/* parse an expression term. It can be one of:
* "term"
* ["term" <parameters>]
*/
w_query_expr *w_query_expr_parse(w_query *query, json_t *exp)
{
w_string_t *name;
w_query_expr_parser parser;
if (json_is_string(exp)) {
name = w_string_new(json_string_value(exp));
} else if (json_is_array(exp) && json_array_size(exp) > 0) {
json_t *first = json_array_get(exp, 0);
if (!json_is_string(first)) {
query->errmsg = strdup(
"first element of an expression must be a string");
return NULL;
}
name = w_string_new(json_string_value(first));
} else {
query->errmsg = strdup("expected array or string for an expression");
return NULL;
}
parser = w_ht_val_ptr(w_ht_get(term_hash, w_ht_ptr_val(name)));
if (!parser) {
ignore_result(asprintf(&query->errmsg,
"unknown expression term '%s'",
name->buf));
w_string_delref(name);
return NULL;
}
w_string_delref(name);
return parser(query, exp);
}
w_string_t *w_fstype(const char *path)
{
#ifdef __linux__
struct statfs sfs;
const char *name = "unknown";
if (statfs(path, &sfs) == 0) {
switch (sfs.f_type) {
#ifdef CIFS_MAGIC_NUMBER
case CIFS_MAGIC_NUMBER:
name = "cifs";
break;
#endif
#ifdef NFS_SUPER_MAGIC
case NFS_SUPER_MAGIC:
name = "nfs";
break;
#endif
#ifdef SMB_SUPER_MAGIC
case SMB_SUPER_MAGIC:
name = "smb";
break;
#endif
default:
name = "unknown";
}
}
return w_string_new(name);
#elif STATVFS_HAS_FSTYPE_AS_STRING
struct statvfs sfs;
if (statvfs(path, &sfs) == 0) {
#ifdef HAVE_STRUCT_STATVFS_F_FSTYPENAME
return w_string_new(sfs.f_fstypename);
#endif
#ifdef HAVE_STRUCT_STATVFS_F_BASETYPE
return w_string_new(sfs.f_basetype);
#endif
}
#elif HAVE_STATFS
struct statfs sfs;
if (statfs(path, &sfs) == 0) {
return w_string_new(sfs.f_fstypename);
}
#endif
return w_string_new("unknown");
}
void
do_prompt (void)
{
// FIXME figure out some way to abstract this function
WString *string;
script_got_prompt ();
if (prompting)
return;
// If we have some text to display, do it
if (main_view->buffer != NULL) {
warlock_view_end_line (NULL);
}
string = w_string_new ("");
if (script_running) {
w_string_append_str (string, "[script:");
w_string_append_str (string, g_strdup_printf ("%d", script_get_linenum()));
w_string_append_str (string, "]");
}
w_string_append_c (string, '>');
debug ("prompt: %s\n", string->string->str);
view_append (main_view, string);
w_string_free (string, TRUE);
prompting = TRUE;
}
w_query_expr *w_expr_suffix_parser(w_query *query, json_t *term)
{
const char *ignore, *suffix;
char *arg;
w_string_t *str;
int i, l;
if (json_unpack(term, "[s,s]", &ignore, &suffix) != 0) {
query->errmsg = strdup("must use [\"suffix\", \"suffixstring\"]");
return NULL;
}
arg = strdup(suffix);
if (!arg) {
query->errmsg = strdup("out of memory");
return NULL;
}
l = strlen(arg);
for (i = 0; i < l; i++) {
arg[i] = tolower(arg[i]);
}
str = w_string_new(arg);
free(arg);
if (!str) {
query->errmsg = strdup("out of memory");
return NULL;
}
return w_query_expr_new(eval_suffix, dispose_suffix, str);
}
static bool parse_relative_root(w_root_t *root, w_query *res, json_t *query)
{
json_t *relative_root;
w_string_t *path, *canon_path;
relative_root = json_object_get(query, "relative_root");
if (!relative_root) {
return true;
}
if (!json_is_string(relative_root)) {
res->errmsg = strdup("'relative_root' must be a string");
return false;
}
path = w_string_new(json_string_value(relative_root));
canon_path = w_string_canon_path(path);
res->relative_root = w_string_path_cat(root->root_path, canon_path);
res->relative_root_slash = w_string_make_printf("%.*s%c",
res->relative_root->len, res->relative_root->buf,
