From patchwork Fri Aug 10 15:18:05 2012 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Konke Radlow X-Patchwork-Id: 1305551 Return-Path: X-Original-To: patchwork-linux-media@patchwork.kernel.org Delivered-To: patchwork-process-083081@patchwork2.kernel.org Received: from vger.kernel.org (vger.kernel.org [209.132.180.67]) by patchwork2.kernel.org (Postfix) with ESMTP id A3529DF266 for ; Fri, 10 Aug 2012 13:29:12 +0000 (UTC) Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1756229Ab2HJN3I (ORCPT ); Fri, 10 Aug 2012 09:29:08 -0400 Received: from ams-iport-3.cisco.com ([144.254.224.146]:2398 "EHLO ams-iport-3.cisco.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1756169Ab2HJN3E (ORCPT ); Fri, 10 Aug 2012 09:29:04 -0400 X-Greylist: delayed 582 seconds by postgrey-1.27 at vger.kernel.org; Fri, 10 Aug 2012 09:29:01 EDT X-IronPort-Anti-Spam-Filtered: true X-IronPort-Anti-Spam-Result: AikFAIzgI1CQ/khM/2dsb2JhbABFqFKDNo1agQeCIQEBBBIBBwEMNQsiFjshAjQZFQEECIVvgWwBAwybBo1ogS6HMgoZJw1XiHeKKmUJDAuGRAOTdoFTgRSJdoMfgWaCX4FWAQEDBBw X-IronPort-AV: E=Sophos;i="4.77,745,1336348800"; d="scan'208";a="7250447" Received: from ams-core-3.cisco.com ([144.254.72.76]) by ams-iport-3.cisco.com with ESMTP; 10 Aug 2012 13:19:18 +0000 Received: from rds-testing-box.rd.tandberg.com ([10.47.19.220]) by ams-core-3.cisco.com (8.14.5/8.14.5) with ESMTP id q7ADJIOj024427 for ; Fri, 10 Aug 2012 13:19:18 GMT From: Konke Radlow To: linux-media@vger.kernel.org Subject: [PATCH 1/2] Add libv4l2rds library Date: Fri, 10 Aug 2012 15:18:05 +0000 Message-Id: <5380cf6f7199739bc2452dd374760d30ce9095d7.1344611802.git.koradlow@gmail.com> X-Mailer: git-send-email 1.7.10.4 In-Reply-To: <1344611886-12183-1-git-send-email-koradlow@gmail.com> References: <[RFC PATCH 0/2] Add support for RDS decoding (updated)> <1344611886-12183-1-git-send-email-koradlow@gmail.com> Sender: linux-media-owner@vger.kernel.org Precedence: bulk List-ID: X-Mailing-List: linux-media@vger.kernel.org Signed-off-by: Konke Radlow --- Makefile.am | 3 +- configure.ac | 2 + lib/include/libv4l2rds.h | 218 +++++++++ lib/libv4l2rds/Makefile.am | 11 + lib/libv4l2rds/libv4l2rds.c | 965 +++++++++++++++++++++++++++++++++++++++ lib/libv4l2rds/libv4l2rds.pc.in | 11 + 6 files changed, 1209 insertions(+), 1 deletion(-) create mode 100644 lib/include/libv4l2rds.h create mode 100644 lib/libv4l2rds/Makefile.am create mode 100644 lib/libv4l2rds/libv4l2rds.c create mode 100644 lib/libv4l2rds/libv4l2rds.pc.in diff --git a/Makefile.am b/Makefile.am index a754955..621d8d9 100644 --- a/Makefile.am +++ b/Makefile.am @@ -5,7 +5,8 @@ SUBDIRS = \ lib/libv4lconvert \ lib/libv4l2 \ lib/libv4l1 \ - lib/libdvbv5 + lib/libdvbv5 \ + lib/libv4l2rds if WITH_V4LUTILS SUBDIRS += \ diff --git a/configure.ac b/configure.ac index 8ddcc9d..bc9ba14 100644 --- a/configure.ac +++ b/configure.ac @@ -14,6 +14,7 @@ AC_CONFIG_FILES([Makefile lib/libv4l2/Makefile lib/libv4l1/Makefile lib/libdvbv5/Makefile + lib/libv4l2rds/Makefile utils/libv4l2util/Makefile utils/libmedia_dev/Makefile @@ -36,6 +37,7 @@ AC_CONFIG_FILES([Makefile lib/libv4l1/libv4l1.pc lib/libv4l2/libv4l2.pc lib/libdvbv5/libdvbv5.pc + lib/libv4l2rds/libv4l2rds.pc ]) AM_INIT_AUTOMAKE([1.9 no-dist-gzip dist-bzip2 -Wno-portability]) # 1.10 is needed for target_LIBTOOLFLAGS diff --git a/lib/include/libv4l2rds.h b/lib/include/libv4l2rds.h new file mode 100644 index 0000000..37bdd2f --- /dev/null +++ b/lib/include/libv4l2rds.h @@ -0,0 +1,218 @@ +/* + * Copyright 2012 Cisco Systems, Inc. and/or its affiliates. All rights reserved. + * Author: Konke Radlow + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU Lesser General Public License as published by + * the Free Software Foundation; either version 2.1 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA + */ + +#ifndef __LIBV4L2RDS +#define __LIBV4L2RDS + + +#include +#include + +#include + +#ifdef __cplusplus +extern "C" { +#endif /* __cplusplus */ + +#if HAVE_VISIBILITY +#define LIBV4L_PUBLIC __attribute__ ((visibility("default"))) +#else +#define LIBV4L_PUBLIC +#endif + +/* used to define the current version (version field) of the v4l2_rds struct */ +#define V4L2_RDS_VERSION (1) + +/* Constants used to define the size of arrays used to store RDS information */ +#define MAX_ODA_CNT 18 /* there are 16 groups each with type a or b. Of these + * 32 distinct groups, 18 can be used for ODA purposes */ +#define MAX_AF_CNT 25 /* AF Method A allows a maximum of 25 AFs to be defined + * AF Method B does not impose a limit on the number of AFs + * but it is not fully supported at the moment and will + * not receive more than 25 AFs */ + +/* Define Constants for the possible types of RDS information + * used to address the relevant bit in the valid_fields bitmask */ +#define V4L2_RDS_PI 0x01 /* Program Identification */ +#define V4L2_RDS_PTY 0x02 /* Program Type */ +#define V4L2_RDS_TP 0x04 /* Traffic Program */ +#define V4L2_RDS_PS 0x08 /* Program Service Name */ +#define V4L2_RDS_TA 0x10 /* Traffic Announcement */ +#define V4L2_RDS_DI 0x20 /* Decoder Information */ +#define V4L2_RDS_MS 0x40 /* Music / Speech flag */ +#define V4L2_RDS_PTYN 0x80 /* Program Type Name */ +#define V4L2_RDS_RT 0x100 /* Radio-Text */ +#define V4L2_RDS_TIME 0x200 /* Date and Time information */ +#define V4L2_RDS_TMC 0x400 /* TMC availability */ +#define V4L2_RDS_AF 0x800 /* AF (alternative freq) available */ +#define V4L2_RDS_ECC 0x1000 /* Extended County Code */ +#define V4L2_RDS_LC 0x2000 /* Language Code */ + +/* Define Constants for the state of the RDS decoding process + * used