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|
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include <errno.h>
#ifndef _WIN32
#include <limits.h>
#endif
#define BACKEND_NAME "core/cfg"
#include "midimonster.h"
#include "config.h"
#include "backend.h"
static enum {
none,
backend_cfg,
instance_cfg,
map
} parser_state = none;
typedef enum {
map_ltr,
map_rtl,
map_bidir
} map_type;
static backend* current_backend = NULL;
static instance* current_instance = NULL;
static size_t noverrides = 0;
static config_override* overrides = NULL;
#ifdef _WIN32
#define GETLINE_BUFFER 4096
static ssize_t getline(char** line, size_t* alloc, FILE* stream){
size_t bytes_read = 0;
char c;
//sanity checks
if(!line || !alloc || !stream){
return -1;
}
//allocate buffer if none provided
if(!*line || !*alloc){
*alloc = GETLINE_BUFFER;
*line = calloc(GETLINE_BUFFER, sizeof(char));
if(!*line){
fprintf(stderr, "Failed to allocate memory\n");
return -1;
}
}
if(feof(stream)){
return -1;
}
for(c = fgetc(stream); 1; c = fgetc(stream)){
//end of buffer, resize
if(bytes_read == (*alloc) - 1){
*alloc += GETLINE_BUFFER;
*line = realloc(*line, (*alloc) * sizeof(char));
if(!*line){
fprintf(stderr, "Failed to allocate memory\n");
return -1;
}
}
//store character
(*line)[bytes_read] = c;
//end of line
if(feof(stream) || c == '\n'){
//terminate string
(*line)[bytes_read + 1] = 0;
return bytes_read;
}
//input broken
if(ferror(stream)){
return -1;
}
bytes_read++;
}
}
#endif
static char* config_trim_line(char* in){
ssize_t n;
//trim front
for(; *in && !isgraph(*in); in++){
}
//trim back
for(n = strlen(in); n >= 0 && !isgraph(in[n]); n--){
in[n] = 0;
}
return in;
}
static int config_glob_parse_range(channel_glob* glob, char* spec, size_t length){
//FIXME might want to allow negative delimiters at some point
char* parse_offset = NULL;
glob->type = glob_range;
//first interval member
glob->limits.u64[0] = strtoul(spec, &parse_offset, 10);
if(!parse_offset || parse_offset - spec >= length || strncmp(parse_offset, "..", 2)){
return 1;
}
parse_offset += 2;
//second interval member
glob->limits.u64[1] = strtoul(parse_offset, &parse_offset, 10);
if(!parse_offset || parse_offset - spec != length || *parse_offset != '}'){
return 1;
}
//calculate number of channels within interval
if(glob->limits.u64[0] < glob->limits.u64[1]){
glob->values = glob->limits.u64[1] - glob->limits.u64[0] + 1;
}
else if(glob->limits.u64[0] > glob->limits.u64[1]){
glob->values = glob->limits.u64[0] - glob->limits.u64[1] + 1;
}
else{
glob->values = 1;
}
return 0;
}
static int config_glob_parse_list(channel_glob* glob, char* spec, size_t length){
size_t u = 0;
glob->type = glob_list;
glob->values = 1;
//count number of values in list
for(u = 0; u < length; u++){
if(spec[u] == ','){
glob->values++;
}
}
return 0;
}
static int config_glob_parse(channel_glob* glob, char* spec, size_t length){
size_t u = 0;
//detect glob type
for(u = 0; u < length; u++){
if(length - u > 2 && !strncmp(spec + u, "..", 2)){
DBGPF("Detected glob %.*s as range type", (int) length, spec);
return config_glob_parse_range(glob, spec, length);
}
else if(spec[u] == ','){
DBGPF("Detected glob %.*s as list type", (int) length, spec);
return config_glob_parse_list(glob, spec, length);
}
}
LOGPF("Failed to detect glob type for spec %.*s", (int) length, spec);
return 1;
}
static int config_glob_scan(instance* inst, channel_spec* spec){
char* glob_start = spec->spec, *glob_end = NULL;
size_t u;
//assume a spec is one channel as default
spec->channels = 1;
//scan and mark globs
for(glob_start = strchr(glob_start, '{'); glob_start; glob_start = strchr(glob_start, '{')){
glob_end = strchr(glob_start, '}');
if(!glob_end){
fprintf(stderr, "Failed to parse channel spec, unterminated glob: %s\n", spec->spec);
return 1;
}
spec->glob = realloc(spec->glob, (spec->globs + 1) * sizeof(channel_glob));
if(!spec->glob){
fprintf(stderr, "Failed to allocate memory\n");
return 1;
}
spec->glob[spec->globs].offset[0] = glob_start - spec->spec;
spec->glob[spec->globs].offset[1] = glob_end - spec->spec;
spec->globs++;
//skip this opening brace