WATCHMAN_DIR_SEP);
w_string_delref(path);
w_string_delref(canon_path);
return true;
}
bool w_capability_supported(const char *name) {
bool res;
w_string_t *namestr = w_string_new(name);
res = w_ht_get(capabilities, w_ht_ptr_val(namestr));
w_string_delref(namestr);
return res;
}
bool dispatch_command(struct watchman_client *client, json_t *args)
{
watchman_command_func func;
const char *cmd_name;
w_string_t *cmd;
if (!json_array_size(args)) {
send_error_response(client,
"invalid command (expected an array with some elements!)");
return false;
}
cmd_name = json_string_value(json_array_get(args, 0));
if (!cmd_name) {
send_error_response(client,
"invalid command: expected element 0 to be the command name");
return false;
}
cmd = w_string_new(cmd_name);
func = (watchman_command_func)w_ht_get(command_funcs, (w_ht_val_t)cmd);
w_string_delref(cmd);
if (func) {
func(client, args);
return true;
}
send_error_response(client, "unknown command %s", cmd_name);
return false;
}
// Return the normalized (lowercase) filename suffix
w_string_t *w_string_suffix(w_string_t *str)
{
int end;
char name_buf[128];
char *buf;
/* can't use libc strXXX functions because we may be operating
* on a slice */
for (end = str->len - 1; end >= 0; end--) {
if (str->buf[end] == '.') {
if (str->len - (end + 1) >= sizeof(name_buf) - 1) {
// Too long
return NULL;
}
buf = name_buf;
end++;
while ((unsigned)end < str->len) {
*buf = tolower(str->buf[end]);
end++;
buf++;
}
*buf = '\0';
return w_string_new(name_buf);
}
if (str->buf[end] == '/') {
// No suffix
return NULL;
}
}
// Has no suffix
return NULL;
}
struct w_clockspec *w_clockspec_parse(json_t *value)
{
const char *str;
uint64_t start_time;
int pid;
uint32_t root_number;
uint32_t ticks;
struct w_clockspec *spec;
spec = calloc(1, sizeof(*spec));
if (!spec) {
return NULL;
}
if (json_is_integer(value)) {
spec->tag = w_cs_timestamp;
spec->timestamp.tv_usec = 0;
spec->timestamp.tv_sec = json_integer_value(value);
return spec;
}
str = json_string_value(value);
if (!str) {
free(spec);
return NULL;
}
if (str[0] == 'n' && str[1] == ':') {
spec->tag = w_cs_named_cursor;
// spec owns the ref to the string
spec->named_cursor.cursor = w_string_new(str);
return spec;
}
if (sscanf(str, "c:%" PRIu64 ":%" PRIu32 ":%d:%" PRIu32,
&start_time, &pid, &root_number, &ticks) == 4) {
spec->tag = w_cs_clock;
spec->clock.start_time = start_time;
spec->clock.pid = pid;
spec->clock.root_number = root_number;
spec->clock.ticks = ticks;
return spec;
}
if (sscanf(str, "c:%d:%" PRIu32, &pid, &ticks) == 2) {
// old-style clock value (<= 2.8.2) -- by setting clock time and root number
// to 0 we guarantee that this is treated as a fresh instance
spec->tag = w_cs_clock;
spec->clock.start_time = 0;
spec->clock.pid = pid;
spec->clock.root_number = root_number;
spec->clock.ticks = ticks;
return spec;
}
free(spec);
return NULL;
}
// Simulate
static void bench_pending(void) {
// These parameters give us 262140 items to track
const size_t tree_depth = 7;
const size_t num_files_per_dir = 8;
const size_t num_dirs_per_dir = 4;
w_string_t *root_name = w_string_new("/some/path");
struct pending_list list;
const size_t alloc_size = 280000;
struct timeval start, end;
list.pending = calloc(alloc_size, sizeof(struct watchman_pending_fs));
list.avail = list.pending;
list.end = list.pending + alloc_size;
// Build a list ordered from the root (top) down to the leaves.
build_list(&list, root_name, tree_depth, num_files_per_dir, num_dirs_per_dir);
diag("built list with %u items", list.avail - list.pending);
// Benchmark insertion in top-down order.