to address the relevant bit in the decode_information bitmask */ +#define V4L2_RDS_GROUP_NEW 0x01 /* New group received */ +#define V4L2_RDS_ODA 0x02 /* Open Data Group announced */ + +/* Decoder Information (DI) codes + * used to decode the DI information according to the RDS standard */ +#define V4L2_RDS_FLAG_STEREO 0x01 +#define V4L2_RDS_FLAG_ARTIFICIAL_HEAD 0x02 +#define V4L2_RDS_FLAG_COMPRESSED 0x04 +#define V4L2_RDS_FLAG_STATIC_PTY 0x08 + +/* struct to encapsulate one complete RDS group */ +/* This structure is used internally to store data until a complete RDS + * group was received and group id dependent decoding can be done. + * It is also used to provide external access to uninterpreted RDS groups + * when manual decoding is required (e.g. special ODA types) */ +struct v4l2_rds_group { + uint16_t pi; /* Program Identification */ + char group_version; /* group version ('A' / 'B') */ + uint8_t group_id; /* group number (0..16) */ + + /* uninterpreted data blocks for decoding (e.g. ODA) */ + uint8_t data_b_lsb; + uint8_t data_c_msb; + uint8_t data_c_lsb; + uint8_t data_d_msb; + uint8_t data_d_lsb; +}; + +/* struct to encapsulate some statistical information about the decoding process */ +struct v4l2_rds_statistics { + uint32_t block_cnt; /* total amount of received blocks */ + uint32_t group_cnt; /* total amount of successfully + * decoded groups */ + uint32_t block_error_cnt; /* blocks that were marked as erroneous + * and had to be dropped */ + uint32_t group_error_cnt; /* group decoding processes that had to be + * aborted because of erroneous blocks + * or wrong order of blocks */ + uint32_t block_corrected_cnt; /* blocks that contained 1-bit errors + * which were corrected */ + uint32_t group_type_cnt[16]; /* number of occurrence for each + * defined RDS group */ +}; + +/* struct to encapsulate the definition of one ODA (Open Data Application) type */ +struct v4l2_rds_oda { + uint8_t group_id; /* RDS group used to broadcast this ODA */ + char group_version; /* group version (A / B) for this ODA */ + uint16_t aid; /* Application Identification for this ODA, + * AIDs are centrally administered by the + * RDS Registration Office (rds.org.uk) */ +}; + +/* struct to encapsulate an array of all defined ODA types for a channel */ +/* This structure will grow with ODA announcements broadcasted in type 3A + * groups, that were verified not to be no duplicates or redefinitions */ +struct v4l2_rds_oda_set { + uint8_t size; /* number of ODAs defined by this channel */ + struct v4l2_rds_oda oda[MAX_ODA_CNT]; +}; + +/* struct to encapsulate an array of Alternative Frequencies for a channel */ +/* Every channel can send out AFs for his program. The number of AFs that + * will be broadcasted is announced by the channel */ +struct v4l2_rds_af_set { + uint8_t size; /* size of the set (might be smaller + * than the announced size) */ + uint8_t announced_af; /* number of announced AF */ + uint32_t af[MAX_AF_CNT]; /* AFs defined in Hz */ +}; + +/* struct to encapsulate state and RDS information for current decoding process */ +/* This is the structure that will be used by external applications, to + * communicate with the library and get access to RDS data */ +struct v4l2_rds { + /** state information **/ + uint32_t decode_information; /* state of decoding process */ + uint32_t valid_fields; /* currently valid info fields + * of this structure */ + + /** RDS info fields **/ + bool is_rbds; /* use RBDS standard version of LUTs */ + uint16_t pi; /* Program Identification */ + uint8_t ps[9]; /* Program Service Name, UTF-8 encoding, + * '\0' terminated */ + uint8_t pty; /* Program Type */ + uint8_t ptyn[9]; /* Program Type Name, UTF-8 encoding, + * '\0' terminated */ + bool ptyn_ab_flag; /* PTYN A/B flag (toggled), to signal + * change of PTYN */ + uint8_t rt_length; /* length of RT string */ + uint8_t rt[65]; /* Radio-Text string, UTF-8 encoding, + * '\0' terminated */ + bool rt_ab_flag; /* RT A/B flag (toggled), to signal + * transmission of new RT */ + bool ta; /* Traffic Announcement */ + bool tp; /* Traffic Program */ + bool ms; /* Music / Speech flag */ + uint8_t di; /* Decoder Information */ + uint8_t ecc; /* Extended Country Code */ + uint8_t lc; /* Language Code */ + time_t time; /* local time and date of transmission */ + + struct v4l2_rds_statistics rds_statistics; + struct v4l2_rds_oda_set rds_oda; /* Open Data Services */ + struct v4l2_rds_af_set rds_af; /* Alternative Frequencies */ +}; + +/* v4l2_rds_init() - initializes a new decoding process + * @is_rbds: defines which standard is used: true=RBDS, false=RDS + * + * initialize a new instance of the RDS-decoding struct and return + * a handle containing state and RDS information, used to interact + * with the library functions */ +LIBV4L_PUBLIC struct v4l2_rds *v4l2_rds_create(bool is_rdbs); + +/* frees all memory allocated for the RDS-decoding struct */ +LIBV4L_PUBLIC void v4l2_rds_destroy(struct v4l2_rds *handle); + +/* resets the RDS information in the handle to initial values + * e.g. can be used when radio channel is changed + * @reset_statistics: true = set all statistic values to 0, false = keep them untouched */ +LIBV4L_PUBLIC void v4l2_rds_reset(struct v4l2_rds *handle, bool reset_statistics); + +/* adds a raw RDS block to decode it into RDS groups + * @return: bitmask with with updated fields set to 1 + * @rds_data: 3 bytes of raw RDS data, obtained by calling read() + * on RDS capable V4L2 devices */ +LIBV4L_PUBLIC uint32_t v4l2_rds_add(struct v4l2_rds *handle, struct v4l2_rds_data *rds_data); + +/* + * group of functions to translate numerical RDS data into strings + * + * return program description string defined in the RDS/RBDS Standard + * ! return value depends on selected Standard !