/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2014, Digium, Inc. * * Joshua Colp * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ /*! \file * * \brief Media Format Bitfield Compatibility API * * \author Joshua Colp */ /*** MODULEINFO core ***/ #include "asterisk.h" #include "asterisk/logger.h" #include "asterisk/astobj2.h" #include "asterisk/codec.h" #include "asterisk/format.h" #include "asterisk/format_compatibility.h" #include "asterisk/format_cache.h" #include "asterisk/format_cap.h" #include "asterisk/utils.h" #include "include/codec_pref.h" #include "include/format_compatibility.h" void iax2_codec_pref_convert(struct iax2_codec_pref *pref, char *buf, size_t size, int right) { static int differential = (int) 'A'; int x; if (right) { --size;/* Save room for the nul string terminator. */ for (x = 0; x < ARRAY_LEN(pref->order) && x < size; ++x) { if (!pref->order[x]) { break; } buf[x] = pref->order[x] + differential; } buf[x] = '\0'; } else { for (x = 0; x < ARRAY_LEN(pref->order) && x < size; ++x) { if (buf[x] == '\0') { break; } pref->order[x] = buf[x] - differential; pref->framing[x] = 0; } if (x < ARRAY_LEN(pref->order)) { pref->order[x] = 0; pref->framing[x] = 0; } } } struct ast_format *iax2_codec_pref_index(struct iax2_codec_pref *pref, int idx, struct ast_format **result) { if (0 <= idx && idx < ARRAY_LEN(pref->order) && pref->order[idx]) { uint64_t pref_bitfield; pref_bitfield = iax2_codec_pref_order_value_to_format_bitfield(pref->order[idx]); *result = ast_format_compatibility_bitfield2format(pref_bitfield); } else { *result = NULL; } return *result; } int iax2_codec_pref_to_cap(struct iax2_codec_pref *pref, struct ast_format_cap *cap) { int idx; for (idx = 0; idx < ARRAY_LEN(pref->order); ++idx) { uint64_t pref_bitfield; struct ast_format *pref_format; pref_bitfield = iax2_codec_pref_order_value_to_format_bitfield(pref->order[idx]); if (!pref_bitfield) { break; } pref_format = ast_format_compatibility_bitfield2format(pref_bitfield); if (pref_format && ast_format_cap_append(cap, pref_format, pref->framing[idx])) { return -1; } } return 0; } int iax2_codec_pref_best_bitfield2cap(uint64_t bitfield, struct iax2_codec_pref *prefs, struct ast_format_cap *cap) { uint64_t best_bitfield; struct ast_format *format; /* Add any user preferred codecs first. */ if (prefs) { int idx; for (idx = 0; bitfield && idx < ARRAY_LEN(prefs->order); ++idx) { best_bitfield = iax2_codec_pref_order_value_to_format_bitfield(prefs->order[idx]); if (!best_bitfield) { break; } if (best_bitfield & bitfield) { format = ast_format_compatibility_bitfield2format(best_bitfield); if (format && ast_format_cap_append(cap, format, prefs->framing[idx])) { return -1; } /* Remove just added codec. */ bitfield &= ~best_bitfield; } } } /* Add the hard coded "best" codecs. */ while (bitfield) { best_bitfield = iax2_format_compatibility_best(bitfield); if (!best_bitfield) { /* No more codecs considered best. */ break; } format = ast_format_compatibility_bitfield2format(best_bitfield); /* The best_bitfield should always be convertible to a format. */ ast_assert(format != NULL); if (ast_format_cap_append(cap, format, 0)) { return -1; } /* Remove just added "best" codec to find the next "best". */ bitfield &= ~best_bitfield; } /* Add any remaining codecs. */ if (bitfield) { int bit; for (bit = 0; bit < 64; ++bit) { uint64_t mask = (1ULL << bit); if (mask & bitfield) { format = ast_format_compatibility_bitfield2format(mask); if (format && ast_format_cap_append(cap, format, 0)) { return -1; } } } } return 0; } int iax2_codec_pref_string(struct iax2_codec_pref *pref, char *buf, size_t size) { int x; struct ast_format_cap *cap; size_t total_len; char *cur; /* This function is useless if you have less than a 6 character buffer. * '(...)' is six characters. */ if (size < 6) { return -1; } /* Convert the preferences into a format cap so that we can read the format names */ cap = ast_format_cap_alloc(AST_FORMAT_CAP_FLAG_DEFAULT); if (!cap || iax2_codec_pref_to_cap(pref, cap)) { strcpy(buf, "(...)"); /* Safe */ ao2_cleanup(cap); return -1; } /* We know that at a minimum, 3 characters are used - (, ), and \0 */ total_len = size - 3; /* This character has already been accounted for total_len purposes */ buf[0] = '('; cur = buf + 1; /* Loop through the formats and write as many into the buffer as we can */ for (x = 0; x < ast_format_cap_count(cap); x++) { size_t name_len; struct ast_format *fmt = ast_format_cap_get_format(cap, x); const char *name = ast_format_get_name(fmt); name_len = strlen(name); /* all entries after the first need a delimiter character */ if (x) { name_len++; } /* Terminate the list early if we don't have room for the entry. * If it's not the last entry in the list, save enough room to write '...'. */ if (((x == ast_format_cap_count(cap) - 1) && (total_len < name_len)) || ((x < ast_format_cap_count(cap) - 1) && (total_len < name_len + 3))) { strcpy(cur, "..."); cur += 3; total_len -= 3; ao2_ref(fmt, -1); break; } sprintf(cur, "%s%s", x ? "|" : "", name); cur += name_len; total_len -= name_len; ao2_ref(fmt, -1); } ao2_ref(cap, -1); /* These two characters have already been accounted for total_len purposes */ cur[0] = ')'; cur[1] = '\0'; return size - total_len; } static void codec_pref_remove_index(struct iax2_codec_pref *pref, int codec_pref_index) { int idx; idx = codec_pref_index; if (idx == ARRAY_LEN(pref->order) - 1) { /* Remove from last array entry. */ pref->order[idx] = 0; pref->framing[idx] = 0; return; } for (; idx < ARRAY_LEN(pref->order); ++idx) { pref->order[idx] = pref->order[idx + 1]; pref->framing[idx] = pref->framing[idx + 1]; if (!pref->order[idx]) { return; } } } /*! \brief Remove codec from pref list */ static void codec_pref_remove(struct iax2_codec_pref *pref, int format_index) { int x; if (!pref->order[0]) { return; } for (x = 0; x < ARRAY_LEN(pref->order); ++x) { if (!pref->order[x]) { break; } if (pref->order[x] == format_index) { codec_pref_remove_index(pref, x); break; } } } void iax2_codec_pref_remove_missing(struct iax2_codec_pref *pref, uint64_t bitfield) { int idx; if (!pref->order[0]) { return; } /* * Work from the end of the list so we always deal with * unmodified entries in case we have to remove a pref. */ for (idx = ARRAY_LEN(pref->order); idx--;) { uint64_t pref_bitfield; pref_bitfield = iax2_codec_pref_order_value_to_format_bitfield(pref->order[idx]); if (!pref_bitfield) { continue; } /* If this format isn't in the bitfield, remove it from the prefs. */ if (!(pref_bitfield & bitfield)) { codec_pref_remove_index(pref, idx); } } } /*! * \brief Formats supported by IAX2. * * \note All AST_FORMAT_xxx compatibility bit defines must be * represented here. * * \note The order is important because the array index+1 values * go out over the wire. */ static const uint64_t iax2_supported_formats[] = { AST_FORMAT_G723, AST_FORMAT_GSM, AST_FORMAT_ULAW, AST_FORMAT_ALAW, AST_FORMAT_G726, AST_FORMAT_ADPCM, AST_FORMAT_SLIN, AST_FORMAT_LPC10, AST_FORMAT_G729, AST_FORMAT_SPEEX, AST_FORMAT_SPEEX16, AST_FORMAT_ILBC, AST_FORMAT_G726_AAL2, AST_FORMAT_G722, AST_FORMAT_SLIN16, AST_FORMAT_JPEG, AST_FORMAT_PNG, AST_FORMAT_H261, AST_FORMAT_H263, AST_FORMAT_H263P, AST_FORMAT_H264, AST_FORMAT_MP4, AST_FORMAT_T140_RED, AST_FORMAT_T140, AST_FORMAT_SIREN7, AST_FORMAT_SIREN14, AST_FORMAT_TESTLAW, AST_FORMAT_G719, 0, /* Place holder */ 0, /* Place holder */ 0, /* Place holder */ 0, /* Place holder */ 0, /* Place holder */ 0, /* Place holder */ 0, /* Place holder */ 0, /* Place holder */ AST_FORMAT_OPUS, AST_FORMAT_VP8, /* ONLY ADD TO THE END OF THIS LIST */ /* XXX Use up