{
struct watchman_pending_collection coll;
struct watchman_pending_fs *item;
size_t drained = 0;
w_pending_coll_init(&coll);
gettimeofday(&start, NULL);
for (item = list.pending; item < list.avail; item++) {
w_pending_coll_add(&coll, item->path, item->now, item->flags);
}
drained = process_items(&coll);
gettimeofday(&end, NULL);
diag("took %.3fs to insert %u items into pending coll",
w_timeval_diff(start, end), drained);
}
// and now in reverse order; this is from the leaves of the filesystem
// tree up to the root, or bottom-up. This simulates the workload of
// a recursive delete of a filesystem tree.
{
struct watchman_pending_collection coll;
struct watchman_pending_fs *item;
size_t drained = 0;
w_pending_coll_init(&coll);
gettimeofday(&start, NULL);
for (item = list.avail - 1; item >= list.pending; item--) {
w_pending_coll_add(&coll, item->path, item->now, item->flags);
}
drained = process_items(&coll);
gettimeofday(&end, NULL);
diag("took %.3fs to reverse insert %u items into pending coll",
w_timeval_diff(start, end), drained);
}
}
void w_capability_register(const char *name) {
if (!capabilities) {
capabilities = w_ht_new(128, &w_ht_string_funcs);
}
w_ht_set(capabilities,
w_ht_ptr_val(w_string_new(name)),
true);
}
// Compute the basename of path, return that as a string
w_string_t *w_string_new_basename(const char *path) {
const char *base;
base = path + strlen(path);
while (base > path && base[-1] != WATCHMAN_DIR_SEP) {
base--;
}
return w_string_new(base);
}
void w_register_command(struct watchman_command_handler_def *defs)
{
if (!command_funcs) {
command_funcs = w_ht_new(16, &w_ht_string_funcs);
}
w_ht_set(command_funcs,
w_ht_ptr_val(w_string_new(defs->name)),
w_ht_ptr_val(defs));
}
void
echo (const char *str)
{
WString *wstr;
wstr = w_string_new (str);
w_string_add_tag (wstr, ECHO_TAG, 0, -1);
view_append (main_view, wstr);
}
void register_commands(struct watchman_command_handler_def *defs)
{
int i;
command_funcs = w_ht_new(16, &w_ht_string_funcs);
for (i = 0; defs[i].name; i++) {
w_ht_set(command_funcs,
(w_ht_val_t)w_string_new(defs[i].name),
(w_ht_val_t)defs[i].func);
}
w_query_init_all();
}
w_string_t *w_string_new_wchar(WCHAR *str, int len) {
char buf[WATCHMAN_NAME_MAX];
int res;
if (len == 0) {
return w_string_new("");
}
res = WideCharToMultiByte(CP_UTF8, 0, str, len, buf, sizeof(buf), NULL, NULL);
if (res == 0) {
char msgbuf[1024];
DWORD err = GetLastError();
FormatMessageA(
FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, err, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
msgbuf, sizeof(msgbuf)-1, NULL);
w_log(W_LOG_ERR, "WideCharToMultiByte failed: 0x%x %s\n", err, msgbuf);
return NULL;
}
buf[res] = 0;
return w_string_new(buf);
}
void w_register_command(struct watchman_command_handler_def *defs)
{
char capname[128];
if (!command_funcs) {
command_funcs = w_ht_new(16, &w_ht_string_funcs);
}
w_ht_set(command_funcs,
w_ht_ptr_val(w_string_new(defs->name)),
w_ht_ptr_val(defs));
snprintf(capname, sizeof(capname), "cmd-%s", defs->name);
w_capability_register(capname);
}
static bool parse_suffixes(w_query *res, json_t *query)
{
json_t *suffixes;
size_t i;
suffixes = json_object_get(query, "suffix");
if (!suffixes) {
return true;
}
if (!json_is_array(suffixes)) {
res->errmsg = strdup("'suffix' must be an array of strings");
return false;
}
res->nsuffixes = json_array_size(suffixes);
res->suffixes = calloc(res->nsuffixes, sizeof(w_string_t*));
if (!res->suffixes) {