*/ +LIBV4L_PUBLIC const char *v4l2_rds_get_pty_str(const struct v4l2_rds *handle); +LIBV4L_PUBLIC const char *v4l2_rds_get_language_str(const struct v4l2_rds *handle); +LIBV4L_PUBLIC const char *v4l2_rds_get_country_str(const struct v4l2_rds *handle); +LIBV4L_PUBLIC const char *v4l2_rds_get_coverage_str(const struct v4l2_rds *handle); + +/* returns a pointer to the last decoded RDS group, in order to give raw + * access to RDS data if it is required (e.g. ODA decoding) */ +LIBV4L_PUBLIC const struct v4l2_rds_group *v4l2_rds_get_group + (const struct v4l2_rds *handle); + + +#ifdef __cplusplus +} +#endif /* __cplusplus */ +#endif diff --git a/lib/libv4l2rds/Makefile.am b/lib/libv4l2rds/Makefile.am new file mode 100644 index 0000000..05c54b0 --- /dev/null +++ b/lib/libv4l2rds/Makefile.am @@ -0,0 +1,11 @@ +if WITH_LIBV4L +lib_LTLIBRARIES = libv4l2rds.la +include_HEADERS = ../include/libv4l2rds.h +pkgconfig_DATA = libv4l2rds.pc +else +noinst_LTLIBRARIES = libv4l2rds.la +endif + +libv4l2rds_la_SOURCES = libv4l2rds.c +libv4l2rds_la_CPPFLAGS = -fvisibility=hidden $(ENFORCE_LIBV4L_STATIC) -std=c99 +libv4l2rds_la_LDFLAGS = -version-info 0 -lpthread $(ENFORCE_LIBV4L_STATIC) diff --git a/lib/libv4l2rds/libv4l2rds.c b/lib/libv4l2rds/libv4l2rds.c new file mode 100644 index 0000000..b60c28d --- /dev/null +++ b/lib/libv4l2rds/libv4l2rds.c @@ -0,0 +1,965 @@ +/* + * Copyright 2012 Cisco Systems, Inc. and/or its affiliates. All rights reserved. + * Author: Konke Radlow + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU Lesser General Public License as published by + * the Free Software Foundation; either version 2.1 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include + +#include "../include/libv4l2rds.h" + +/* struct to encapsulate the private state information of the decoding process */ +/* the fields (except for handle) are for internal use only - new information + * is decoded and stored in them until it can be verified and copied to the + * public part of the rds structure (handle) */ +/* for meaning of abbreviations check the library header libv4l2rds.h */ +struct rds_private_state { + /* v4l2_rds has to be in first position, to allow typecasting between + * v4l2_rds and rds_private_state pointers */ + struct v4l2_rds handle; + + /* current state of rds group decoding */ + uint8_t decode_state; + + /* temporal storage locations for rds fields */ + uint16_t new_pi; + uint8_t new_ps[8]; + uint8_t new_ps_valid[8]; + uint8_t new_pty; + uint8_t new_ptyn[2][4]; + bool new_ptyn_valid[2]; + uint8_t new_rt[64]; + uint8_t next_rt_segment; + uint8_t new_di; + uint8_t next_di_segment; + uint8_t new_ecc; + uint8_t new_lc; + /* RDS date / time representation */ + uint32_t new_mjd; /* modified Julian Day code */ + uint8_t utc_hour; + uint8_t utc_minute; + uint8_t utc_offset; + + struct v4l2_rds_group rds_group; + struct v4l2_rds_data rds_data_raw[4]; +}; + +/* states of the RDS block into group decoding state machine */ +enum rds_state { + RDS_EMPTY, + RDS_A_RECEIVED, + RDS_B_RECEIVED, + RDS_C_RECEIVED, +}; + +static inline uint8_t set_bit(uint8_t input, uint8_t bitmask, bool bitvalue) +{ + return bitvalue ? input | bitmask : input & ~bitmask; +} + +/* rds_decode_a-d(..): group of functions to decode different RDS blocks + * into the RDS group that's currently being received + * + * block A of RDS group always contains PI code of program */ +static uint32_t rds_decode_a(struct rds_private_state *priv_state, struct v4l2_rds_data *rds_data) +{ + struct v4l2_rds *handle = &priv_state->handle; + uint32_t updated_fields = 0; + uint16_t pi = (rds_data->msb << 8) | rds_data->lsb; + + /* data in RDS group is uninterpreted */ + priv_state->rds_group.pi = pi; + + /* compare PI values to detect PI update (Channel Switch) + * --> new PI is only accepted, if the same PI is received + * at least 2 times in a row */ + if (pi != handle->pi && pi == priv_state->new_pi) { + handle->pi = pi; + handle->valid_fields |= V4L2_RDS_PI; + updated_fields |= V4L2_RDS_PI; + } else if (pi != handle->pi && pi != priv_state->new_pi) { + priv_state->new_pi = pi; + } + + return updated_fields; +} + +/* block B of RDS group always contains Group Type Code, Group Type information + * Traffic Program Code and Program Type Code as well as 5 bits of Group Type + * depending information */ +static uint32_t rds_decode_b(struct rds_private_state *priv_state, struct v4l2_rds_data *rds_data) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + bool traffic_prog; + uint8_t pty; + uint32_t updated_fields = 0; + + /* bits 12-15 (4-7 of msb) contain the Group Type Code */ + grp->group_id = rds_data->msb >> 4 ; + + /* bit 11 (3 of msb) defines Group Type info: 0 = A, 1 = B */ + grp->group_version = (rds_data->msb & 0x08) ? 