16 #ifndef _POSIX_C_SOURCE
17 # define _POSIX_C_SOURCE 200112L
21 #include <stdio.h> /* snprintf */
22 #include "ruby_1_9_compat.h"
23 #include "broken_system_compat.h"
24 #include "blocking_helpers.h"
27 * Availability of a monotonic clock needs to be detected at runtime
28 * since we could've been built on a different system than we're run
31 static clockid_t hopefully_CLOCK_MONOTONIC
;
33 static void check_clock(void)
37 hopefully_CLOCK_MONOTONIC
= CLOCK_MONOTONIC
;
39 /* we can't check this reliably at compile time */
40 if (clock_gettime(CLOCK_MONOTONIC
, &now
) == 0)
43 if (clock_gettime(CLOCK_REALTIME
, &now
) == 0) {
44 hopefully_CLOCK_MONOTONIC
= CLOCK_REALTIME
;
45 rb_warn("CLOCK_MONOTONIC not available, "
46 "falling back to CLOCK_REALTIME");
48 rb_warn("clock_gettime() totally broken, " \
49 "falling back to pure Ruby Clogger");
50 rb_raise(rb_eLoadError
, "clock_gettime() broken");
53 static void clock_diff(struct timespec
*a
, const struct timespec
*b
)
55 a
->tv_sec
-= b
->tv_sec
;
56 a
->tv_nsec
-= b
->tv_nsec
;
59 a
->tv_nsec
+= 1000000000;
63 /* give GCC hints for better branch prediction
64 * (we layout branches so that ASCII characters are handled faster) */
65 #if defined(__GNUC__) && (__GNUC__ >= 3)
66 # define likely(x) __builtin_expect (!!(x), 1)
67 # define unlikely(x) __builtin_expect (!!(x), 0)
69 # define unlikely(x) (x)
70 # define likely(x) (x)
86 enum clogger_special
{
87 CL_SP_body_bytes_sent
= 0,
91 CL_SP_response_length
,
113 off_t body_bytes_sent
;
114 struct timespec ts_start
;
119 int reentrant
; /* tri-state, -1:auto, 1/0 true/false */
130 static ID sq_brace_id
;
132 static ID to_path_id
;
134 static ID respond_to_id
;
135 static VALUE cClogger
;
136 static VALUE mFormat
;
137 static VALUE cHeaderHash
;
139 /* common hash lookup keys */
140 static VALUE g_HTTP_X_FORWARDED_FOR
;
141 static VALUE g_REMOTE_ADDR
;
142 static VALUE g_REQUEST_METHOD
;
143 static VALUE g_PATH_INFO
;
144 static VALUE g_REQUEST_URI
;
145 static VALUE g_QUERY_STRING
;
146 static VALUE g_HTTP_VERSION
;
147 static VALUE g_rack_errors
;
148 static VALUE g_rack_input
;
149 static VALUE g_rack_multithread
;
151 static VALUE g_space
;
152 static VALUE g_question_mark
;
153 static VALUE g_rack_request_cookie_hash
;
155 #define LOG_BUF_INIT_SIZE 128
157 static void init_buffers(struct clogger
*c
)
159 c
->log_buf
= rb_str_buf_new(LOG_BUF_INIT_SIZE
);
162 static inline int need_escape(unsigned c
)
165 return !!(c
== '\'' || c
== '"' || c
<= 0x1f || c
>= 0x7f);
168 /* we are encoding-agnostic, clients can send us all sorts of junk */
169 static VALUE
byte_xs_str(VALUE from
)
171 static const char esc
[] = "0123456789ABCDEF";
172 unsigned char *new_ptr
;
173 unsigned char *ptr
= (unsigned char *)RSTRING_PTR(from
);
174 long len
= RSTRING_LEN(from
);
178 for (; --len
>= 0; ptr
++) {
181 if (unlikely(need_escape(c