return false;
}
for (i = 0; i < json_array_size(suffixes); i++) {
json_t *ele = json_array_get(suffixes, i);
char *low;
int j;
if (!json_is_string(ele)) {
res->errmsg = strdup("'suffix' must be an array of strings");
return false;
}
low = strdup(json_string_value(ele));
if (!low) {
res->errmsg = strdup("out of memory");
return false;
}
for (j = 0; low[j]; j++) {
low[j] = tolower(low[j]);
}
res->suffixes[i] = w_string_new(low);
free(low);
}
return true;
}
static bool parse_paths(w_query *res, json_t *query)
{
json_t *paths;
size_t i;
paths = json_object_get(query, "path");
if (!paths) {
return true;
}
if (!json_is_array(paths)) {
res->errmsg = strdup("'path' must be an array");
return false;
}
res->npaths = json_array_size(paths);
res->paths = calloc(res->npaths, sizeof(res->paths[0]));
if (!res->paths) {
res->errmsg = strdup("out of memory");
return false;
}
for (i = 0; i < json_array_size(paths); i++) {
json_t *ele = json_array_get(paths, i);
const char *name = NULL;
w_string_t *path;
res->paths[i].depth = -1;
if (json_is_string(ele)) {
name = json_string_value(ele);
} else if (json_unpack(ele, "{s:s, s:i}",
"path", &name,
"depth", &res->paths[i].depth
) != 0) {
res->errmsg = strdup(
"expected object with 'path' and 'depth' properties"
);
return false;
}
path = w_string_new(name);
res->paths[i].name = w_string_canon_path(path);
w_string_delref(path);
}
return true;
}
w_string_t *w_string_path_cat(w_string_t *parent, w_string_t *rhs)
{
char name_buf[WATCHMAN_NAME_MAX];
if (rhs->len == 0) {
w_string_addref(parent);
return parent;
}
snprintf(name_buf, sizeof(name_buf), "%.*s/%.*s",
parent->len, parent->buf,
rhs->len, rhs->buf);
return w_string_new(name_buf);
}
bool w_query_register_expression_parser(
const char *term,
w_query_expr_parser parser)
{
w_string_t *name = w_string_new(term);
if (!name) {
return false;
}
if (!term_hash) {
term_hash = w_ht_new(32, &w_ht_string_funcs);
}
return w_ht_set(term_hash, w_ht_ptr_val(name), w_ht_ptr_val(parser));
}
/* trigger-del /root triggername
* Delete a trigger from a root
*/
static void cmd_trigger_delete(struct watchman_client *client, json_t *args)
{
w_root_t *root;
json_t *resp;
const char *name;
w_string_t *tname;
bool res;
root = resolve_root_or_err(client, args, 1, false);
if (!root) {
return;
}
if (json_array_size(args) != 3) {
send_error_response(client, "wrong number of arguments");
w_root_delref(root);
return;
}
name = json_string_value(json_array_get(args, 2));
if (!name) {
send_error_response(client, "expected 2nd parameter to be trigger name");
w_root_delref(root);
return;
}
tname = w_string_new(name);
w_root_lock(root);
res = w_ht_del(root->commands, w_ht_ptr_val(tname));
w_root_unlock(root);
if (res) {
w_state_save();
}
w_string_delref(tname);
resp = make_response();
set_prop(resp, "deleted", json_boolean(res));
set_prop(resp, "trigger", json_string_nocheck(name));
send_and_dispose_response(client, resp);
w_root_delref(root);
}
bool w_query_register_expression_parser(
const char *term,
w_query_expr_parser parser)
{
char capname[128];
w_string_t *name = w_string_new(term);
if (!name) {
return false;
}
snprintf(capname, sizeof(capname), "term-%s", term);
w_capability_register(capname);
if (!term_hash) {
term_hash = w_ht_new(32, &w_ht_string_funcs);
}
return w_ht_set(term_hash, w_ht_ptr_val(name), w_ht_ptr_val(parser));
}
static struct watchman_command_handler_def *lookup(
json_t *args, char **errmsg, int mode)
{