the place holder slots first. */ }; uint64_t iax2_codec_pref_order_value_to_format_bitfield(int order_value) { if (order_value < 1 || ARRAY_LEN(iax2_supported_formats) < order_value) { return 0; } return iax2_supported_formats[order_value - 1]; } int iax2_codec_pref_format_bitfield_to_order_value(uint64_t bitfield) { int idx; if (bitfield) { for (idx = 0; idx < ARRAY_LEN(iax2_supported_formats); ++idx) { if (iax2_supported_formats[idx] == bitfield) { return idx + 1; } } } return 0; } /*! * \internal * \brief Append the bitfield format to the codec preference list. * \since 13.0.0 * * \param pref Codec preference list to append the given bitfield. * \param bitfield Format bitfield to append. * \param framing Framing size of the codec. * * \return Nothing */ static void iax2_codec_pref_append_bitfield(struct iax2_codec_pref *pref, uint64_t bitfield, unsigned int framing) { int format_index; int x; format_index = iax2_codec_pref_format_bitfield_to_order_value(bitfield); if (!format_index) { return; } codec_pref_remove(pref, format_index); for (x = 0; x < ARRAY_LEN(pref->order); ++x) { if (!pref->order[x]) { pref->order[x] = format_index; pref->framing[x] = framing; break; } } } void iax2_codec_pref_append(struct iax2_codec_pref *pref, struct ast_format *format, unsigned int framing) { uint64_t bitfield; bitfield = ast_format_compatibility_format2bitfield(format); if (!bitfield) { return; } iax2_codec_pref_append_bitfield(pref, bitfield, framing); } void iax2_codec_pref_prepend(struct iax2_codec_pref *pref, struct ast_format *format, unsigned int framing, int only_if_existing) { uint64_t bitfield; int format_index; int x; bitfield = ast_format_compatibility_format2bitfield(format); if (!bitfield) { return; } format_index = iax2_codec_pref_format_bitfield_to_order_value(bitfield); if (!format_index) { return; } /* Now find any existing occurrence, or the end */ for (x = 0; x < ARRAY_LEN(pref->order); ++x) { if (!pref->order[x] || pref->order[x] == format_index) break; } /* * The array can never be full without format_index * also being in the array. */ ast_assert(x < ARRAY_LEN(pref->order)); /* If we failed to find any occurrence, set to the end for safety. */ if (ARRAY_LEN(pref->order) <= x) { x = ARRAY_LEN(pref->order) - 1; } if (only_if_existing && !pref->order[x]) { return; } /* Move down to make space to insert - either all the way to the end, or as far as the existing location (which will be overwritten) */ for (; x > 0; --x) { pref->order[x] = pref->order[x - 1]; pref->framing[x] = pref->framing[x - 1]; } /* And insert the new entry */ pref->order[0] = format_index; pref->framing[0] = framing; } uint64_t iax2_codec_pref_from_bitfield(struct iax2_codec_pref *pref, uint64_t bitfield) { int bit; uint64_t working_bitfield; uint64_t best_bitfield; struct ast_format *format; /* Init the preference list. */ memset(pref, 0, sizeof(*pref)); working_bitfield = bitfield; /* Add the "best" codecs first. */ while (working_bitfield) { best_bitfield = iax2_format_compatibility_best(working_bitfield); if (!best_bitfield) { /* No more codecs considered best. */ break; } /* Remove current "best" codec to find the next "best". */ working_bitfield &= ~best_bitfield; format = ast_format_compatibility_bitfield2format(best_bitfield); /* The best_bitfield should always be convertible to a format. */ ast_assert(format != NULL); iax2_codec_pref_append_bitfield(pref, best_bitfield, 0); } /* Add any remaining codecs. */ if (working_bitfield) { for (bit = 0; bit < 64; ++bit) { uint64_t mask = (1ULL << bit); if (mask & working_bitfield) { format = ast_format_compatibility_bitfield2format(mask); if (!format) { /* The bit is not associated with any format. */ bitfield &= ~mask; continue; } iax2_codec_pref_append_bitfield(pref, mask, 0); } } } return bitfield; }