media: vidtv: psi: add a Network Information Table (NIT)

Add a Network Information Table (NIT) as specified in ETSI EN 300 468.

This table conveys information relating to the physical organization of
the multiplexes carried via a given network and the characteristics of
the network itself.

It is conveyed in the output of vidtv as packets with TS PID of 0x0010

[mchehab+huawei@kernel.org: removed an extra blank line]
Signed-off-by: Daniel W. S. Almeida <dwlsalmeida@gmail.com>
Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org>
Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
This commit is contained in:
Daniel W. S. Almeida 2020-10-31 16:05:48 +01:00 коммит произвёл Mauro Carvalho Chehab
Родитель dd6dbe8d7e
Коммит c2f78f0cb2
7 изменённых файлов: 545 добавлений и 12 удалений

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@ -149,11 +149,11 @@ vidtv_psi.[ch]
Because the generator is implemented in a separate file, it can be
reused elsewhere in the media subsystem.
Currently vidtv supports working with 3 PSI tables: PAT, PMT and
SDT.
Currently vidtv supports working with 4 PSI tables: PAT, PMT,
SDT and NIT.
The specification for PAT and PMT can be found in *ISO 13818-1:
Systems*, while the specification for the SDT can be found in *ETSI
Systems*, while the specification for the SDT, NIT can be found in *ETSI
EN 300 468: Specification for Service Information (SI) in DVB
systems*.

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@ -28,6 +28,8 @@
//#define MUX_BUF_MIN_SZ
#define TUNER_DEFAULT_ADDR 0x68
#define DEMOD_DEFAULT_ADDR 0x60
#define VIDTV_DEFAULT_NETWORK_ID 0x744
#define VIDTV_DEFAULT_NETWORK_NAME "LinuxTV.org"
/* LNBf fake parameters: ranges used by an Universal (extended) European LNBf */
#define LNB_CUT_FREQUENCY 11700000
@ -177,6 +179,8 @@ static int vidtv_start_streaming(struct vidtv_dvb *dvb)
mux_args.si_period_usecs = si_period_msec * 1000;
mux_args.pcr_pid = pcr_pid;
mux_args.transport_stream_id = VIDTV_DEFAULT_TS_ID;
mux_args.network_id = VIDTV_DEFAULT_NETWORK_ID,
mux_args.network_name = VIDTV_DEFAULT_NETWORK_NAME,
mux_args.priv = dvb;
dvb->streaming = true;

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@ -246,10 +246,57 @@ vidtv_channel_pmt_match_sections(struct vidtv_channel *channels,
}
}
static struct vidtv_psi_desc_service_list_entry
*vidtv_channel_build_service_list(struct vidtv_psi_table_sdt_service *s)
{
struct vidtv_psi_desc_service_list_entry *curr_e = NULL;
struct vidtv_psi_desc_service_list_entry *head_e = NULL;
struct vidtv_psi_desc_service_list_entry *prev_e = NULL;
struct vidtv_psi_desc *desc = s->descriptor;
struct vidtv_psi_desc_service *s_desc;
while (s) {
while (desc) {
if (s->descriptor->type != SERVICE_DESCRIPTOR)
goto next_desc;
s_desc = (struct vidtv_psi_desc_service *)desc;
curr_e = kzalloc(sizeof(*curr_e), GFP_KERNEL);
curr_e->service_id = s->service_id;
curr_e->service_type = s_desc->service_type;
if (!head_e)
head_e = curr_e;
if (prev_e)
prev_e->next = curr_e;
prev_e = curr_e;
next_desc:
desc = desc->next;
}
s = s->next;
}
return head_e;
}
static void vidtv_channel_destroy_service_list(struct vidtv_psi_desc_service_list_entry *e)
{