struct watchman_command_handler_def *def;
const char *cmd_name;
w_string_t *cmd;
if (!json_array_size(args)) {
ignore_result(asprintf(errmsg,
"invalid command (expected an array with some elements!)"));
return false;
}
cmd_name = json_string_value(json_array_get(args, 0));
if (!cmd_name) {
ignore_result(asprintf(errmsg,
"invalid command: expected element 0 to be the command name"));
return false;
}
cmd = w_string_new(cmd_name);
def = w_ht_val_ptr(w_ht_get(command_funcs, w_ht_ptr_val(cmd)));
w_string_delref(cmd);
if (def) {
if (mode && ((def->flags & mode) == 0)) {
ignore_result(asprintf(errmsg,
"command %s not available in this mode", cmd_name));
return NULL;
}
return def;
}
if (mode) {
ignore_result(asprintf(errmsg, "unknown command %s", cmd_name));
}
return NULL;
}
/* unsubscribe /root subname
* Cancels a subscription */
void cmd_unsubscribe(struct watchman_client *client, json_t *args)
{
w_root_t *root;
const char *name;
w_string_t *sname;
bool deleted;
json_t *resp;
root = resolve_root_or_err(client, args, 1, false);
if (!root) {
return;
}
name = json_string_value(json_array_get(args, 2));
if (!name) {
send_error_response(client,
"expected 2nd parameter to be subscription name");
w_root_delref(root);
return;
}
sname = w_string_new(name);
pthread_mutex_lock(&w_client_lock);
deleted = w_ht_del(client->subscriptions, w_ht_ptr_val(sname));
pthread_mutex_unlock(&w_client_lock);
w_string_delref(sname);
resp = make_response();
set_prop(resp, "unsubscribe", json_string_nocheck(name));
set_prop(resp, "deleted", json_boolean(deleted));
send_and_dispose_response(client, resp);
w_root_delref(root);
}
struct watchman_trigger_command *w_build_trigger_from_def(
w_root_t *root, json_t *trig, char **errmsg)
{
struct watchman_trigger_command *cmd;
json_t *ele, *query;
json_int_t jint;
const char *name = NULL;
cmd = calloc(1, sizeof(*cmd));
if (!cmd) {
*errmsg = strdup("no memory");
return NULL;
}
cmd->definition = trig;
json_incref(cmd->definition);
query = json_pack("{s:O}", "expression",
json_object_get(cmd->definition, "expression"));
cmd->query = w_query_parse(query, errmsg);
json_decref(query);
if (!cmd->query) {
w_trigger_command_free(cmd);
return NULL;
}
json_unpack(trig, "{s:s}", "name", &name);
if (!name) {
*errmsg = strdup("invalid or missing name");
w_trigger_command_free(cmd);
return NULL;
}
cmd->triggername = w_string_new(name);
cmd->command = json_object_get(trig, "command");
if (cmd->command) {
json_incref(cmd->command);
}
if (!cmd->command || !json_is_array(cmd->command) ||
!json_array_size(cmd->command)) {
*errmsg = strdup("invalid command array");
w_trigger_command_free(cmd);
return NULL;
}
json_unpack(trig, "{s:b}", "append_files", &cmd->append_files);
ele = json_object_get(trig, "stdin");
if (!ele) {
cmd->stdin_style = input_dev_null;
} else if (json_is_array(ele)) {
cmd->stdin_style = input_json;
if (!parse_field_list(ele, &cmd->field_list, errmsg)) {
w_trigger_command_free(cmd);
return NULL;
}
} else if (json_is_string(ele)) {
const char *str = json_string_value(ele);
if (!strcmp(str, "/dev/null")) {
cmd->stdin_style = input_dev_null;
} else if (!strcmp(str, "NAME_PER_LINE")) {
cmd->stdin_style = input_name_list;
} else {
ignore_result(asprintf(errmsg, "invalid stdin value %s", str));
w_trigger_command_free(cmd);
return NULL;
}
} else {
*errmsg = strdup("invalid value for stdin");
w_trigger_command_free(cmd);
return NULL;
}
jint = 0; // unlimited unless specified