'B' : 'A'; + + /* bit 10 (2 of msb) defines Traffic program Code */ + traffic_prog = (bool)rds_data->msb & 0x04; + if (handle->tp != traffic_prog) { + handle->tp = traffic_prog; + updated_fields |= V4L2_RDS_TP; + } + handle->valid_fields |= V4L2_RDS_TP; + + /* bits 0-4 contains Group Type depending information */ + grp->data_b_lsb = rds_data->lsb & 0x1f; + + /* bits 5-9 contain the PTY code */ + pty = (rds_data->msb << 3) | (rds_data->lsb >> 5); + pty &= 0x1f; /* mask out 3 irrelevant bits */ + /* only accept new PTY if same PTY is received twice in a row + * and filter out cases where the PTY is already known */ + if (handle->pty == pty) { + priv_state->new_pty = pty; + return updated_fields; + } + + if (priv_state->new_pty == pty) { + handle->pty = priv_state->new_pty; + updated_fields |= V4L2_RDS_PTY; + handle->valid_fields |= V4L2_RDS_PTY; + } else { + priv_state->new_pty = pty; + } + + return updated_fields; +} + +/* block C of RDS group contains either data or the PI code, depending + * on the Group Type - store the raw data for later decoding */ +static void rds_decode_c(struct rds_private_state *priv_state, struct v4l2_rds_data *rds_data) +{ + struct v4l2_rds_group *grp = &priv_state->rds_group; + + grp->data_c_msb = rds_data->msb; + grp->data_c_lsb = rds_data->lsb; + /* we could decode the PI code here, because we already know if the + * group is of type A or B, but it doesn't give any advantage because + * we only get here after the PI code has been decoded in the first + * state of the state machine */ +} + +/* block D of RDS group contains data - store the raw data for later decoding */ +static void rds_decode_d(struct rds_private_state *priv_state, struct v4l2_rds_data *rds_data) +{ + struct v4l2_rds_group *grp = &priv_state->rds_group; + + grp->data_d_msb = rds_data->msb; + grp->data_d_lsb = rds_data->lsb; +} + +static bool rds_add_oda(struct rds_private_state *priv_state, struct v4l2_rds_oda oda) +{ + struct v4l2_rds *handle = &priv_state->handle; + + /* check if there was already an ODA announced for this group type */ + for (int i = 0; i < handle->rds_oda.size; i++) { + if (handle->rds_oda.oda[i].group_id == oda.group_id) + /* update the AID for this ODA */ + handle->rds_oda.oda[i].aid = oda.aid; + return false; + } + /* add the new ODA */ + if (handle->rds_oda.size >= MAX_ODA_CNT) + return false; + handle->rds_oda.oda[handle->rds_oda.size++] = oda; + return true; +} + +/* add a new AF to the list, if it doesn't exist yet */ +static bool rds_add_af_to_list(struct v4l2_rds_af_set *af_set, uint8_t af, bool is_vhf) +{ + uint32_t freq = 0; + + /* AF0 -> "Not to be used" */ + if (af == 0) + return false; + + /* calculate the AF values in HZ */ + if (is_vhf) + freq = 87500000 + af * 100000; + else if (freq <= 15) + freq = 152000 + af * 9000; + else + freq = 531000 + af * 9000; + + /* prevent buffer overflows */ + if (af_set->size >= MAX_AF_CNT || af_set->size >= af_set->announced_af) + return false; + /* check if AF already exists */ + for (int i = 0; i < af_set->size; i++) { + if (af_set->af[i] == freq) + return false; + } + /* it's a new AF, add it to the list */ + af_set->af[(af_set->size)++] = freq; + return true; +} + +/* extracts the AF information from Block 3 of type 0A groups, and tries + * to add them to the AF list with a helper function */ +static bool rds_add_af(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + + /* AFs are submitted in Block 3 of type 0A groups */ + uint8_t c_msb = priv_state->rds_group.data_c_msb; + uint8_t c_lsb = priv_state->rds_group.data_c_lsb; + bool updated_af = false; + struct v4l2_rds_af_set *af_set = &handle->rds_af; + + /* the 4 8-bit values in the block's data fields (c_msb/c_lsb, + * d_msb/d_lsb) represent either a carrier frequency (1..204) + * or a special meaning (205..255). + * Translation tables can be found in IEC 62106 section 6.2.1.6 */ + + /* 250: LF / MF frequency follows */ + if (c_msb == 250) { + if (rds_add_af_to_list(af_set, c_lsb, false)) + updated_af = true; + c_lsb = 0; /* invalidate */ + } + /* 224..249: announcement of AF count (224=0, 249=25)*/ + if (c_msb >= 224 && c_msb <= 249) + af_set->announced_af = c_msb - 224; + /* check if the data represents an AF (for 1 =< val <= 204 the + * value represents an AF) */ + if (c_msb < 205) + if (rds_add_af_to_list(af_set, c_msb, true)) + updated_af = true; + if (c_lsb < 205) + if (rds_add_af_to_list(af_set, c_lsb, true)) + updated_af = true; + /* did we receive all announced AFs? */ + if (af_set->size >= af_set->announced_af && af_set->announced_af != 0) + handle->valid_fields |= V4L2_RDS_AF; + return updated_af; +} + +/* adds one char of the ps name to temporal storage, the value is validated + * if it is received twice in a row + * @pos: position of the char within the PS name (0..7) + * @ps_char: the new character to be added + * @return: true, if all 8 temporal ps chars have been validated */ +static bool rds_add_ps(struct rds_private_state *priv_state, uint8_t pos, uint8_t ps_char) +{ + if (ps_char == priv_state->new_ps[pos]) { + priv_state->new_ps_valid[pos] = 1; + } else { + priv_state->new_ps[pos] = ps_char; + memset(priv_state->new_ps_valid, 0, 8); + } + + /* check if all ps positions have been validated */ + for (int i = 0; i < 8; i++) + if (priv_state->new_ps_valid[i] != 1) + return false; + return true; +} + +/* group of functions to decode successfully received RDS groups into + * easily accessible data fields + * + * group 0: basic tuning and switching */ +static uint32_t rds_decode_group0(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + bool new_ps = false; + bool tmp; + uint32_t updated_fields = 0; + + /* bit 4 of block B contains the TA flag */ + tmp = grp->data_b_lsb & 0x10; + if (handle->ta != tmp) { + handle->ta = tmp; + updated_fields |= V4L2_RDS_TA; + } + handle->valid_fields |= V4L2_RDS_TA; + + /* bit 3 of block B contains the Music/Speech flag */ + tmp = grp->data_b_lsb & 0x08; + if (handle->ms != tmp) { + handle->ms = tmp; + updated_fields |= V4L2_RDS_MS; + } + handle->valid_fields |= V4L2_RDS_MS; + + /* bit 0-1 of block b contain program service name and