struct vidtv_psi_desc_service_list_entry *tmp;
while (e) {
tmp = e;
e = e->next;
kfree(tmp);
}
}
void vidtv_channel_si_init(struct vidtv_mux *m)
{
struct vidtv_psi_table_pat_program *programs = NULL;
struct vidtv_psi_table_sdt_service *services = NULL;
struct vidtv_psi_desc_service_list_entry *service_list = NULL;
m->si.pat = vidtv_psi_pat_table_init(m->transport_stream_id);
@ -258,6 +305,15 @@ void vidtv_channel_si_init(struct vidtv_mux *m)
programs = vidtv_channel_pat_prog_cat_into_new(m);
services = vidtv_channel_sdt_serv_cat_into_new(m);
/* look for a service descriptor for every service */
service_list = vidtv_channel_build_service_list(services);
/* use these descriptors to build the NIT */
m->si.nit = vidtv_psi_nit_table_init(m->network_id,
m->transport_stream_id,
m->network_name,
service_list);
/* assemble all programs and assign to PAT */
vidtv_psi_pat_program_assign(m->si.pat, programs);
@ -269,6 +325,8 @@ void vidtv_channel_si_init(struct vidtv_mux *m)
vidtv_channel_pmt_match_sections(m->channels,
m->si.pmt_secs,
m->si.pat->programs);
vidtv_channel_destroy_service_list(service_list);
}
void vidtv_channel_si_destroy(struct vidtv_mux *m)
@ -283,6 +341,7 @@ void vidtv_channel_si_destroy(struct vidtv_mux *m)
kfree(m->si.pmt_secs);
vidtv_psi_sdt_table_destroy(m->si.sdt);
vidtv_psi_nit_table_destroy(m->si.nit);
}
void vidtv_channels_init(struct vidtv_mux *m)

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@ -74,6 +74,8 @@ static void vidtv_mux_pid_ctx_init(struct vidtv_mux *m)
vidtv_mux_create_pid_ctx_once(m, VIDTV_PAT_PID);
/* push the SDT pid ctx */
vidtv_mux_create_pid_ctx_once(m, VIDTV_SDT_PID);
/* push the NIT pid ctx */
vidtv_mux_create_pid_ctx_once(m, VIDTV_NIT_PID);
/* add a ctx for all PMT sections */
while (p) {
@ -117,10 +119,12 @@ static u32 vidtv_mux_push_si(struct vidtv_mux *m)
struct vidtv_mux_pid_ctx *pat_ctx;
struct vidtv_mux_pid_ctx *pmt_ctx;
struct vidtv_mux_pid_ctx *sdt_ctx;
struct vidtv_mux_pid_ctx *nit_ctx;
struct vidtv_psi_pat_write_args pat_args = {};
struct vidtv_psi_pmt_write_args pmt_args = {};
struct vidtv_psi_sdt_write_args sdt_args = {};
struct vidtv_psi_nit_write_args nit_args = {};
u32 nbytes; /* the number of bytes written by this function */
u16 pmt_pid;
@ -128,6 +132,7 @@ static u32 vidtv_mux_push_si(struct vidtv_mux *m)
pat_ctx = vidtv_mux_get_pid_ctx(m, VIDTV_PAT_PID);
sdt_ctx = vidtv_mux_get_pid_ctx(m, VIDTV_SDT_PID);
nit_ctx = vidtv_mux_get_pid_ctx(m, VIDTV_NIT_PID);
pat_args.buf = m->mux_buf;
pat_args.offset = m->mux_buf_offset;
@ -169,6 +174,14 @@ static u32 vidtv_mux_push_si(struct vidtv_mux *m)
m->mux_buf_offset += vidtv_psi_sdt_write_into(sdt_args);
nit_args.buf = m->mux_buf;
nit_args.offset = m->mux_buf_offset;
nit_args.nit = m->si.nit;
nit_args.buf_sz = m->mux_buf_sz;
nit_args.continuity_counter = &nit_ctx->cc;
m->mux_buf_offset += vidtv_psi_nit_write_into(nit_args);
nbytes = m->mux_buf_offset - initial_offset;
m->num_streamed_si++;
@ -446,6 +459,8 @@ struct vidtv_mux *vidtv_mux_init(struct dvb_frontend *fe,
m->pcr_pid = args.pcr_pid;
m->transport_stream_id = args.transport_stream_id;
m->priv = args.priv;
m->network_id = args.network_id;
m->network_name = kstrdup(args.network_name, GFP_KERNEL);