)))
182 new_len
+= 3; /* { '\', 'x', 'X', 'X' } */
185 len
= RSTRING_LEN(from
);
189 rv
= rb_str_new(NULL
, new_len
);
190 new_ptr
= (unsigned char *)RSTRING_PTR(rv
);
191 ptr
= (unsigned char *)RSTRING_PTR(from
);
192 for (; --len
>= 0; ptr
++) {
195 if (unlikely(need_escape(c
))) {
198 *new_ptr
++ = esc
[c
>> 4];
199 *new_ptr
++ = esc
[c
& 0xf];
204 assert(RSTRING_PTR(rv
)[RSTRING_LEN(rv
)] == '\0');
209 static VALUE
byte_xs(VALUE from
)
211 return byte_xs_str(rb_obj_as_string(from
));
214 static void clogger_mark(void *ptr
)
216 struct clogger
*c
= ptr
;
219 rb_gc_mark(c
->fmt_ops
);
220 rb_gc_mark(c
->logger
);
221 rb_gc_mark(c
->log_buf
);
223 rb_gc_mark(c
->cookies
);
224 rb_gc_mark(c
->status
);
225 rb_gc_mark(c
->headers
);
229 static VALUE
clogger_alloc(VALUE klass
)
233 return Data_Make_Struct(klass
, struct clogger
, clogger_mark
, -1, c
);
236 static struct clogger
*clogger_get(VALUE self
)
240 Data_Get_Struct(self
, struct clogger
, c
);
245 /* only for writing to regular files, not stupid crap like NFS */
246 static void write_full(int fd
, const void *buf
, size_t count
)
249 unsigned long ubuf
= (unsigned long)buf
;
252 r
= write(fd
, (void *)ubuf
, count
);
254 if ((size_t)r
== count
) { /* overwhelmingly likely */
260 if (errno
== EINTR
|| errno
== EAGAIN
)
261 continue; /* poor souls on NFS and like: */
264 rb_sys_fail("write");
270 * allow us to use write_full() iff we detect a blocking file
271 * descriptor that wouldn't play nicely with Ruby threading/fibers
273 static int raw_fd(VALUE my_fd
)
275 #if defined(HAVE_FCNTL) && defined(F_GETFL) && defined(O_NONBLOCK)
283 flags
= fcntl(fd
, F_GETFL
);
285 rb_sys_fail("fcntl");
287 if (flags
& O_NONBLOCK
) {
290 if (fstat(fd
, &sb
) < 0)
293 /* O_NONBLOCK is no-op for regular files: */
294 if (! S_ISREG(sb
.st_mode
))
298 #else /* platforms w/o fcntl/F_GETFL/O_NONBLOCK */
300 #endif /* platforms w/o fcntl/F_GETFL/O_NONBLOCK */
304 static VALUE
clogger_reentrant(VALUE self
)
306 return clogger_get(self
)->reentrant
== 0 ? Qfalse
: Qtrue
;
310 static VALUE
clogger_wrap_body(VALUE self
)
312 return clogger_get(self
)->wrap_body
== 0 ? Qfalse
: Qtrue
;
315 static void append_status(struct clogger
*c
)
317 char buf
[sizeof("999")];
319 VALUE status
= c
->status
;
321 if (TYPE(status
) != T_FIXNUM
) {
322 status
= rb_funcall(status
, to_i_id
, 0);
323 /* no way it's a valid status code (at least not HTTP/1.1) */
324 if (TYPE(status
) != T_FIXNUM
) {
325 rb_str_buf_append(c
->log_buf
, g_dash
);
330 nr
= FIX2INT(status
);
331 if (nr
>= 100 && nr
<= 999) {
332 nr
= snprintf(buf
, sizeof(buf
), "%03d", nr
);
334 rb_str_buf_cat(c
->log_buf
, buf
, nr
);
336 /* raise?, swap for 500? */
337 rb_str_buf_append(c
->log_buf
, g_dash
);
341 /* this is Rack 1.0.0-compatible, won't try to parse commas in XFF */
342 static void append_ip(struct clogger