json_unpack(trig, "{s:I}", "max_files_stdin", &jint);
if (jint < 0) {
*errmsg = strdup("max_files_stdin must be >= 0");
w_trigger_command_free(cmd);
return NULL;
}
cmd->max_files_stdin = jint;
json_unpack(trig, "{s:s}", "stdout", &cmd->stdout_name);
json_unpack(trig, "{s:s}", "stderr", &cmd->stderr_name);
if (!parse_redirection(&cmd->stdout_name, &cmd->stdout_flags,
"stdout", errmsg)) {
w_trigger_command_free(cmd);
return NULL;
}
if (!parse_redirection(&cmd->stderr_name, &cmd->stderr_flags,
"stderr", errmsg)) {
w_trigger_command_free(cmd);
return NULL;
}
// Copy current environment
cmd->envht = w_envp_make_ht();
// Set some standard vars
w_envp_set(cmd->envht, "WATCHMAN_ROOT", root->root_path);
w_envp_set_cstring(cmd->envht, "WATCHMAN_SOCK", get_sock_name());
w_envp_set(cmd->envht, "WATCHMAN_TRIGGER", cmd->triggername);
return cmd;
}
// ["dirname", "foo"] -> ["dirname", "foo", ["depth", "ge", 0]]
static w_query_expr *dirname_parser_inner(w_query *query, json_t *term,
bool caseless)
{
const char *which = caseless ? "idirname" : "dirname";
struct dirname_data *data;
json_t *name;
struct w_query_int_compare depth_comp;
if (!json_is_array(term)) {
ignore_result(asprintf(&query->errmsg, "Expected array for '%s' term",
which));
return NULL;
}
if (json_array_size(term) < 2) {
ignore_result(asprintf(&query->errmsg,
"Invalid number of arguments for '%s' term",
which));
return NULL;
}
if (json_array_size(term) > 3) {
ignore_result(asprintf(&query->errmsg,
"Invalid number of arguments for '%s' term",
which));
return NULL;
}
name = json_array_get(term, 1);
if (!json_is_string(name)) {
ignore_result(asprintf(&query->errmsg,
"Argument 2 to '%s' must be a string", which));
return NULL;
}
if (json_array_size(term) == 3) {
json_t *depth;
depth = json_array_get(term, 2);
if (!json_is_array(depth)) {
ignore_result(asprintf(&query->errmsg,
"Invalid number of arguments for '%s' term",
which));
return NULL;
}
if (!parse_int_compare(depth, &depth_comp, &query->errmsg)) {
return NULL;
}
if (strcmp("depth", json_string_value(json_array_get(depth, 0)))) {
ignore_result(asprintf(&query->errmsg,
"Third parameter to '%s' should be a relational depth term",
which));
return NULL;
}
} else {
depth_comp.operand = 0;
depth_comp.op = W_QUERY_ICMP_GE;
}
data = calloc(1, sizeof(*data));
if (!data) {
ignore_result(asprintf(&query->errmsg, "out of memory"));
return NULL;
}
data->dirname = w_string_new(json_string_value(name));
data->startswith =
caseless ? w_string_startswith_caseless : w_string_startswith;
data->depth = depth_comp;
return w_query_expr_new(eval_dirname, dispose_dirname, data);
}
/* subscribe /root subname {query}
* Subscribes the client connection to the specified root. */
void cmd_subscribe(struct watchman_client *client, json_t *args)
{
w_root_t *root;
struct watchman_client_subscription *sub;
json_t *resp;
const char *name;
json_t *jfield_list;
w_query *query;
json_t *query_spec;
struct w_query_field_list field_list;
char *errmsg;
if (json_array_size(args) != 4) {
send_error_response(client, "wrong number of arguments for subscribe");
return;
}
root = resolve_root_or_err(client, args, 1, true);
if (!root) {
return;
}
name = json_string_value(json_array_get(args, 2));
if (!name) {
send_error_response(client,
"expected 2nd parameter to be subscription name");
goto done;
}
query_spec = json_array_get(args, 3);
jfield_list = json_object_get(query_spec, "fields");
if (!parse_field_list(jfield_list, &field_list, &errmsg)) {