m->timing.current_jiffies = get_jiffies_64();
if (args.channels)
@ -469,6 +484,7 @@ void vidtv_mux_destroy(struct vidtv_mux *m)
vidtv_mux_pid_ctx_destroy(m);
vidtv_channel_si_destroy(m);
vidtv_channels_destroy(m);
kfree(m->network_name);
vfree(m->mux_buf);
kfree(m);
}

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@ -64,6 +64,7 @@ struct vidtv_mux_si {
struct vidtv_psi_table_pat *pat;
struct vidtv_psi_table_pmt **pmt_secs; /* the PMT sections */
struct vidtv_psi_table_sdt *sdt;
struct vidtv_psi_table_nit *nit;
};
/**
@ -99,6 +100,8 @@ struct vidtv_mux_pid_ctx {
* @pcr_pid: The TS PID used for the PSI packets. All channels will share the
* same PCR.
* @transport_stream_id: The transport stream ID
* @network_id: The network ID
* @network_name: The network name
* @priv: Private data.
*/
struct vidtv_mux {
@ -128,6 +131,8 @@ struct vidtv_mux {
u16 pcr_pid;
u16 transport_stream_id;
u16 network_id;
char *network_name;
void *priv;
};
@ -142,6 +147,8 @@ struct vidtv_mux {
* same PCR.
* @transport_stream_id: The transport stream ID
* @channels: an optional list of channels to use
* @network_id: The network ID
* @network_name: The network name
* @priv: Private data.
*/
struct vidtv_mux_init_args {
@ -153,6 +160,8 @@ struct vidtv_mux_init_args {
u16 pcr_pid;
u16 transport_stream_id;
struct vidtv_channel *channels;
u16 network_id;
char *network_name;
void *priv;
};

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@ -6,10 +6,6 @@
* technically be broken into one or more sections, we do not do this here,
* hence 'table' and 'section' are interchangeable for vidtv.
*
* This code currently supports three tables: PAT, PMT and SDT. These are the
* bare minimum to get userspace to recognize our MPEG transport stream. It can
* be extended to support more PSI tables in the future.
*
* Copyright (C) 2020 Daniel W. S. Almeida
*/
@ -389,6 +385,75 @@ struct vidtv_psi_desc_registration
return desc;
}
struct vidtv_psi_desc_network_name
*vidtv_psi_network_name_desc_init(struct vidtv_psi_desc *head, char *network_name)
{
struct vidtv_psi_desc_network_name *desc;
u32 network_name_len = network_name ? strlen(network_name) : 0;
desc = kzalloc(sizeof(*desc), GFP_KERNEL);
desc->type = NETWORK_NAME_DESCRIPTOR;
desc->length = network_name_len;
if (network_name && network_name_len)
desc->network_name = kstrdup(network_name, GFP_KERNEL);
if (head) {
while (head->next)
head = head->next;
head->next = (struct vidtv_psi_desc *)desc;
}
return desc;
}
struct vidtv_psi_desc_service_list
*vidtv_psi_service_list_desc_init(struct vidtv_psi_desc *head,
struct vidtv_psi_desc_service_list_entry *entry)
{
struct vidtv_psi_desc_service_list *desc;
struct vidtv_psi_desc_service_list_entry *curr_e = NULL;
struct vidtv_psi_desc_service_list_entry *head_e = NULL;
struct vidtv_psi_desc_service_list_entry *prev_e = NULL;
u16 length = 0;
desc = kzalloc(sizeof(*desc), GFP_KERNEL);
desc->type = SERVICE_LIST_DESCRIPTOR;
while (entry) {
curr_e = kzalloc(sizeof(*curr_e), GFP_KERNEL);
curr_e->service_id = entry->service_id;
curr_e->service_type = entry->service_type;
length += sizeof(struct vidtv_psi_desc_service_list_entry) -
sizeof(struct vidtv_psi_desc_service_list_entry *);