*c
)
345 VALUE tmp
= rb_hash_aref(env
, g_HTTP_X_FORWARDED_FOR
);
348 /* can't be faked on any real server, so no escape */
349 tmp
= rb_hash_aref(env
, g_REMOTE_ADDR
);
355 rb_str_buf_append(c
->log_buf
, tmp
);
358 static void append_body_bytes_sent(struct clogger
*c
)
360 char buf
[(sizeof(off_t
) * 8) / 3 + 1];
361 const char *fmt
= sizeof(off_t
) == sizeof(long) ? "%ld" : "%lld";
362 int nr
= snprintf(buf
, sizeof(buf
), fmt
, c
->body_bytes_sent
);
364 assert(nr
> 0 && nr
< (int)sizeof(buf
));
365 rb_str_buf_cat(c
->log_buf
, buf
, nr
);
368 static void append_ts(struct clogger
*c
, const VALUE
*op
, struct timespec
*ts
)
370 char buf
[sizeof(".000000") + ((sizeof(ts
->tv_sec
) * 8) / 3)];
372 char *fmt
= RSTRING_PTR(op
[1]);
373 int ndiv
= NUM2INT(op
[2]);
374 int usec
= ts
->tv_nsec
/ 1000;
376 nr
= snprintf(buf
, sizeof(buf
), fmt
,
377 (int)ts
->tv_sec
, (int)(usec
/ ndiv
));
378 assert(nr
> 0 && nr
< (int)sizeof(buf
));
379 rb_str_buf_cat(c
->log_buf
, buf
, nr
);
382 static void append_request_time_fmt(struct clogger
*c
, const VALUE
*op
)
386 clock_gettime(hopefully_CLOCK_MONOTONIC
, &now
);
387 clock_diff(&now
, &c
->ts_start
);
388 append_ts(c
, op
, &now
);
391 static void append_time_fmt(struct clogger
*c
, const VALUE
*op
)
394 int r
= clock_gettime(CLOCK_REALTIME
, &now
);
396 if (unlikely(r
!= 0))
397 rb_sys_fail("clock_gettime(CLOCK_REALTIME)");
398 append_ts(c
, op
, &now
);
401 static void append_request_uri(struct clogger
*c
)
405 tmp
= rb_hash_aref(c
->env
, g_REQUEST_URI
);
407 tmp
= rb_hash_aref(c
->env
, g_PATH_INFO
);
409 rb_str_buf_append(c
->log_buf
, byte_xs(tmp
));
410 tmp
= rb_hash_aref(c
->env
, g_QUERY_STRING
);
411 if (!NIL_P(tmp
) && RSTRING_LEN(tmp
) != 0) {
412 rb_str_buf_append(c
->log_buf
, g_question_mark
);
413 rb_str_buf_append(c
->log_buf
, byte_xs(tmp
));
416 rb_str_buf_append(c
->log_buf
, byte_xs(tmp
));
420 static void append_request(struct clogger
*c
)
424 /* REQUEST_METHOD doesn't need escaping, Rack::Lint governs it */
425 tmp
= rb_hash_aref(c
->env
, g_REQUEST_METHOD
);
427 rb_str_buf_append(c
->log_buf
, tmp
);
429 rb_str_buf_append(c
->log_buf
, g_space
);
431 append_request_uri(c
);
433 /* HTTP_VERSION can be injected by malicious clients */
434 tmp
= rb_hash_aref(c
->env
, g_HTTP_VERSION
);
436 rb_str_buf_append(c
->log_buf
, g_space
);
437 rb_str_buf_append(c
->log_buf
, byte_xs(tmp
));
441 static void append_request_length(struct clogger
*c
)
443 VALUE tmp
= rb_hash_aref(c
->env
, g_rack_input
);
445 rb_str_buf_append(c
->log_buf
, g_dash
);
447 tmp
= rb_funcall(tmp
, size_id
, 0);
448 rb_str_buf_append(c
->log_buf
, rb_funcall(tmp
, to_s_id
, 0));
452 static long local_gmtoffset(struct tm
*tm
)
454 time_t t
= time(NULL
);
460 * HAVE_STRUCT_TM_TM_GMTOFF may be defined in Ruby headers
461 * HAVE_ST_TM_GMTOFF is defined ourselves.