glob_start++;
}
//try to parse globs internally
spec->internal = 1;
for(u = 0; u < spec->globs; u++){
if(config_glob_parse(spec->glob + u,
spec->spec + spec->glob[u].offset[0] + 1,
spec->glob[u].offset[1] - spec->glob[u].offset[0] - 1)){
spec->internal = 0;
break;
}
}
if(!spec->internal){
//TODO try to parse globs externally
fprintf(stderr, "Failed to parse glob %" PRIsize_t " in %s internally\n", u + 1, spec->spec);
return 1;
}
//calculate channel total
for(u = 0; u < spec->globs; u++){
spec->channels *= spec->glob[u].values;
}
return 0;
}
static ssize_t config_glob_resolve_range(char* spec, size_t length, channel_glob* glob, uint64_t n){
uint64_t current_value = glob->limits.u64[0] + (n % glob->values);
//if counting down
if(glob->limits.u64[0] > glob->limits.u64[1]){
current_value = glob->limits.u64[0] - (n % glob->values);
}
//write out value
return snprintf(spec, length, "%" PRIu64, current_value);
}
static ssize_t config_glob_resolve_list(char* spec, size_t length, channel_glob* glob, uint64_t n){
uint64_t current_replacement = 0;
size_t replacement_length = 0;
char* source = spec + 1;
n %= glob->values;
//find start of replacement value
DBGPF("Searching instance %" PRIu64 " of spec %.*s", n, (int) length, spec);
for(current_replacement = 0; current_replacement < n; current_replacement++){
for(; source[0] != ','; source++){
}
source++;
}
//calculate replacement length
for(; source[replacement_length] != ',' && source[replacement_length] != '}'; replacement_length++){
}
//write out new value
memmove(spec, source, replacement_length);
return replacement_length;
}
static channel* config_glob_resolve(instance* inst, channel_spec* spec, uint64_t n, uint8_t map_direction){
size_t glob = 0, glob_length;
ssize_t bytes = 0;
channel* result = NULL;
char* resolved_spec = strdup(spec->spec);
if(!resolved_spec){
LOG("Failed to allocate memory");
return NULL;
}
//TODO if not internal, try to resolve externally
//iterate and resolve globs
for(glob = spec->globs; glob > 0; glob--){
glob_length = spec->glob[glob - 1].offset[1] - spec->glob[glob - 1].offset[0];
switch(spec->glob[glob - 1].type){
case glob_range:
bytes = config_glob_resolve_range(resolved_spec + spec->glob[glob - 1].offset[0],
glob_length,
spec->glob + (glob - 1),
n);
break;
case glob_list:
bytes = config_glob_resolve_list(resolved_spec + spec->glob[glob - 1].offset[0],
glob_length,
spec->glob + (glob - 1),
n);
break;
}
n /= spec->glob[glob - 1].values;
//move trailing data
if(bytes > 0 && bytes < glob_length){
memmove(resolved_spec + spec->glob[glob - 1].offset[0] + bytes,
resolved_spec + spec->glob[glob - 1].offset[1] + 1,
strlen(spec->spec) - spec->glob[glob - 1].offset[1]);
}
else{
LOGPF("Failure parsing glob spec %s", resolved_spec);
goto bail;
}
}
DBGPF("Resolved spec %s to %s", spec->spec, resolved_spec);
result = inst->backend->channel(inst, resolved_spec, map_direction);
if(spec->globs && !result){
LOGPF("Failed to match multichannel evaluation %s to a channel", resolved_spec);
}
bail:
free(resolved_spec);
return result;
}
static int config_map(char* to_raw, char* from_raw){
//create a copy because the original pointer may be used multiple times
char* to = strdup(to_raw), *from = strdup(from_raw);
channel_spec spec_to = {
.spec = to
}, spec_from = {
.spec = from
};
instance* instance_to = NULL, *instance_from = NULL;
channel* channel_from = NULL, *channel_to = NULL;
uint64_t n = 0;
int rv = 1;
if(!from || !to){
free(from);
free(to);
fprintf(stderr, "Failed to allocate memory\n");
return 1;
}
//separate channel spec from instance
for(; *(spec_to.spec) && *(spec_to.spec) != '.'; spec_to.spec++){
}
for(; *(spec_from.spec) && *(spec_from.spec) != '.'; spec_from.spec++){
}
if(!spec_from.spec[0] || !spec_to.spec[0]){
fprintf(stderr, "Mapping does not contain a proper instance specification\n");
goto done;
}
//terminate
spec_from.spec[0] = spec_to.spec[0] = 0;
spec_from.spec++;
spec_to.spec++;
//find matching instances
instance_to = instance_match(to);
instance_from = instance_match(from);
if(!instance_to || !instance_from){
fprintf(stderr, "No such instance %s\n", instance_from ? to : from);