if (!head_e)
head_e = curr_e;
if (prev_e)
prev_e->next = curr_e;
prev_e = curr_e;
entry = entry->next;
}
desc->length = length;
desc->service_list = head_e;
if (head) {
while (head->next)
head = head->next;
head->next = (struct vidtv_psi_desc *)desc;
}
return desc;
}
struct vidtv_psi_desc *vidtv_psi_desc_clone(struct vidtv_psi_desc *desc)
{
struct vidtv_psi_desc *head = NULL;
@ -396,6 +461,8 @@ struct vidtv_psi_desc *vidtv_psi_desc_clone(struct vidtv_psi_desc *desc)
struct vidtv_psi_desc *curr = NULL;
struct vidtv_psi_desc_service *service;
struct vidtv_psi_desc_network_name *desc_network_name;
struct vidtv_psi_desc_service_list *desc_service_list;
while (desc) {
switch (desc->type) {
@ -408,6 +475,20 @@ struct vidtv_psi_desc *vidtv_psi_desc_clone(struct vidtv_psi_desc *desc)
service->provider_name);
break;
case NETWORK_NAME_DESCRIPTOR:
desc_network_name = (struct vidtv_psi_desc_network_name *)desc;
curr = (struct vidtv_psi_desc *)
vidtv_psi_network_name_desc_init(head,
desc_network_name->network_name);
break;
case SERVICE_LIST_DESCRIPTOR:
desc_service_list = (struct vidtv_psi_desc_service_list *)desc;
curr = (struct vidtv_psi_desc *)
vidtv_psi_service_list_desc_init(head,
desc_service_list->service_list);
break;
case REGISTRATION_DESCRIPTOR:
default:
curr = kzalloc(sizeof(*desc) + desc->length, GFP_KERNEL);
@ -433,6 +514,8 @@ void vidtv_psi_desc_destroy(struct vidtv_psi_desc *desc)
{
struct vidtv_psi_desc *curr = desc;
struct vidtv_psi_desc *tmp = NULL;
struct vidtv_psi_desc_service_list_entry *sl_entry = NULL;
struct vidtv_psi_desc_service_list_entry *sl_entry_tmp = NULL;
while (curr) {
tmp = curr;
@ -448,6 +531,19 @@ void vidtv_psi_desc_destroy(struct vidtv_psi_desc *desc)
/* nothing to do */
break;
case NETWORK_NAME_DESCRIPTOR:
kfree(((struct vidtv_psi_desc_network_name *)tmp)->network_name);
break;
case SERVICE_LIST_DESCRIPTOR:
sl_entry = ((struct vidtv_psi_desc_service_list *)tmp)->service_list;
while (sl_entry) {
sl_entry_tmp = sl_entry;
sl_entry = sl_entry->next;
kfree(sl_entry_tmp);
}
break;
default:
pr_warn_ratelimited("Possible leak: not handling descriptor type %d\n",
tmp->type);
@ -519,6 +615,7 @@ static u32 vidtv_psi_desc_write_into(struct desc_write_args args)
/* the number of bytes written by this function */
u32 nbytes = 0;
struct psi_write_args psi_args = {};
struct vidtv_psi_desc_service_list_entry *serv_list_entry = NULL;
psi_args.dest_buf = args.dest_buf;
psi_args.from = &args.desc->type;
@ -564,6 +661,28 @@ static u32 vidtv_psi_desc_write_into(struct desc_write_args args)
nbytes += vidtv_psi_ts_psi_write_into(psi_args);
break;
case NETWORK_NAME_DESCRIPTOR:
psi_args.dest_offset = args.dest_offset + nbytes;
psi_args.len = args.desc->length;
psi_args.from = ((struct vidtv_psi_desc_network_name *)args.desc)->network_name;
nbytes += vidtv_psi_ts_psi_write_into(psi_args);
break;
case SERVICE_LIST_DESCRIPTOR:
serv_list_entry = ((struct vidtv_psi_desc_service_list *)args.desc)->service_list;
while (serv_list_entry) {
psi_args.dest_offset = args.dest_offset + nbytes;
psi_args.len = sizeof(struct vidtv_psi_desc_service_list_entry) -
sizeof(struct vidtv_psi_desc_service_list_entry *);