463 #if defined(HAVE_STRUCT_TM_TM_GMTOFF) || defined(HAVE_ST_TM_GMTOFF)
464 return tm
->tm_gmtoff
/ 60;
466 return -(tm
->tm_isdst
? timezone
- 3600 : timezone
) / 60;
470 static void append_time_iso8601(struct clogger
*c
)
472 char buf
[sizeof("1970-01-01T00:00:00+00:00")];
475 long gmtoff
= local_gmtoffset(&tm
);
477 nr
= snprintf(buf
, sizeof(buf
),
478 "%4d-%02d-%02dT%02d:%02d:%02d%c%02d:%02d",
479 tm
.tm_year
+ 1900, tm
.tm_mon
+ 1,
480 tm
.tm_mday
, tm
.tm_hour
,
481 tm
.tm_min
, tm
.tm_sec
,
482 gmtoff
< 0 ? '-' : '+',
483 abs(gmtoff
/ 60), abs(gmtoff
% 60));
484 assert(nr
== (sizeof(buf
) - 1) && "snprintf fail");
485 rb_str_buf_cat(c
->log_buf
, buf
, sizeof(buf
) - 1);
488 static const char months
[] = "Jan\0Feb\0Mar\0Apr\0May\0Jun\0"
489 "Jul\0Aug\0Sep\0Oct\0Nov\0Dec";
491 static void append_time_local(struct clogger
*c
)
493 char buf
[sizeof("01/Jan/1970:00:00:00 +0000")];
496 long gmtoff
= local_gmtoffset(&tm
);
498 nr
= snprintf(buf
, sizeof(buf
),
499 "%02d/%s/%d:%02d:%02d:%02d %c%02d%02d",
500 tm
.tm_mday
, months
+ (tm
.tm_mon
* sizeof("Jan")),
501 tm
.tm_year
+ 1900, tm
.tm_hour
,
502 tm
.tm_min
, tm
.tm_sec
,
503 gmtoff
< 0 ? '-' : '+',
504 abs(gmtoff
/ 60), abs(gmtoff
% 60));
505 assert(nr
== (sizeof(buf
) - 1) && "snprintf fail");
506 rb_str_buf_cat(c
->log_buf
, buf
, sizeof(buf
) - 1);
509 static void append_time_utc(struct clogger
*c
)
511 char buf
[sizeof("01/Jan/1970:00:00:00 +0000")];
514 time_t t
= time(NULL
);
517 nr
= snprintf(buf
, sizeof(buf
),
518 "%02d/%s/%d:%02d:%02d:%02d +0000",
519 tm
.tm_mday
, months
+ (tm
.tm_mon
* sizeof("Jan")),
520 tm
.tm_year
+ 1900, tm
.tm_hour
,
521 tm
.tm_min
, tm
.tm_sec
);
522 assert(nr
== (sizeof(buf
) - 1) && "snprintf fail");
523 rb_str_buf_cat(c
->log_buf
, buf
, sizeof(buf
) - 1);
527 append_time(struct clogger
*c
, enum clogger_opcode op
, VALUE fmt
, VALUE buf
)
529 char *buf_ptr
= RSTRING_PTR(buf
);
530 size_t buf_size
= RSTRING_LEN(buf
) + 1; /* "\0" */
533 time_t t
= time(NULL
);
535 if (op
== CL_OP_TIME_LOCAL
)
536 localtime_r(&t
, &tmp
);
537 else if (op
== CL_OP_TIME_UTC
)
540 assert(0 && "unknown op");
542 nr
= strftime(buf_ptr
, buf_size
, RSTRING_PTR(fmt
), &tmp
);
543 assert(nr
< buf_size
&& "time format too small!");
544 rb_str_buf_cat(c
->log_buf
, buf_ptr
, nr
);
547 static void append_pid(struct clogger
*c
)
549 char buf
[(sizeof(pid_t
) * 8) / 3 + 1];
550 int nr
= snprintf(buf
, sizeof(buf
), "%d", (int)getpid());
552 assert(nr
> 0 && nr
< (int)sizeof(buf
));
553 rb_str_buf_cat(c
->log_buf
, buf
, nr
);
556 static void append_eval(struct clogger