goto done;
}
//scan for globs
if(config_glob_scan(instance_to, &spec_to)
|| config_glob_scan(instance_from, &spec_from)){
goto done;
}
if((spec_to.channels != spec_from.channels && spec_from.channels != 1 && spec_to.channels != 1)
|| spec_to.channels == 0
|| spec_from.channels == 0){
fprintf(stderr, "Multi-channel specification size mismatch: %s.%s (%" PRIsize_t " channels) - %s.%s (%" PRIsize_t " channels)\n",
instance_from->name,
spec_from.spec,
spec_from.channels,
instance_to->name,
spec_to.spec,
spec_to.channels);
goto done;
}
//iterate, resolve globs and map
rv = 0;
for(n = 0; !rv && n < max(spec_from.channels, spec_to.channels); n++){
channel_from = config_glob_resolve(instance_from, &spec_from, min(n, spec_from.channels), mmchannel_input);
channel_to = config_glob_resolve(instance_to, &spec_to, min(n, spec_to.channels), mmchannel_output);
if(!channel_from || !channel_to){
rv = 1;
goto done;
}
rv |= mm_map_channel(channel_from, channel_to);
}
done:
free(spec_from.glob);
free(spec_to.glob);
free(from);
free(to);
return rv;
}
static int config_line(char* line){
map_type mapping_type = map_rtl;
char* separator = NULL;
size_t u;
line = config_trim_line(line);
if(*line == ';' || strlen(line) == 0){
//skip comments
return 0;
}
if(*line == '[' && line[strlen(line) - 1] == ']'){
if(!strncmp(line, "[backend ", 9)){
//backend configuration
parser_state = backend_cfg;
line[strlen(line) - 1] = 0;
current_backend = backend_match(line + 9);
if(!current_backend){
fprintf(stderr, "Cannot configure unknown backend %s\n", line + 9);
return 1;
}
//apply overrides
for(u = 0; u < noverrides; u++){
if(!overrides[u].handled && overrides[u].type == override_backend
&& !strcmp(overrides[u].target, current_backend->name)){
if(current_backend->conf(overrides[u].option, overrides[u].value)){
fprintf(stderr, "Configuration override for %s failed for backend %s\n",
overrides[u].option, current_backend->name);
return 1;
}
overrides[u].handled = 1;
}
}
}
else if(!strncmp(line, "[include ", 9)){
line[strlen(line) - 1] = 0;
return config_read(line + 9);
}
else if(!strcmp(line, "[map]")){
//mapping configuration
parser_state = map;
}
else{
//backend instance configuration
parser_state = instance_cfg;
//trim braces
line[strlen(line) - 1] = 0;
line++;
//find separating space and terminate
for(separator = line; *separator && *separator != ' '; separator++){
}
if(!*separator){
fprintf(stderr, "No instance name specified for backend %s\n", line);
return 1;
}
*separator = 0;
separator++;
current_backend = backend_match(line);
if(!current_backend){
fprintf(stderr, "No such backend %s\n", line);
return 1;
}
if(instance_match(separator)){
fprintf(stderr, "Duplicate instance name %s\n", separator);
return 1;
}
//validate instance name
if(strchr(separator, ' ') || strchr(separator, '.')){
fprintf(stderr, "Invalid instance name %s\n", separator);
return 1;
}
current_instance = mm_instance(current_backend);
if(!current_instance){
return 1;
}
if(current_backend->create(current_instance)){
fprintf(stderr, "Failed to create %s instance %s\n", line, separator);
return 1;
}
current_instance->name = strdup(separator);
current_instance->backend = current_backend;
fprintf(stderr, "Created %s instance %s\n", line, separator);
//apply overrides
for(u = 0; u < noverrides; u++){
if(!overrides[u].handled && overrides[u].type == override_instance
&& !strcmp(overrides[u].target, current_instance->name)){
if(current_backend->conf_instance(current_instance, overrides[u].option, overrides[u].value)){
fprintf(stderr, "Configuration override for %s failed for instance %s\n",
overrides[u].option, current_instance->name);
return 1;
}
overrides[u].handled = 1;
}
}
}
}
else if(parser_state == map){
mapping_type = map_rtl;
//find separator
for(separator = line; *separator && *separator != '<' && *separator != '>'; separator++){
}
switch(*separator){
case '>':
mapping_type = map_ltr;
//fall through
case '<': //default
*separator = 0;
separator++;
break;
case 0:
default:
fprintf(stderr, "Not a channel mapping: %s\n", line);
return 1;
}
if((mapping_type == map_ltr && *separator == '<')
