File Coverage

lib/Linux/Epoll.xs

Criterion	Covered	Total	%
statement	111	138	80.4
branch	49	116	42.2
condition			n/a
subroutine			n/a
pod			n/a
total	160	254	62.9

line	stmt	bran	code
1			#ifndef _GNU_SOURCE
2			# define _GNU_SOURCE
3			#endif
4			#define GNU_STRERROR_R
5
6			#include
7			#include
8
9			#include
10
11			#define PERL_NO_GET_CONTEXT
12			#include "EXTERN.h"
13			#include "perl.h"
14			#include "XSUB.h"
15			#define NEED_mg_findext
16			#define NEED_sv_unmagicext
17			#include "ppport.h"
18
19	17		static int S_get_fd(pTHX_ SV* fh) {
20	17		IO* io = sv_2io(fh);
21
22	17		MAGIC* magic = mg_find((SV*)io, PERL_MAGIC_tiedscalar);
23	17	100	if (magic) {
24			int ret = -1;
25	1		dSP;
26	1	50	PUSHMARK(SP);
27	1		PUSHs(magic->mg_obj);
28	1		PUTBACK;
29	1		call_method("FILENO", G_SCALAR);
30	1		SPAGAIN;
31	1	50	ret = POPi;
32	1		PUTBACK;
33	1		return ret;
34			}
35			else
36	16		return PerlIO_fileno(IoIFP(io));
37			}
38			#define get_fd(fh) S_get_fd(aTHX_ fh)
39
40	0		static void get_sys_error(char* buffer, size_t buffer_size) {
41			#if _POSIX_VERSION >= 200112L
42			# ifdef GNU_STRERROR_R
43	0		const char* message = strerror_r(errno, buffer, buffer_size);
44	0	0	if (message != buffer)
45			memcpy(buffer, message, buffer_size);
46			# else
47			strerror_r(errno, buffer, buffer_size);
48			# endif
49			#else
50			const char* message = strerror(errno);
51			strncpy(buffer, message, buffer_size - 1);
52			buffer[buffer_size - 1] = '\0';
53			#endif
54	0		}
55
56	0		static void S_die_sys(pTHX_ const char* format) {
57			char buffer[128];
58	0		get_sys_error(buffer, sizeof buffer);
59	0		Perl_croak(aTHX_ format, buffer);
60			}
61			#define die_sys(format) S_die_sys(aTHX_ format)
62
63	0		static sigset_t* S_sv_to_sigset(pTHX_ SV* sigmask, const char* name) {
64			IV tmp;
65	0	0	if (!SvOK(sigmask))
		0
		0
66			return NULL;
67	0	0	if (!SvROK(sigmask) \|\| !sv_derived_from(sigmask, "POSIX::SigSet"))
		0
68	0		Perl_croak(aTHX_ "%s is not of type POSIX::SigSet");
69			#if PERL_VERSION > 15 \|\| PERL_VERSION == 15 && PERL_SUBVERSION > 2
70	0	0	return (sigset_t *) SvPV_nolen(SvRV(sigmask));
71			#else
72			tmp = SvIV((SV*)SvRV(sigmask));
73			return INT2PTR(sigset_t*, tmp);
74			#endif
75			}
76			#define sv_to_sigset(sigmask, name) S_sv_to_sigset(aTHX_ sigmask, name)
77
78			typedef struct { const char* key; size_t keylen; uint32_t value; } entry;
79			typedef entry map[];
80
81			static map events = {
82			{ "in" , 2, EPOLLIN },
83			{ "out" , 3, EPOLLOUT },
84			{ "err" , 3, EPOLLERR },
85			{ "prio" , 4, EPOLLPRI },
86			{ "et" , 2, EPOLLET },
87			{ "hup" , 3, EPOLLHUP },
88			#ifdef EPOLLRDHUP
89			{ "rdhup" , 5, EPOLLRDHUP },
90			#endif
91			#ifdef EPOLLWAKEUP
92			{ "wakeup" , 6, EPOLLWAKEUP },
93			#endif
94			#ifdef EPOLLEXCLUSIVE