psi_args.from = serv_list_entry;
nbytes += vidtv_psi_ts_psi_write_into(psi_args);
serv_list_entry = serv_list_entry->next;
}
break;
case REGISTRATION_DESCRIPTOR:
default:
psi_args.dest_offset = args.dest_offset + nbytes;
@ -682,7 +801,6 @@ void vidtv_psi_sdt_table_update_sec_len(struct vidtv_psi_table_sdt *sdt)
}
length += CRC_SIZE_IN_BYTES;
vidtv_psi_set_sec_len(&sdt->header, length);
}
@ -1321,3 +1439,220 @@ struct vidtv_psi_table_pmt
return NULL; /* not found */
}
static void vidtv_psi_nit_table_update_sec_len(struct vidtv_psi_table_nit *nit)
{
u16 length = 0;
struct vidtv_psi_table_transport *t = nit->transport;
u16 desc_loop_len;
u16 transport_loop_len = 0;
/*
* from immediately after 'section_length' until
* 'network_descriptor_length'
*/
length += NIT_LEN_UNTIL_NETWORK_DESCRIPTOR_LEN;
desc_loop_len = vidtv_psi_desc_comp_loop_len(nit->descriptor);
vidtv_psi_set_desc_loop_len(&nit->bitfield, desc_loop_len, 12);
length += desc_loop_len;
length += sizeof_field(struct vidtv_psi_table_nit, bitfield2);
while (t) {
/* skip both pointers at the end */
transport_loop_len += sizeof(struct vidtv_psi_table_transport) -
sizeof(struct vidtv_psi_desc *) -
sizeof(struct vidtv_psi_table_transport *);
length += transport_loop_len;
desc_loop_len = vidtv_psi_desc_comp_loop_len(t->descriptor);
vidtv_psi_set_desc_loop_len(&t->bitfield, desc_loop_len, 12);
length += desc_loop_len;
t = t->next;
}
// Actually sets the transport stream loop len, maybe rename this function later
vidtv_psi_set_desc_loop_len(&nit->bitfield2, transport_loop_len, 12);
length += CRC_SIZE_IN_BYTES;
vidtv_psi_set_sec_len(&nit->header, length);
}
struct vidtv_psi_table_nit
*vidtv_psi_nit_table_init(u16 network_id,
u16 transport_stream_id,
char *network_name,
struct vidtv_psi_desc_service_list_entry *service_list)
{
struct vidtv_psi_table_nit *nit = kzalloc(sizeof(*nit), GFP_KERNEL);
struct vidtv_psi_table_transport *transport = kzalloc(sizeof(*transport), GFP_KERNEL);
const u16 SYNTAX = 0x1;
const u16 ONE = 0x1;
const u16 ONES = 0x03;
nit->header.table_id = 0x40; // ACTUAL_NETWORK
nit->header.bitfield = cpu_to_be16((SYNTAX << 15) | (ONE << 14) | (ONES << 12));
nit->header.id = cpu_to_be16(network_id);
nit->header.current_next = ONE;
nit->header.version = 0x1f;
nit->header.one2 = ONES;
nit->header.section_id = 0;
nit->header.last_section = 0;
nit->bitfield = cpu_to_be16(0xf);
nit->bitfield2 = cpu_to_be16(0xf);
nit->descriptor = (struct vidtv_psi_desc *)
vidtv_psi_network_name_desc_init(NULL, network_name);
transport->transport_id = cpu_to_be16(transport_stream_id);
transport->network_id = cpu_to_be16(network_id);
transport->bitfield = cpu_to_be16(0xf);
transport->descriptor = (struct vidtv_psi_desc *)
vidtv_psi_service_list_desc_init(NULL, service_list);
nit->transport = transport;
vidtv_psi_nit_table_update_sec_len(nit);
return nit;
}
u32 vidtv_psi_nit_write_into(struct vidtv_psi_nit_write_args args)
{
/* the number of bytes written by this function */
u32 nbytes = 0;
u32 crc = INITIAL_CRC;
struct vidtv_psi_desc *table_descriptor = args.nit->descriptor;
struct vidtv_psi_table_transport *transport = args.nit->transport;
struct vidtv_psi_desc *transport_descriptor = (transport) ?