|| (mapping_type == map_rtl && *separator == '>')){
mapping_type = map_bidir;
separator++;
}
line = config_trim_line(line);
separator = config_trim_line(separator);
if(mapping_type == map_ltr || mapping_type == map_bidir){
if(config_map(separator, line)){
fprintf(stderr, "Failed to map channel %s to %s\n", line, separator);
return 1;
}
}
if(mapping_type == map_rtl || mapping_type == map_bidir){
if(config_map(line, separator)){
fprintf(stderr, "Failed to map channel %s to %s\n", separator, line);
return 1;
}
}
}
else{
//pass to parser
//find separator
separator = strchr(line, '=');
if(!separator){
fprintf(stderr, "Not an assignment: %s\n", line);
return 1;
}
*separator = 0;
separator++;
line = config_trim_line(line);
separator = config_trim_line(separator);
if(parser_state == backend_cfg && current_backend->conf(line, separator)){
fprintf(stderr, "Failed to configure backend %s\n", current_backend->name);
return 1;
}
else if(parser_state == instance_cfg && current_backend->conf_instance(current_instance, line, separator)){
fprintf(stderr, "Failed to configure instance %s\n", current_instance->name);
return 1;
}
}
return 0;
}
int config_read(char* cfg_filepath){
int rv = 1;
size_t line_alloc = 0;
ssize_t status;
FILE* source = NULL;
char* line_raw = NULL;
//create heap copy of file name because original might be in readonly memory
char* source_dir = strdup(cfg_filepath), *source_file = NULL, original_dir[PATH_MAX * 2] = "";
#ifdef _WIN32
char path_separator = '\\';
#else
char path_separator = '/';
#endif
if(!source_dir){
fprintf(stderr, "Failed to allocate memory\n");
return 1;
}
//change working directory to the one containing the configuration file so relative paths work as expected
source_file = strrchr(source_dir, path_separator);
if(source_file){
*source_file = 0;
source_file++;
if(!getcwd(original_dir, sizeof(original_dir))){
fprintf(stderr, "Failed to read current working directory: %s\n", strerror(errno));
goto bail;
}
if(chdir(source_dir)){
fprintf(stderr, "Failed to change to configuration file directory %s: %s\n", source_dir, strerror(errno));
goto bail;
}
}
else{
source_file = source_dir;
}
fprintf(stderr, "Reading configuration file %s\n", cfg_filepath);
source = fopen(source_file, "r");
if(!source){
fprintf(stderr, "Failed to open %s for reading\n", cfg_filepath);
goto bail;
}
for(status = getline(&line_raw, &line_alloc, source); status >= 0; status = getline(&line_raw, &line_alloc, source)){
if(config_line(line_raw)){
goto bail;
}
}
//TODO check whether all overrides have been applied
rv = 0;
bail:
//change back to previous directory to allow recursive configuration file parsing
if(source_file && source_dir != source_file){
chdir(original_dir);
}
free(source_dir);
if(source){
fclose(source);
}
free(line_raw);
return rv;
}
int config_add_override(override_type type, char* data_raw){
int rv = 1;
//heap a copy because the original data is probably not writable
char* data = strdup(data_raw);
if(!data){
fprintf(stderr, "Failed to allocate memory\n");
goto bail;
}
char* option = strchr(data, '.');
char* value = strchr(data, '=');
if(!option || !value){
fprintf(stderr, "Override %s is not a valid assignment\n", data_raw);
goto bail;
}
//terminate strings
*option = 0;
option++;
*value = 0;
value++;
config_override new = {
.type = type,
.handled = 0,
.target = strdup(config_trim_line(data)),
.option = strdup(config_trim_line(option)),
.value = strdup(config_trim_line(value))
};
if(!new.target || !new.option || !new.value){
fprintf(stderr, "Failed to allocate memory\n");
goto bail;
}
overrides = realloc(overrides, (noverrides + 1) * sizeof(config_override));
if(!overrides){
noverrides = 0;
fprintf(stderr, "Failed to allocate memory\n");
goto bail;
}
overrides[noverrides] = new;
noverrides++;
rv = 0;
bail:
free(data);
return rv;
}
void config_free(){
size_t u;
for(u = 0; u < noverrides; u++){
free(overrides[u].target);
free(overrides[u].option);
free(overrides[u].value);
}
noverrides = 0;
free(overrides);
overrides = NULL;
parser_state = none;
}
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