95			{ "exclusive", 9, EPOLLEXCLUSIVE },
96			#endif
97			{ "oneshot" , 7, EPOLLONESHOT }
98			};
99
100	5		static uint32_t S_get_eventid(pTHX_ SV* event) {
101			STRLEN len;
102	5	50	const char* event_name = SvPV(event, len);
103			size_t i;
104	8	50	for (i = 0; i < sizeof events / sizeof *events; ++i) {
105	8	100	if (events[i].keylen == len && strEQ(events[i].key, event_name))
		50
106	5		return events[i].value;
107			}
108	0		Perl_croak(aTHX_ "No such event type '%s' known", event_name);
109			}
110			#define get_eventid(name) S_get_eventid(aTHX_ name)
111
112	4		static uint32_t S_event_names_to_bits(pTHX_ SV* names) {
113	4	100	if (SvROK(names)) {
114	1		AV* array = (AV*)SvRV(names);
115			uint32_t ret = 0;
116			int i, len;
117			if (!SvTYPE(array) == SVt_PVAV)
118			Perl_croak(aTHX_ "event names must be string or arrayref");
119	1		len = av_len(array) + 1;
120	3	100	for (i = 0; i < len; ++i) {
121	2		SV** elem = av_fetch(array, i, FALSE);
122	2		ret \|= get_eventid(*elem);
123			}
124			return ret;
125			}
126			else
127	3		return get_eventid(names);
128			}
129			#define event_names_to_bits(name) S_event_names_to_bits(aTHX_ name)
130
131			static entry* S_get_event_name(pTHX_ uint32_t event_bit) {
132			size_t i;
133	9	50	for (i = 0; i < sizeof events / sizeof *events; ++i)
134	9	100	if (events[i].value == event_bit)
135			return &events[i];
136	0		Perl_croak(aTHX_ "No such event type '%d' known", event_bit);
137			}
138			#define get_event_name(event_bit) S_get_event_name(aTHX_ event_bit)
139
140	4		static CV* S_extract_cv(pTHX_ SV* sv) {
141			HV* stash;
142			GV* gv;
143	4		CV* ret = sv_2cv(sv, &stash, &gv, FALSE);
144	4	50	if (!ret)
145	0		Perl_croak(aTHX_ "Couldn't convert callback parameter to a CV");
146	4		return ret;
147			}
148			#define extract_cv(sv) S_extract_cv(aTHX_ sv)
149
150			struct data {
151			AV* backrefs;
152			int index;
153			};
154
155	1		static int weak_set(pTHX_ SV* sv, MAGIC* magic) {
156	1		struct data* data = (struct data*)magic->mg_ptr;
157	1		av_delete(data->backrefs, data->index, G_DISCARD);
158	1		return 0;
159			}
160
161			static int weak_free(pTHX_ SV* sv, MAGIC* magic);
162
163			MGVTBL epoll_magic = { NULL };
164			MGVTBL weak_magic = { NULL, weak_set, NULL, NULL, weak_free };
165
166	4		static int weak_free(pTHX_ SV* sv, MAGIC* magic) {
167			struct data* data = (struct data*)magic->mg_ptr;
168	4		mg_findext(sv, PERL_MAGIC_ext, &weak_magic)->mg_virtual = NULL; /* Cover perl bugs under the carpet */
169	4		}
170
171			#define get_backrefs(epoll) (AV*)mg_findext(SvRV(epoll), PERL_MAGIC_ext, &epoll_magic)->mg_obj
172
173	8		static void S_set_backref(pTHX_ SV* epoll, SV* fh, int fd, CV* callback) {
174	4		AV* backrefs = get_backrefs(epoll);
175	4		struct data backref = { backrefs, fd };