*c
, VALUE str
)
559 VALUE rv
= rb_eval_string_protect(RSTRING_PTR(str
), &state
);
561 rv
= state
== 0 ? rb_obj_as_string(rv
) : g_dash
;
562 rb_str_buf_append(c
->log_buf
, rv
);
565 static void append_cookie(struct clogger
*c
, VALUE key
)
569 if (c
->cookies
== Qfalse
)
570 c
->cookies
= rb_hash_aref(c
->env
, g_rack_request_cookie_hash
);
572 if (NIL_P(c
->cookies
)) {
575 cookie
= rb_hash_aref(c
->cookies
, key
);
576 cookie
= NIL_P(cookie
) ? g_dash
: byte_xs(cookie
);
578 rb_str_buf_append(c
->log_buf
, cookie
);
581 static void append_request_env(struct clogger
*c
, VALUE key
)
583 VALUE tmp
= rb_hash_aref(c
->env
, key
);
585 tmp
= NIL_P(tmp
) ? g_dash
: byte_xs(tmp
);
586 rb_str_buf_append(c
->log_buf
, tmp
);
589 static void append_response(struct clogger
*c
, VALUE key
)
593 assert(rb_obj_is_kind_of(c
->headers
, cHeaderHash
) && "not HeaderHash");
595 v
= rb_funcall(c
->headers
, sq_brace_id
, 1, key
);
596 v
= NIL_P(v
) ? g_dash
: byte_xs(v
);
597 rb_str_buf_append(c
->log_buf
, v
);
600 static void special_var(struct clogger
*c
, enum clogger_special var
)
603 case CL_SP_body_bytes_sent
:
604 append_body_bytes_sent(c
);
612 case CL_SP_request_length
:
613 append_request_length(c
);
615 case CL_SP_response_length
:
616 if (c
->body_bytes_sent
== 0)
617 rb_str_buf_append(c
->log_buf
, g_dash
);
619 append_body_bytes_sent(c
);
627 case CL_SP_request_uri
:
628 append_request_uri(c
);
630 case CL_SP_time_iso8601
:
631 append_time_iso8601(c
);
633 case CL_SP_time_local
:
634 append_time_local(c
);
641 static VALUE
cwrite(struct clogger
*c
)
643 const VALUE ops
= c
->fmt_ops
;
644 const VALUE
*ary
= RARRAY_PTR(ops
);
645 long i
= RARRAY_LEN(ops
);
646 VALUE dst
= c
->log_buf
;
648 rb_str_set_len(dst
, 0);
650 for (; --i
>= 0; ary
++) {
651 const VALUE
*op
= RARRAY_PTR(*ary
);
652 enum clogger_opcode opcode
= FIX2INT(op
[0]);
656 rb_str_buf_append(dst
, op
[1]);
659 append_request_env(c
, op
[1]);
662 append_response(c
, op
[1]);
665 special_var(c
, FIX2INT(op
[1]));
668 append_eval(c
, op
[1]);
670 case CL_OP_TIME_LOCAL
:
672 append_time(c
, opcode
, op
[1], op
[2]);
674 case CL_OP_REQUEST_TIME
:
675 append_request_time_fmt(c
, op
);
678 append_time_fmt(c
, op
);
681 append_cookie(c
, op
[1]);
687 write_full(c
->fd
, RSTRING_PTR(dst
), RSTRING_LEN(dst
));
689 VALUE logger
= c
->logger
;
692 logger
= rb_hash_aref(c
->env
, g_rack_errors
);
693 rb_funcall(logger
, write_id
, 1, dst
);
695 rb_funcall(logger
, ltlt_id
, 1, dst
);
702 static VALUE
clogger_write(VALUE self
)