send_error_response(client, "invalid field list: %s", errmsg);
free(errmsg);
goto done;
}
query = w_query_parse(query_spec, &errmsg);
if (!query) {
send_error_response(client, "failed to parse query: %s", errmsg);
free(errmsg);
goto done;
}
sub = calloc(1, sizeof(*sub));
if (!sub) {
send_error_response(client, "no memory!");
goto done;
}
sub->name = w_string_new(name);
sub->query = query;
memcpy(&sub->field_list, &field_list, sizeof(field_list));
sub->root = root;
pthread_mutex_lock(&w_client_lock);
w_ht_replace(client->subscriptions, w_ht_ptr_val(sub->name),
w_ht_ptr_val(sub));
pthread_mutex_unlock(&w_client_lock);
resp = make_response();
annotate_with_clock(root, resp);
set_prop(resp, "subscribe", json_string(name));
send_and_dispose_response(client, resp);
resp = build_subscription_results(sub, root);
if (resp) {
send_and_dispose_response(client, resp);
}
done:
w_root_delref(root);
}
// Given a json array, concat the elements using a delimiter
w_string_t *w_string_implode(json_t *arr, const char *delim)
{
uint32_t delim_len = u32_strlen(delim);
uint32_t len = 0;
uint32_t i;
w_string_t *s;
char *buf;
if (json_array_size(arr) == 0) {
return w_string_new("");
}
if (json_array_size(arr) == 1) {
return w_string_new(json_string_value(json_array_get(arr, 0)));
}
len = ((uint32_t)json_array_size(arr) - 1) * delim_len;
for (i = 0; i < json_array_size(arr); i++) {
const char *str;
str = json_string_value(json_array_get(arr, i));
len += u32_strlen(str);
}
s = malloc(sizeof(*s) + len + 1);
if (!s) {
perror("no memory available");
abort();
}
s->refcnt = 1;
s->slice = NULL;
buf = (char*)(s + 1);
s->buf = buf;
for (i = 0; i < json_array_size(arr); i++) {
const char *str;
uint32_t l;
str = json_string_value(json_array_get(arr, i));
l = u32_strlen(str);
memcpy(buf, str, l);
// Final string doesn't want delimiter after it
if (i == json_array_size(arr) - 1) {
buf += l;
break;
}
memcpy(buf + l, delim, delim_len);
buf += l + delim_len;
}
*buf = '\0';
s->len = (uint32_t)(buf - s->buf);
s->hval = w_hash_bytes(s->buf, s->len, 0);
return s;
}
w_string_t *w_fstype(const char *path)
{
#ifdef __linux__
struct statfs sfs;
const char *name = "unknown";
if (statfs(path, &sfs) == 0) {
switch (sfs.f_type) {
#ifdef CIFS_MAGIC_NUMBER
case CIFS_MAGIC_NUMBER:
name = "cifs";
break;
#endif
#ifdef NFS_SUPER_MAGIC
case NFS_SUPER_MAGIC:
name = "nfs";
break;
#endif
#ifdef SMB_SUPER_MAGIC
case SMB_SUPER_MAGIC:
name = "smb";
break;
#endif
default:
name = "unknown";
}
}
return w_string_new(name);
#elif STATVFS_HAS_FSTYPE_AS_STRING
struct statvfs sfs;
if (statvfs(path, &sfs) == 0) {
#ifdef HAVE_STRUCT_STATVFS_F_FSTYPENAME
return w_string_new(sfs.f_fstypename);
#endif
#ifdef HAVE_STRUCT_STATVFS_F_BASETYPE
return w_string_new(sfs.f_basetype);
#endif
}
#elif HAVE_STATFS
struct statfs sfs;
if (statfs(path, &sfs) == 0) {
return w_string_new(sfs.f_fstypename);
}
#endif
#ifdef _WIN32
WCHAR *wpath = w_utf8_to_win_unc(path, -1);
w_string_t *fstype_name = NULL;
if (wpath) {
WCHAR fstype[MAX_PATH+1];
HANDLE h = CreateFileW(wpath, GENERIC_READ,
FILE_SHARE_DELETE|FILE_SHARE_READ|FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL);
if (h) {
if (GetVolumeInformationByHandleW(h, NULL, 0, 0, 0, 0, fstype,
MAX_PATH+1)) {
fstype_name = w_string_new_wchar(fstype, -1);
}
CloseHandle(h);
}
free(wpath);
}
if (fstype_name) {
return fstype_name;
}
return w_string_new("unknown");
#else
unused_parameter(path);
return w_string_new("unknown");
#endif
}