176	4	100	SV* ref = sv_rvweaken(SvROK(fh) ? newSVsv(fh) : newRV(fh));
177
178	4		av_store(backrefs, fd, ref);
179	4		sv_magicext(ref, (SV)callback, PERL_MAGIC_ext, &weak_magic, (const char)&backref, sizeof backref);
180	4		}
181			#define set_backref(epoll, fh, fd, cb) S_set_backref(aTHX_ epoll, fh, fd, cb)
182
183	2		static void S_del_backref(pTHX_ SV* epoll, int fd) {
184	1		av_delete(get_backrefs(epoll), fd, G_DISCARD);
185	1		}
186			#define del_backref(epoll, fd) S_del_backref(aTHX_ epoll, fd)
187
188			#define undef &PL_sv_undef
189
190	2		static SV* S_io_fdopen(pTHX_ int fd, const char* package) {
191	2		PerlIO* pio = PerlIO_fdopen(fd, "r");
192	2		GV* gv = newGVgen("Linux::Epoll");
193	2		SV* ret = newRV_noinc((SV*)gv);
194	2	50	IO* io = GvIOn(gv);
		50
		50
		50
195	2		IoTYPE(io) = '<';
196	2		IoIFP(io) = pio;
197	2		IoOFP(io) = pio;
198	2		sv_bless(ret, gv_stashpv(package, TRUE));
199	2		return ret;
200			}
201			#define io_fdopen(fd, package) S_io_fdopen(aTHX_ fd, package)
202
203	3		static SV* S_event_bits_to_hash(pTHX_ UV bits) {
204			int shift;
205	3		HV* ret = newHV();
206	35	100	for (shift = 0; shift < 32; ++shift) {
207	34		int bit_value = 1 << shift;
208	34	100	if (bits & bit_value) {
209	4		entry* tmp = get_event_name(bit_value);
210	4		hv_store(ret, tmp->key, tmp->keylen, &PL_sv_yes, 0);
211	4	100	if (bits == bit_value)
212			break;
213			}
214			}
215	3		return newRV_noinc((SV*)ret);
216			}
217			#define event_bits_to_hash(bits) S_event_bits_to_hash(aTHX_ bits)
218
219			MODULE = Linux::Epoll PACKAGE = Linux::Epoll
220
221			SV*
222			new(package)
223			const char* package;
224			PREINIT:
225			int fd;
226			CODE:
227			#ifdef EPOLL_CLOEXEC
228	2		fd = epoll_create1(EPOLL_CLOEXEC);
229			#else
230			fd = epoll_create(0);
231			#endif
232	2	50	if (fd < 0)
233	0		die_sys("Couldn't open epollfd: %s");
234	2		RETVAL = io_fdopen(fd, package);
235	2		sv_magicext(SvRV(RETVAL), sv_2mortal((SV*)newAV()), PERL_MAGIC_ext, &epoll_magic, NULL, 0);
236			OUTPUT:
237			RETVAL
238
239			const char*
240			add(self, fh, events, callback)
241			SV* self;
242			SV* fh;
243			SV* events;
244			SV* callback;
245			PREINIT:
246			int efd, ofd;
247			struct epoll_event event;
248			CV* real_callback;
249			MAGIC* mg;
250			CODE:
251	3		efd = get_fd(self);
252	3		ofd = get_fd(fh);
253	3		event.events = event_names_to_bits(events);
254	3		real_callback = extract_cv(callback);
255	3		event.data.ptr = real_callback;
256	3	50	if (epoll_ctl(efd, EPOLL_CTL_ADD, ofd, &event) == -1) {
257	0	0	if (GIMME_V != G_VOID && (errno == EEXIST \|\| errno == EPERM))
		0
		0
		0
258	0		XSRETURN_EMPTY;
259			else
260	0		die_sys("Couldn't add filehandle from epoll set: %s");
261			}
262	3		set_backref(self, fh, ofd, real_callback);