decoder + * control segment address */ + uint8_t segment = grp->data_b_lsb & 0x03; + + /* put the received station-name characters into the correct position + * of the station name, and check if the new PS is validated */ + rds_add_ps(priv_state, segment * 2, grp->data_d_msb); + new_ps = rds_add_ps(priv_state, segment * 2 + 1, grp->data_d_lsb); + if (new_ps) { + /* check if new PS is the same as the old one */ + if (memcmp(priv_state->new_ps, handle->ps, 8) != 0) { + memcpy(handle->ps, priv_state->new_ps, 8); + updated_fields |= V4L2_RDS_PS; + } + handle->valid_fields |= V4L2_RDS_PS; + } + + /* bit 2 of block B contains 1 bit of the Decoder Control Information (DI) + * the segment number defines the bit position + * New bits are only accepted the segments arrive in the correct order */ + bool bit2 = grp->data_b_lsb & 0x04; + if (segment == 0 || segment == priv_state->next_di_segment) { + switch (segment) { + case 0: + priv_state->new_di = set_bit(priv_state->new_di, + V4L2_RDS_FLAG_STEREO, bit2); + priv_state->next_di_segment = 1; + break; + case 1: + priv_state->new_di = set_bit(priv_state->new_di, + V4L2_RDS_FLAG_ARTIFICIAL_HEAD, bit2); + priv_state->next_di_segment = 2; + break; + case 2: + priv_state->new_di = set_bit(priv_state->new_di, + V4L2_RDS_FLAG_COMPRESSED, bit2); + priv_state->next_di_segment = 3; + break; + case 3: + priv_state->new_di = set_bit(priv_state->new_di, + V4L2_RDS_FLAG_STATIC_PTY, bit2); + /* check if the value of DI has changed, and store + * and signal DI update in case */ + if (handle->di != priv_state->new_di) { + handle->di = priv_state->new_di; + updated_fields |= V4L2_RDS_DI; + } + priv_state->next_di_segment = 0; + handle->valid_fields |= V4L2_RDS_DI; + break; + } + } else { + /* wrong order of DI segments -> restart */ + priv_state->next_di_segment = 0; + priv_state->new_di = 0; + } + + /* version A groups contain AFs in block C */ + if (grp->group_version == 'A') + if (rds_add_af(priv_state)) + updated_fields |= V4L2_RDS_AF; + + return updated_fields; +} + +/* group 1: slow labeling codes & program item number */ +static uint32_t rds_decode_group1(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + uint32_t updated_fields = 0; + uint8_t variant_code = 0; + + /* version A groups contain slow labeling codes, + * version B groups only contain program item number which is a + * very uncommonly used feature */ + if (grp->group_version != 'A') + return 0; + + /* bit 14-12 of block c contain the variant code */ + variant_code = (grp->data_c_msb >> 4) & 0x07; + if (variant_code == 0) { + /* var 0 -> ECC, only accept if same lc is + * received twice */ + if (grp->data_c_lsb == priv_state->new_ecc) { + handle->valid_fields |= V4L2_RDS_ECC; + if (handle->ecc != grp->data_c_lsb) + updated_fields |= V4L2_RDS_ECC; + handle->ecc = grp->data_c_lsb; + } else { + priv_state->new_ecc = grp->data_c_lsb; + } + } else if (variant_code == 0x03) { + /* var 0x03 -> Language Code, only accept if same lc is + * received twice */ + if (grp->data_c_lsb == priv_state->new_lc) { + handle->valid_fields |= V4L2_RDS_LC; + updated_fields |= V4L2_RDS_LC; + handle->lc = grp->data_c_lsb; + } else { + priv_state->new_lc = grp->data_c_lsb; + } + } + return updated_fields; +} + +/* group 2: radio text */ +static uint32_t rds_decode_group2(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + uint32_t updated_fields = 0; + + /* bit 0-3 of block B contain the segment code */ + uint8_t segment = grp->data_b_lsb & 0x0f; + /* bit 4 of block b contains the A/B text flag (new radio text + * will be transmitted) */ + bool rt_ab_flag_n = grp->data_b_lsb & 0x10; + + /* new Radio Text will be transmitted */ + if (rt_ab_flag_n != handle->rt_ab_flag) { + handle->rt_ab_flag = rt_ab_flag_n; + memset(handle->rt, 0, 64); + handle->valid_fields &= ~V4L2_RDS_RT; + updated_fields |= V4L2_RDS_RT; + priv_state->next_rt_segment = 0; + } + + /* further decoding of data depends on type of message (A or B) + * Type A allows RTs with a max length of 64 chars + * Type B allows RTs with a max length of 32 chars */ + if (grp->group_version == 'A') { + if (segment == 0 || segment == priv_state->next_rt_segment) { + priv_state->new_rt[segment * 4] = grp->data_c_msb; + priv_state->new_rt[segment * 4 + 1] = grp->data_c_lsb; + priv_state->new_rt[segment * 4 + 2] = grp->data_d_msb; + priv_state->new_rt[segment * 4 + 3] = grp->data_d_lsb; + priv_state->next_rt_segment = segment + 1; + if (segment == 0x0f) { + handle->rt_length = 64; + handle->valid_fields |= V4L2_RDS_RT; + if (memcmp(handle->rt, priv_state->new_rt, 64)) { + memcpy(handle->rt, priv_state->new_rt, 64); + updated_fields |= V4L2_RDS_RT; + } + priv_state->next_rt_segment = 0; + } + } + } else { + if (segment == 0 || segment == priv_state->next_rt_segment) { + priv_state->new_rt[segment * 2] = grp->data_d_msb; + priv_state->new_rt[segment * 2 + 1] = grp->data_d_lsb; + /* PI code in block C will be ignored */ + priv_state->next_rt_segment = segment + 1; + if (segment == 0x0f) { + handle->rt_length = 32; + handle->valid_fields |= V4L2_RDS_RT; + updated_fields |= V4L2_RDS_RT; + if (memcmp(handle->rt, priv_state->new_rt, 32)) { + memcpy(handle->rt, priv_state->new_rt, 32); + updated_fields |= V4L2_RDS_RT; + } + priv_state->next_rt_segment = 0; + } + } + } + + /* determine if complete rt was received + * a carriage return (0x0d) can end a message early */ + for (int i = 0; i < 64; i++) { + if (priv_state->new_rt[i] == 0x0d) { + /* replace CR with terminating character */ + priv_state->new_rt[i] = '\0'; + handle->rt_length = i; + handle->valid_fields |= V4L2_RDS_RT; + if (memcmp(handle->rt, priv_state->new_rt, handle->rt_length)) { + memcpy(handle->rt, priv_state->new_rt, + handle->rt_length); + updated_fields |= V4L2_RDS_RT; + } + priv_state->next_rt_segment = 0; + } + } + return updated_fields; +} + +/* group 3: Open Data Announcements */ +static uint32_t rds_decode_group3(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + struct v4l2_rds_oda new_oda; + uint32_t updated_fields = 0; + + if (grp->group_version != 'A') + return 0; + + /* 0th bit of block b contains Group Type Info version of announced ODA + * Group Type info: 0 = A, 1 = B */ + new_oda.group_version = (grp->data_b_lsb & 0x01) ? 