args.nit->transport->descriptor :
NULL;
struct header_write_args h_args = {};
struct psi_write_args psi_args = {};
struct desc_write_args d_args = {};
struct crc32_write_args c_args = {};
vidtv_psi_nit_table_update_sec_len(args.nit);
h_args.dest_buf = args.buf;
h_args.dest_offset = args.offset;
h_args.h = &args.nit->header;
h_args.pid = VIDTV_NIT_PID;
h_args.continuity_counter = args.continuity_counter;
h_args.dest_buf_sz = args.buf_sz;
h_args.crc = &crc;
nbytes += vidtv_psi_table_header_write_into(h_args);
/* write the bitfield */
psi_args.dest_buf = args.buf;
psi_args.from = &args.nit->bitfield;
psi_args.len = sizeof_field(struct vidtv_psi_table_nit, bitfield);
psi_args.dest_offset = args.offset + nbytes;
psi_args.pid = VIDTV_NIT_PID;
psi_args.new_psi_section = false;
psi_args.continuity_counter = args.continuity_counter;
psi_args.is_crc = false;
psi_args.dest_buf_sz = args.buf_sz;
psi_args.crc = &crc;
nbytes += vidtv_psi_ts_psi_write_into(psi_args);
while (table_descriptor) {
/* write the descriptors, if any */
d_args.dest_buf = args.buf;
d_args.dest_offset = args.offset + nbytes;
d_args.desc = table_descriptor;
d_args.pid = VIDTV_NIT_PID;
d_args.continuity_counter = args.continuity_counter;
d_args.dest_buf_sz = args.buf_sz;
d_args.crc = &crc;
nbytes += vidtv_psi_desc_write_into(d_args);
table_descriptor = table_descriptor->next;
}
/* write the second bitfield */
psi_args.dest_buf = args.buf;
psi_args.from = &args.nit->bitfield2;
psi_args.len = sizeof_field(struct vidtv_psi_table_nit, bitfield2);
psi_args.dest_offset = args.offset + nbytes;
psi_args.pid = VIDTV_NIT_PID;
nbytes += vidtv_psi_ts_psi_write_into(psi_args);
while (transport) {
/* write the transport sections, if any */
psi_args.from = transport;
psi_args.len = sizeof_field(struct vidtv_psi_table_transport, transport_id) +
sizeof_field(struct vidtv_psi_table_transport, network_id) +
sizeof_field(struct vidtv_psi_table_transport, bitfield);
psi_args.dest_offset = args.offset + nbytes;
nbytes += vidtv_psi_ts_psi_write_into(psi_args);
while (transport_descriptor) {
/* write the transport descriptors, if any */
d_args.dest_buf = args.buf;
d_args.dest_offset = args.offset + nbytes;
d_args.desc = transport_descriptor;
d_args.pid = VIDTV_NIT_PID;
d_args.continuity_counter = args.continuity_counter;
d_args.dest_buf_sz = args.buf_sz;
d_args.crc = &crc;
nbytes += vidtv_psi_desc_write_into(d_args);
transport_descriptor = transport_descriptor->next;
}
transport = transport->next;
}
c_args.dest_buf = args.buf;
c_args.dest_offset = args.offset + nbytes;
c_args.crc = cpu_to_be32(crc);
c_args.pid = VIDTV_NIT_PID;
