMISS_FIRST_LOST_VIDEO_PACKET_COUNT 10
161		161
		162	typedef int rtp_m_cb(void cs, struct RTPMessage msg);
		163
162	/**	164	/**
163	* RTP control session.	165	* RTP control session.
164	*/	166	*/
@@ -175,7 +177,7 @@ typedef struct RTPSession {
175	uint32_t friend_number;	177	uint32_t friend_number;
176	BWController *bwc;	178	BWController *bwc;
177	void *cs;	179	void *cs;
178	int (mcb)(void , struct RTPMessage *msg);	180	rtp_m_cb *mcb;
179	} RTPSession;	181	} RTPSession;
180		182
181		183
@@ -198,8 +200,7 @@ size_t rtp_header_pack(uint8_t rdata, const struct RTPHeader header);
198	size_t rtp_header_unpack(const uint8_t data, struct RTPHeader header);	200	size_t rtp_header_unpack(const uint8_t data, struct RTPHeader header);
199		201
200	RTPSession rtp_new(int payload_type, Messenger m, uint32_t friendnumber,	202	RTPSession rtp_new(int payload_type, Messenger m, uint32_t friendnumber,
201	BWController bwc, void cs,	203	BWController bwc, void cs, rtp_m_cb *mcb);
202	int (mcb)(void , struct RTPMessage *));
203	void rtp_kill(RTPSession *session);	204	void rtp_kill(RTPSession *session);
204	int rtp_allow_receiving(RTPSession *session);	205	int rtp_allow_receiving(RTPSession *session);
205	int rtp_stop_receiving(RTPSession *session);	206	int rtp_stop_receiving(RTPSession *session);