'B' : 'A'; + /* 1st to 4th bit contain Group ID of announced ODA */ + new_oda.group_id = (grp->data_b_lsb & 0x1e) >> 1; + /* block D contains the 16bit Application Identification Code */ + new_oda.aid = (grp->data_d_msb << 8) | grp->data_d_lsb; + + /* try to add the new ODA to the set of defined ODAs */ + if (rds_add_oda(priv_state, new_oda)) { + handle->decode_information |= V4L2_RDS_ODA; + updated_fields |= V4L2_RDS_ODA; + } + return updated_fields; +} + +/* decodes the RDS date/time representation into a standard c representation + * that can be used with c-library functions */ +static time_t rds_decode_mjd(const struct rds_private_state *priv_state) +{ + struct tm new_time; + int y, m, d, k = 0; + /* offset is given in multiples of half hrs */ + uint32_t offset = priv_state->utc_offset & 0x1f; + uint32_t local_mjd = priv_state->new_mjd; + uint8_t local_hour = priv_state->utc_hour; + uint8_t local_minute = priv_state->utc_minute; + + /* add / subtract the local offset to get the local time. + * The offset is expressed in multiples of half hours */ + if (priv_state->utc_offset & 0x20) { /* bit 5 indicates -/+ */ + local_hour -= (offset * 2); + local_minute -= (offset % 2) * 30; + } else { + local_hour += (offset * 2); + local_minute += (offset % 2) * 30; + } + + /* the formulas for the conversion are taken from Annex G of the + * IEC 62106 RDS standard */ + y = (int)((local_mjd - 15078.2) / 365.25); + m = (int)((local_mjd - 14956.1 - (int)(y * 365.25)) / 30.6001); + d = (int)(local_mjd - 14956 - (int)(y * 365.25) - (int)(m * 30.6001)); + if (m == 14 || m == 15) + k = 1; + y = y + k; + m = m - 1 - k*12; + + /* put the values into a tm struct for conversion into time_t value */ + new_time.tm_sec = 0; + new_time.tm_min = local_minute; + new_time.tm_hour = local_hour; + new_time.tm_mday = d; + new_time.tm_mon = m; + new_time.tm_year = y; + /* offset (submitted by RDS) that was used to compute the local time, + * expressed in multiples of half hours, bit 5 indicates -/+ */ + if (priv_state->utc_offset & 0x20) + new_time.tm_gmtoff = -2 * offset * 3600; + else + new_time.tm_gmtoff = 2 * offset * 3600; + + /* convert tm struct to time_t value and return it */ + return mktime(&new_time); +} + +/* group 4: Date and Time */ +static uint32_t rds_decode_group4(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + uint32_t mjd; + uint32_t updated_fields = 0; + + if (grp->group_version != 'A') + return 0; + + /* bits 0-1 of block b lsb contain bits 15 and 16 of Julian day code + * bits 0-7 of block c msb contain bits 7 to 14 of Julian day code + * bits 1-7 of block c lsb contain bits 0 to 6 of Julian day code */ + mjd = ((grp->data_b_lsb & 0x03) << 15) | + (grp->data_c_msb << 7) | (grp->data_c_lsb >> 1); + /* the same mjd has to be received twice in order to accept the data */ + if (priv_state->new_mjd != mjd) { + priv_state->new_mjd = mjd; + return 0; + } + /* same mjd received at least twice --> decode time & date */ + + /* bit 0 of block c lsb contains bit 4 of utc_hour + * bits 4-7 of block d contains bits 0 to 3 of utc_hour */ + priv_state->utc_hour = ((grp->data_c_lsb & 0x01) << 4) | + (grp->data_d_msb >> 4); + + /* bits 0-3 of block d msb contain bits 2 to 5 of utc_minute + * bits 6-7 of block d lsb contain bits 0 and 1 utc_minute */ + priv_state->utc_minute = ((grp->data_d_msb & 0x0f) << 2) | + (grp->data_d_lsb >> 6); + + /* bits 0-5 of block d lsb contain bits 0 to 5 of local time offset */ + priv_state->utc_offset = grp->data_d_lsb & 0x3f; + + /* decode RDS time representation into commonly used c representation */ + handle->time = rds_decode_mjd(priv_state); + updated_fields |= V4L2_RDS_TIME; + handle->valid_fields |= V4L2_RDS_TIME; + printf("\nLIB: time_t: %ld", handle->time); + return updated_fields; +} + +/* group 10: Program Type Name */ +static uint32_t rds_decode_group10(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + struct v4l2_rds_group *grp = &priv_state->rds_group; + uint32_t updated_fields = 0; + uint8_t ptyn_tmp[4]; + + /* bit 0 of block B contain the segment code */ + uint8_t segment_code = grp->data_b_lsb & 0x01; + /* bit 4 of block b contains the A/B text flag (new ptyn + * will be transmitted) */ + bool ptyn_ab_flag_n = grp->data_b_lsb & 0x10; + + if (grp->group_version != 'A') + return 0; + + /* new Program Type Text will be transmitted */ + if (ptyn_ab_flag_n != handle->ptyn_ab_flag) { + handle->ptyn_ab_flag = ptyn_ab_flag_n; + memset(handle->ptyn, 0, 8 * sizeof(char)); + memset(priv_state->new_ptyn, 0, 8 * sizeof(char)); + memset(priv_state->new_ptyn_valid, 0, 2 * sizeof(bool)); + handle->valid_fields &= ~V4L2_RDS_PTYN; + updated_fields |= V4L2_RDS_PTYN; + } + /* copy chars to designated position within temp text field */ + ptyn_tmp[0] = grp->data_c_msb; + ptyn_tmp[1] = grp->data_c_lsb; + ptyn_tmp[2] = grp->data_d_msb; + ptyn_tmp[3] = grp->data_d_lsb; + + /* only