c_args.continuity_counter = args.continuity_counter;
c_args.dest_buf_sz = args.buf_sz;
/* Write the CRC32 at the end */
nbytes += table_section_crc32_write_into(c_args);
return nbytes;
}
static void vidtv_psi_transport_destroy(struct vidtv_psi_table_transport *t)
{
struct vidtv_psi_table_transport *curr_t = t;
struct vidtv_psi_table_transport *tmp_t = NULL;
while (curr_t) {
tmp_t = curr_t;
curr_t = curr_t->next;
vidtv_psi_desc_destroy(tmp_t->descriptor);
kfree(tmp_t);
}
}
void vidtv_psi_nit_table_destroy(struct vidtv_psi_table_nit *nit)
{
vidtv_psi_desc_destroy(nit->descriptor);
vidtv_psi_transport_destroy(nit->transport);
kfree(nit);
}

Просмотреть файл

@ -6,10 +6,6 @@
* technically be broken into one or more sections, we do not do this here,
* hence 'table' and 'section' are interchangeable for vidtv.
*
* This code currently supports three tables: PAT, PMT and SDT. These are the
* bare minimum to get userspace to recognize our MPEG transport stream. It can
* be extended to support more PSI tables in the future.
*
* Copyright (C) 2020 Daniel W. S. Almeida
*/
@ -27,12 +23,16 @@
#define PAT_LEN_UNTIL_LAST_SECTION_NUMBER 5
#define PMT_LEN_UNTIL_PROGRAM_INFO_LENGTH 9
#define SDT_LEN_UNTIL_RESERVED_FOR_FUTURE_USE 8
#define NIT_LEN_UNTIL_NETWORK_DESCRIPTOR_LEN 7
#define MAX_SECTION_LEN 1021
#define VIDTV_PAT_PID 0 /* mandated by the specs */
#define VIDTV_SDT_PID 0x0011 /* mandated by the specs */
#define VIDTV_NIT_PID 0x0010 /* mandated by the specs */
enum vidtv_psi_descriptors {
REGISTRATION_DESCRIPTOR = 0x05, /* See ISO/IEC 13818-1 section 2.6.8 */
NETWORK_NAME_DESCRIPTOR = 0x40, /* See ETSI EN 300 468 section 6.2.27 */
SERVICE_LIST_DESCRIPTOR = 0x41, /* See ETSI EN 300 468 section 6.2.35 */
SERVICE_DESCRIPTOR = 0x48, /* See ETSI EN 300 468 section 6.2.33 */
};
@ -90,6 +90,34 @@ struct vidtv_psi_desc_registration {
u8 additional_identification_info[];
} __packed;
/**
* struct vidtv_psi_desc_network_name - A network name descriptor
* see ETSI EN 300 468 v1.15.1 section 6.2.27
*/
struct vidtv_psi_desc_network_name {
struct vidtv_psi_desc *next;
u8 type;
u8 length;
char *network_name;
} __packed;
struct vidtv_psi_desc_service_list_entry {
__be16 service_id;
u8 service_type;
struct vidtv_psi_desc_service_list_entry *next;
} __packed;
/**
* struct vidtv_psi_desc_service_list - A service list descriptor
* see ETSI EN 300 468 v1.15.1 section 6.2.35
*/
struct vidtv_psi_desc_service_list {
struct vidtv_psi_desc *next;
u8 type;
u8 length;
struct vidtv_psi_desc_service_list_entry *service_list;
} __packed;
/**
* struct vidtv_psi_table_header - A header that is present for all PSI tables.
