FreeCalypso > hg > themwi-rtp-lib
view src/rtp_tx.c @ 43:8cdfef36d9db default tip
twrtp_endp_create: make config argument const
This argument is passed through to twrtp_jibuf_create(). We made it
const in the latter function, now do the same with the wrapper.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 20 Dec 2024 23:01:06 +0000 |
parents | e70e7b266f89 |
children |
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/* * Here we implement RTP Tx functionality. */ #include <stdint.h> #include <stdbool.h> #include <string.h> #include <errno.h> #include <arpa/inet.h> /* for network byte order functions */ #include <osmocom/core/msgb.h> #include <osmocom/core/osmo_io.h> #include <osmocom/core/timer.h> #include <themwi/rtp/endp.h> #include <themwi/rtp/rtp_basic_hdr.h> #include <themwi/rtp/twjit.h> #include "endp_internal.h" static uint32_t gen_timestamp(struct timespec *now, struct twrtp_jibuf_inst *twjit) { uint32_t ts; ts = now->tv_sec * twjit->ts_units_per_sec + now->tv_nsec / twjit->ns_to_ts_units; return ts; } int twrtp_endp_tx_quantum(struct twrtp_endp *endp, const uint8_t *payload, unsigned payload_len, uint8_t payload_type, bool marker, bool auto_marker, bool send_rtcp) { uint32_t ts_quantum = endp->twjit->ts_quantum; struct msgb *msg; struct timespec now; uint32_t restart_ts; int32_t ts_delta; struct rtp_basic_hdr *rtph; uint8_t *pl_out; int rc; if (!endp->register_done || !endp->remote_set) return -EINVAL; msg = msgb_alloc_c(endp, sizeof(struct rtp_basic_hdr) + payload_len, "ThemWi-RTP-Tx"); if (!msg) { twrtp_endp_tx_skip(endp); return -ENOMEM; } /* timestamp generation is where we do some trickery */ osmo_clock_gettime(CLOCK_REALTIME, &now); if (!endp->tx.started) { endp->tx.ts = gen_timestamp(&now, endp->twjit); endp->tx.started = true; endp->tx.restart = false; if (auto_marker) marker = true; } else if (endp->tx.restart) { restart_ts = gen_timestamp(&now, endp->twjit); ts_delta = (int32_t)(restart_ts - endp->tx.ts); if (ts_delta <= 0) { /* shouldn't happen, unless something funky w/clock */ endp->tx.ts++; } else { if (ts_delta % ts_quantum == 0) restart_ts++; endp->tx.ts = restart_ts; } endp->tx.restart = false; if (auto_marker) marker = true; } rtph = (struct rtp_basic_hdr *) msgb_put(msg, sizeof(struct rtp_basic_hdr)); rtph->v_p_x_cc = 0x80; rtph->m_pt = payload_type; if (marker) rtph->m_pt |= 0x80; rtph->ssrc = htonl(endp->tx.ssrc); rtph->seq = htons(endp->tx.seq); rtph->tstamp = htonl(endp->tx.ts); pl_out = msgb_put(msg, payload_len); memcpy(pl_out, payload, payload_len); endp->tx.seq++; endp->tx.ts += ts_quantum; rc = osmo_iofd_sendto_msgb(endp->iofd_rtp, msg, 0, &endp->rtp_remote); if (rc < 0) { msgb_free(msg); return rc; } endp->stats.tx_rtp_pkt++; endp->stats.tx_rtp_bytes += payload_len; if (endp->auto_rtcp_interval) { endp->auto_rtcp_count++; if (endp->auto_rtcp_count >= endp->auto_rtcp_interval) { endp->auto_rtcp_count = 0; send_rtcp = true; } } if (send_rtcp) { _twrtp_endp_send_rtcp(endp, true, &now, endp->tx.ts - ts_quantum); } return 0; } void twrtp_endp_tx_skip(struct twrtp_endp *endp) { if (!endp->tx.started || endp->tx.restart) return; endp->tx.ts += endp->twjit->ts_quantum; }