validate ptyn segment if the same data is received twice */ + if (memcmp(ptyn_tmp, priv_state->new_ptyn[segment_code], 4) == 0) { + priv_state->new_ptyn_valid[segment_code] = true; + } else { + for (int i = 0; i < 4; i++) + priv_state->new_ptyn[segment_code][i] = ptyn_tmp[i]; + priv_state->new_ptyn_valid[segment_code] = false; + } + + /* if both ptyn segments have been validated, accept the new ptyn */ + if (priv_state->new_ptyn_valid[0] && priv_state->new_ptyn_valid[1]) { + for (int i = 0; i < 4; i++) { + handle->ptyn[i] = priv_state->new_ptyn[0][i]; + handle->ptyn[4 + i] = priv_state->new_ptyn[1][i]; + } + handle->valid_fields |= V4L2_RDS_PTYN; + updated_fields |= V4L2_RDS_PTYN; + } + return updated_fields; +} + +typedef uint32_t (*decode_group_func)(struct rds_private_state *); + +/* array of function pointers to contain all group specific decoding functions */ +static const decode_group_func decode_group[16] = { + [0] = rds_decode_group0, + [1] = rds_decode_group1, + [2] = rds_decode_group2, + [3] = rds_decode_group3, + [4] = rds_decode_group4, + [10] = rds_decode_group10, +}; + +static uint32_t rds_decode_group(struct rds_private_state *priv_state) +{ + struct v4l2_rds *handle = &priv_state->handle; + uint8_t group_id = priv_state->rds_group.group_id; + + /* count the group type, and decode it if it is supported */ + handle->rds_statistics.group_type_cnt[group_id]++; + if (decode_group[group_id]) + return (*decode_group[group_id])(priv_state); + return 0; +} + +struct v4l2_rds *v4l2_rds_create(bool is_rbds) +{ + struct rds_private_state *internal_handle = + calloc(1, sizeof(struct rds_private_state)); + internal_handle->handle.version = V4L2_RDS_VERSION; + internal_handle->handle.is_rbds = is_rbds; + + return (struct v4l2_rds *)internal_handle; +} + +void v4l2_rds_destroy(struct v4l2_rds *handle) +{ + if (handle) + free(handle); +} + +void v4l2_rds_reset(struct v4l2_rds *handle, bool reset_statistics) +{ + /* treat the private & the public part of the handle */ + struct rds_private_state *priv_state = (struct rds_private_state *) handle; + + /* store members of handle that shouldn't be affected by reset */ + bool is_rbds = handle->is_rbds; + struct v4l2_rds_statistics rds_statistics = handle->rds_statistics; + + /* reset the handle */ + memset(priv_state, 0, sizeof(*priv_state)); + /* re-initialize members */ + handle->is_rbds = is_rbds; + if (!reset_statistics) + handle->rds_statistics = rds_statistics; +} + +/* function decodes raw RDS data blocks into complete groups. Once a full group is + * successfully received, the group is decoded into the fields of the RDS handle. + * Decoding is only done once a complete group was received. This is slower compared + * to decoding the group type independent information up front, but adds a barrier + * against corrupted data (happens regularly when reception is weak) */ +uint32_t v4l2_rds_add(struct v4l2_rds *handle, struct v4l2_rds_data *rds_data) +{ + struct rds_private_state *priv_state = (struct rds_private_state *) handle; + struct v4l2_rds_data *rds_data_raw = priv_state->rds_data_raw; + struct v4l2_rds_statistics *rds_stats = &handle->rds_statistics; + uint32_t updated_fields = 0; + uint8_t *decode_state = &(priv_state->decode_state); + + /* get the block id by masking out irrelevant bits */ + int block_id = rds_data->block & V4L2_RDS_BLOCK_MSK; + + rds_stats->block_cnt++; + /* check for corrected / uncorrectable errors in the data */ + if (rds_data->block & V4L2_RDS_BLOCK_ERROR) { + block_id = -1; + rds_stats->block_error_cnt++; + } else if (rds_data->block & V4L2_RDS_BLOCK_CORRECTED) { + rds_stats->block_corrected_cnt++; + } + + switch (*decode_state) { + case RDS_EMPTY: + if (block_id == 0) { + *decode_state = RDS_A_RECEIVED; + /* begin reception of a new data group, reset raw buffer to 0 */ + memset(rds_data_raw, 0, sizeof(rds_data_raw)); + rds_data_raw[0] = *rds_data; + } else { + /* ignore block if it is not the first block of a group */ + rds_stats->group_error_cnt++; + } + break; + + case RDS_A_RECEIVED: + if (block_id == 1) { + *decode_state = RDS_B_RECEIVED; + rds_data_raw[1] = *rds_data; + } else { + /* received block with unexpected block id, reset state machine */ + rds_stats->group_error_cnt++; + *decode_state = RDS_EMPTY; + } + break; + + case RDS_B_RECEIVED: + /* handle type C and C' blocks alike */ + if (block_id == 2 || block_id == 4) { + *decode_state = RDS_C_RECEIVED; + rds_data_raw[2] = *rds_data; + } else { + rds_stats->group_error_cnt++; + *decode_state = RDS_EMPTY; + } + break; + + case RDS_C_RECEIVED: + if (block_id == 3) { + *decode_state = RDS_EMPTY; + rds_data_raw[3] = *rds_data; + /* a full group was received */ + rds_stats->group_cnt++; + /* decode group type independent fields */ + memset(&priv_state->rds_group, 0, sizeof(priv_state->rds_group)); + updated_fields |= rds_decode_a(priv_state, &rds_data_raw[0]); + updated_fields |= rds_decode_b(priv_state, &rds_data_raw[1]); + rds_decode_c(priv_state, &rds_data_raw[2]); + rds_decode_d(priv_state, &rds_data_raw[3]); + /* decode group type dependent fields */ + updated_fields |= rds_decode_group(priv_state); + return updated_fields; + } + rds_stats->group_error_cnt++; + *decode_state = RDS_EMPTY; + break; + + default: + /* every unexpected block leads to a reset of the sm */ + rds_stats->group_error_cnt++; + *decode_state = RDS_EMPTY; + } + /* if we reach here, no RDS group was completed */ + return 0; +} + +const char *v4l2_rds_get_pty_str(const struct v4l2_rds *handle) +{ + const uint8_t pty = handle->pty; + + if (pty >= 32) + return NULL; + + static const char *rds_lut[32] = { + "None", "News", "Affairs", "Info", "Sport", "Education", "Drama", + "Culture", "Science", "Varied Speech", "Pop Music", + "Rock Music", "Easy Listening", "Light Classics M", + "Serious Classics", "Other Music", "Weather", "Finance", + "Children", "Social Affairs", "Religion", "Phone In", + "Travel & Touring", "Leisure & Hobby", "Jazz Music", + "Country Music", "National Music", "Oldies Music", "Folk Music", + "Documentary", "Alarm Test", "Alarm!" + }; + static const char *rbds_lut[32] = { + "None", "News", "Information", "Sports", "Talk", "Rock", + "Classic Rock", "Adult Hits", "Soft Rock", "Top 40", "Country", + "Oldies", "Soft", "Nostalgia", "Jazz", "Classical", + "R&B", "Soft R&B", "Foreign Language", "Religious Music", + "Religious Talk", "Personality", "Public", "College", + "Spanish Talk", "Spanish Music", "Hip-Hop", "Unassigned", + "Unassigned", "Weather", "Emergency Test", "Emergency" + }; + + return handle->is_rbds ? rbds_lut[pty] : rds_lut[pty]; +} + +const char *v4l2_rds_get_country_str(const struct v4l2_rds *handle) +{ + /* defines the region of the world + * 0x0e = Europe, 0x0d = Africa, 0x0a = ITU Region 2, + * 0x0f = ITU Region 3 */ + uint8_t ecc_h = handle->ecc >> 4; + /* sub identifier for the region, valid range 0..4 */ + uint8_t ecc_l = handle->ecc & 0x0f; + /* bits 12-15 pi contain the country code */ + uint8_t country_code = handle->pi >> 12; + + /* LUT for European countries + * the standard doesn't define every possible value but leaves some + * undefined. An exception is e4-7 which is defined as a dash ("-") */ + static const char *e_lut[5][16] = { + { + NULL, "DE", "DZ", "AD", "IL", "IT", "BE", "RU", "PS", "AL", + "AT", "HU", "MT", "DE", NULL, "EG" + }, { + NULL, "GR", "CY", "SM", "CH", "JO", "FI", "LU", "BG", "DK", + "GI", "IQ", "GB", "LY", "RO", "FR" + }, { + NULL, "MA", "CZ", "PL", "VA", "SK", "SY", "TN", NULL, "LI", + "IS", "MC", "LT", "RS", "ES", "NO" + }, { + NULL, "ME", "IE", "TR", "MK", NULL, NULL, NULL, "NL", "LV", + "LB", "AZ", "HR", "KZ", "SE", "BY" + }, { + NULL, "MD", "EE", "KG", NULL, NULL, "UA", "-", "PT", "SI", + "AM", NULL, "GE", NULL, NULL, "BA" + } + }; + + /* for now only European countries are supported -> ECC E0 - E4 + * but the standard defines country codes for the whole world, + * that's the reason for returning "unknown" instead of a NULL + * pointer until all defined countries are supported */ + if (ecc_h == 0x0e && ecc_l <= 0x04) + return e_lut[ecc_l][country_code]; + return "Unknown"; +} + +static const char *rds_language_lut(const uint8_t lc) +{ + const uint8_t max_lc = 127; + const char *language; + + static const char *language_lut[128] = { + "Unknown", "Albanian", "Breton", "Catalan", + "Croatian", "Welsh", "Czech", "Danish", + "German", "English", "Spanish", "Esperanto", + "Estonian", "Basque", "Faroese", "French", + "Frisian", "Irish", "Gaelic", "Galician", + "Icelandic", "Italian", "Lappish", "Latin", + "Latvian", "Luxembourgian", "Lithuanian", "Hungarian", + "Maltese", "Dutch", "Norwegian", "Occitan", + "Polish", "Portuguese", "Romanian", "Ramansh", + "Serbian", "Slovak", "Slovene", "Finnish", + "Swedish", "Turkish", "Flemish", "Walloon", + NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, + NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, + NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, + NULL, "Zulu", "Vietnamese", "Uzbek", + "Urdu", "Ukrainian", "Thai", "Telugu", + "Tatar", "Tamil", "Tadzhik", "Swahili", + "Sranan Tongo", "Somali", "Sinhalese", "Shona", + "Serbo-Croat", "Ruthenian", "Russian", "Quechua", + "Pushtu", "Punjabi", "Persian", "Papamiento", + "Oriya", "Nepali", "Ndebele", "Marathi", + "Moldavian", "Malaysian", "Malagasay", "Macedonian", + "Laotian", "Korean", "Khmer", "Kazahkh", + "Kannada", "Japanese", "Indonesian", "Hindi", + "Hebrew", "Hausa", "Gurani", "Gujurati", + "Greek", "Georgian", "Fulani", "Dani", + "Churash", "Chinese", "Burmese", "Bulgarian", + "Bengali", "Belorussian", "Bambora", "Azerbaijani", + "Assamese", "Armenian", "Arabic", "Amharic" + }; + + /* filter invalid values and undefined table entries */ + language = (lc > max_lc) ? "Unknown" : language_lut[lc]; + if (!language) + return "Unknown"; + return language; +} + +const char *v4l2_rds_get_language_str(const struct v4l2_rds *handle) +{ + return rds_language_lut(handle->lc); +} + +const char *v4l2_rds_get_coverage_str(const struct v4l2_rds *handle) +{ + /* bits 8-11 contain the area coverage code */ + uint8_t coverage = (handle->pi >> 8) & 0X0f; + static const char *coverage_lut[16] = { + "Local", "International", "National", "Supra-Regional", + "Regional 1", "Regional 2", "Regional 3", "Regional 4", + "Regional 5", "Regional 6", "Regional 7", "Regional 8", + "Regional 9", "Regional 10", "Regional 11", "Regional 12" + }; + + return coverage_lut[coverage]; +} + +const struct v4l2_rds_group *v4l2_rds_get_group + (const struct v4l2_rds *handle) +{ + struct rds_private_state *priv_state = (struct rds_private_state *) handle; + return &priv_state->rds_group; +} diff --git a/lib/libv4l2rds/libv4l2rds.pc.in b/lib/libv4l2rds/libv4l2rds.pc.in new file mode 100644 index 0000000..cc1d5f6 --- /dev/null +++ b/lib/libv4l2rds/libv4l2rds.pc.in @@ -0,0 +1,11 @@ +prefix=@prefix@ +exec_prefix=@exec_prefix@ +includedir=@includedir@ +libdir=@libdir@ + +Name: libv4l2rds +Description: v4l2 RDS decode library +Version: @PACKAGE_VERSION@ +Libs: -L${libdir} -lv4l2rds +Libs.private: -lpthread +Cflags: -I${includedir}