*/
@ -290,6 +318,13 @@ struct vidtv_psi_desc_registration
u8 *additional_ident_info,
u32 additional_info_len);
struct vidtv_psi_desc_network_name
*vidtv_psi_network_name_desc_init(struct vidtv_psi_desc *head, char *network_name);
struct vidtv_psi_desc_service_list
*vidtv_psi_service_list_desc_init(struct vidtv_psi_desc *head,
struct vidtv_psi_desc_service_list_entry *entry);
struct vidtv_psi_table_pat_program
*vidtv_psi_pat_program_init(struct vidtv_psi_table_pat_program *head,
u16 service_id,
@ -574,4 +609,79 @@ struct vidtv_psi_table_pmt *vidtv_psi_find_pmt_sec(struct vidtv_psi_table_pmt **
u16 vidtv_psi_get_pat_program_pid(struct vidtv_psi_table_pat_program *p);
u16 vidtv_psi_pmt_stream_get_elem_pid(struct vidtv_psi_table_pmt_stream *s);
/**
* struct vidtv_psi_table_transport - A entry in the TS loop for the NIT and/or other tables.
* See ETSI 300 468 section 5.2.1
* @transport_id: The TS ID being described
* @network_id: The network_id that contains the TS ID
* @bitfield: Contains the descriptor loop length
* @descriptor: A descriptor loop
* @next: Pointer to the next entry
*
*/
struct vidtv_psi_table_transport {
__be16 transport_id;
__be16 network_id;
__be16 bitfield; /* desc_len: 12, reserved: 4 */
struct vidtv_psi_desc *descriptor;
struct vidtv_psi_table_transport *next;
} __packed;
/**
* struct vidtv_psi_table_nit - A Network Information Table (NIT). See ETSI 300
* 468 section 5.2.1
* @header: A PSI table header
* @bitfield: Contains the network descriptor length
* @descriptor: A descriptor loop describing the network
* @bitfield2: Contains the transport stream loop length
* @transport: The transport stream loop
*
*/
struct vidtv_psi_table_nit {
struct vidtv_psi_table_header header;
__be16 bitfield; /* network_desc_len: 12, reserved:4 */
struct vidtv_psi_desc *descriptor;
__be16 bitfield2; /* ts_loop_len: 12, reserved: 4 */
struct vidtv_psi_table_transport *transport;
} __packed;
struct vidtv_psi_table_nit
*vidtv_psi_nit_table_init(u16 network_id,
u16 transport_stream_id,
char *network_name,
struct vidtv_psi_desc_service_list_entry *service_list);
/**
* struct vidtv_psi_nit_write_args - Arguments for writing a NIT section
* @buf: The destination buffer.
* @offset: The offset into the destination buffer.
* @nit: A pointer to the NIT
* @buf_sz: The size of the destination buffer.
* @continuity_counter: A pointer to the CC. Incremented on every new packet.
*
*/
struct vidtv_psi_nit_write_args {
char *buf;
u32 offset;
struct vidtv_psi_table_nit *nit;
u32 buf_sz;
u8 *continuity_counter;
};
/**
* vidtv_psi_nit_write_into - Write NIT as MPEG-TS packets into a buffer.
* @args: an instance of struct vidtv_psi_nit_write_args
*
* This function writes the MPEG TS packets for a NIT table into a buffer.
* Calling code will usually generate the NIT via a call to its init function
* and thus is responsible for freeing it.
*
* Return: The number of bytes written into the buffer. This is NOT
* equal to the size of the NIT, since more space is needed for TS headers during TS
* encapsulation.
*/
u32 vidtv_psi_nit_write_into(struct vidtv_psi_nit_write_args args);
void vidtv_psi_nit_table_destroy(struct vidtv_psi_table_nit *nit);
#endif // VIDTV_PSI_H