function blob8 = multiband_drc_build_blob(num_bands, enable_emp_deemp, emp_coefs, deemp_coefs, crossover_coefs, drc_coefs, endian); if nargin < 7 endian = 'little' endif %% Shift values for little/big endian switch lower(endian) case 'little' sh = [0 -8 -16 -24]; case 'big' sh = [-24 -16 -8 0]; otherwise error('Unknown endiannes'); end %% Build Blob % refer to sof/src/include/user/multiband_drc.h for the config struct. emp_data_num = numel(emp_coefs); deemp_data_num = numel(deemp_coefs); crossover_data_num = numel(crossover_coefs); drc_data_num = numel(fieldnames(drc_coefs(1))) * length(drc_coefs); data_size = 4 * (1 + 1 + 1 + 8 + emp_data_num + deemp_data_num + crossover_data_num + drc_data_num); [abi_bytes, abi_size] = multiband_drc_get_abi(data_size); blob_size = data_size + abi_size; blob8 = uint8(zeros(1, blob_size)); % Pack Blob data % Insert ABI Header blob8(1:abi_size) = abi_bytes; j = abi_size + 1; % Insert Data blob8(j:j+3) = word2byte(data_size, sh); j=j+4; % size blob8(j:j+3) = word2byte(num_bands, sh); j=j+4; % num_bands blob8(j:j+3) = word2byte(enable_emp_deemp, sh); j=j+4; % enable_emp_deemp for i = 1:8 blob8(j:j+3) = word2byte(0, sh); j=j+4; % reserved end for i = 1:length(emp_coefs) blob8(j:j+3) = word2byte(emp_coefs(i), sh); j=j+4; % emp_coef end for i = 1:length(deemp_coefs) blob8(j:j+3) = word2byte(deemp_coefs(i), sh); j=j+4; % deemp_coef end for i = 1:length(crossover_coefs) blob8(j:j+3) = word2byte(crossover_coefs(i), sh); j=j+4; % crossover_coef end for i = 1:length(drc_coefs) % drc_coef blob8(j:j+3) = word2byte(drc_coefs(i).enabled, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).db_threshold, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).db_knee, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).ratio, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).pre_delay_time, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).linear_threshold, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).slope, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).K, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).knee_alpha, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).knee_beta, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).knee_threshold, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).ratio_base, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).master_linear_gain, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).one_over_attack_frames, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).sat_release_frames_inv_neg, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).sat_release_rate_at_neg_two_db, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).kSpacingDb, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).kA, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).kB, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).kC, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).kD, sh); j=j+4; blob8(j:j+3) = word2byte(drc_coefs(i).kE, sh); j=j+4; end endfunction function bytes = word2byte(word, sh) bytes = uint8(zeros(1,4)); bytes(1) = bitand(bitshift(word, sh(1)), 255); bytes(2) = bitand(bitshift(word, sh(2)), 255); bytes(3) = bitand(bitshift(word, sh(3)), 255); bytes(4) = bitand(bitshift(word, sh(4)), 255); end function [bytes, nbytes] = multiband_drc_get_abi(setsize) %% Return current SOF ABI header %% Use sof-ctl to write ABI header into a file abifn = 'multiband_drc_get_abi.bin'; cmd = sprintf('sof-ctl -g %d -b -o %s', setsize, abifn); system(cmd); %% Read file and delete it fh = fopen(abifn, 'r'); if fh < 0 error("Failed to get ABI header. Is sof-ctl installed?"); end [bytes, nbytes] = fread(fh, inf, 'uint8'); fclose(fh); delete(abifn); end