263			RETVAL = "0 but true";
264			OUTPUT:
265			RETVAL
266
267			const char*
268			modify(self, fh, events, callback)
269			SV* self;
270			SV* fh;
271			SV* events;
272			SV* callback;
273			PREINIT:
274			int efd, ofd;
275			struct epoll_event event;
276			CV* real_callback;
277			CODE:
278	1		efd = get_fd(self);
279	1		ofd = get_fd(fh);
280	1		event.events = event_names_to_bits(events);
281	1		real_callback = extract_cv(callback);
282	1		event.data.ptr = real_callback;
283	1	50	if (epoll_ctl(efd, EPOLL_CTL_MOD, ofd, &event) == -1) {
284	0	0	if (GIMME_V != G_VOID && errno == ENOENT)
		0
		0
		0
285	0		XSRETURN_EMPTY;
286			else
287	0		die_sys("Couldn't modify filehandle from epoll set: %s");
288			}
289	1		set_backref(self, fh, ofd, real_callback);
290			RETVAL = "0 but true";
291			OUTPUT:
292			RETVAL
293
294			const char*
295			delete(self, fh)
296			SV* self;
297			SV* fh;
298			PREINIT:
299			int efd, ofd;
300			CODE:
301	1		efd = get_fd(self);
302	1		ofd = get_fd(fh);
303	1	50	if (epoll_ctl(efd, EPOLL_CTL_DEL, ofd, NULL) == -1) {
304	0	0	if (GIMME_V != G_VOID && errno == ENOENT)
		0
		0
		0
305	0		XSRETURN_EMPTY;
306			else
307	0		die_sys("Couldn't delete filehandle from epoll set: %s");
308			}
309	1		del_backref(self, ofd);
310			RETVAL = "0 but true";
311			OUTPUT:
312			RETVAL
313
314			int
315			wait(self, maxevents = 1, timeout = undef, sigset = undef)
316			SV* self;
317			ssize_t maxevents;
318			SV* timeout;
319			SV* sigset;
320			PREINIT:
321			int efd, i;
322			int real_timeout;
323			const sigset_t* real_sigset;
324			struct epoll_event* events;
325			CODE:
326	7	50	if (maxevents <= 0)
327	0		Perl_croak(aTHX_ "Can't wait for a non-positive number of events (maxevents = %d)", maxevents);
328	7		efd = get_fd(self);
329	7	50	real_timeout = SvOK(timeout) ? (int)ceil(SvNV(timeout) * 1000) : -1;
		0
		0
		50
330	7	50	real_sigset = SvOK(sigset) ? sv_to_sigset(sigset, "epoll_pwait") : NULL;
		50
		50
331
332	7		events = alloca(sizeof(struct epoll_event) * maxevents);
333	7		RETVAL = epoll_pwait(efd, events, maxevents, real_timeout, real_sigset);
334	7	100	if (RETVAL == -1) {
335	1	50	if (errno != EINTR)
336	0		die_sys("Couldn't wait on epollfd: %s");
337	1	50	PERL_ASYNC_CHECK();
338	1		XSRETURN_EMPTY;
339			}
340	9	100	for (i = 0; i < RETVAL; ++i) {
341	3		SV* tmp = (SV*)events[i].data.ptr;
342			SvREFCNT_inc(tmp);
343	3		SAVEFREESV(tmp);
344			}
345	9	100	for (i = 0; i < RETVAL; ++i) {
346	3		CV* callback = (CV*) events[i].data.ptr;
347	3	50	PUSHMARK(SP);
348	3	50	mXPUSHs(event_bits_to_hash(events[i].events));
349	3		PUTBACK;
350	3		call_sv((SV*)callback, G_VOID \| G_DISCARD);
351	3		SPAGAIN;
352			}
353			OUTPUT:
354			RETVAL
355
356			int
357			CLONE_SKIP(...)
358			CODE:
359			RETVAL = 1;
360			OUTPUT:
361			RETVAL
362