704 return cwrite(clogger_get(self
));
707 static void init_logger(struct clogger
*c
, VALUE path
)
711 if (!NIL_P(path
) && !NIL_P(c
->logger
))
712 rb_raise(rb_eArgError
, ":logger and :path are independent");
714 VALUE ab
= rb_str_new2("ab");
715 id
= rb_intern("open");
716 c
->logger
= rb_funcall(rb_cFile
, id
, 2, path
, ab
);
719 id
= rb_intern("sync=");
720 if (rb_respond_to(c
->logger
, id
))
721 rb_funcall(c
->logger
, id
, 1, Qtrue
);
723 id
= rb_intern("fileno");
724 if (rb_respond_to(c
->logger
, id
))
725 c
->fd
= raw_fd(rb_funcall(c
->logger
, id
, 0));
730 * Clogger.new(app, :logger => $stderr, :format => string) => obj
732 * Creates a new Clogger object that wraps +app+. +:logger+ may
733 * be any object that responds to the "<<" method with a string argument.
734 * Instead of +:logger+, +:path+ may be specified to be a :path of a File
735 * that will be opened in append mode.
737 static VALUE
clogger_init(int argc
, VALUE
*argv
, VALUE self
)
739 struct clogger
*c
= clogger_get(self
);
741 VALUE fmt
= rb_const_get(mFormat
, rb_intern("Common"));
743 rb_scan_args(argc
, argv
, "11", &c
->app
, &o
);
746 c
->reentrant
= -1; /* auto-detect */
748 if (TYPE(o
) == T_HASH
) {
751 tmp
= rb_hash_aref(o
, ID2SYM(rb_intern("path")));
752 c
->logger
= rb_hash_aref(o
, ID2SYM(rb_intern("logger")));
755 tmp
= rb_hash_aref(o
, ID2SYM(rb_intern("format")));
759 tmp
= rb_hash_aref(o
, ID2SYM(rb_intern("reentrant")));
769 rb_raise(rb_eArgError
, ":reentrant must be boolean");
774 c
->fmt_ops
= rb_funcall(self
, rb_intern("compile_format"), 2, fmt
, o
);
776 if (Qtrue
== rb_funcall(self
, rb_intern("need_response_headers?"),
779 if (Qtrue
== rb_funcall(self
, rb_intern("need_wrap_body?"),
786 static VALUE
body_iter_i(VALUE str
, VALUE self
)
788 struct clogger
*c
= clogger_get(self
);
790 str
= rb_obj_as_string(str
);
791 c
->body_bytes_sent
+= RSTRING_LEN(str
);
793 return rb_yield(str
);
796 static VALUE
body_close(VALUE self
)
798 struct clogger
*c
= clogger_get(self
);
800 if (rb_respond_to(c
->body
, close_id
))
801 return rb_funcall(c
->body
, close_id
, 0);
807 * clogger.each { |part| socket.write(part) }
809 * Delegates the body#each call to the underlying +body+ object
810 * while tracking the number of bytes yielded. This will log
813 static VALUE
clogger_each(VALUE self
)
815 struct clogger
*c
= clogger_get(self
);
818 c
->body_bytes_sent
= 0;
819 rb_iterate(rb_each
, c
->body
, body_iter_i
, self
);
828 * Delegates the body#close call to the underlying +body+ object.
829 * This is only used when Clogger is wrapping the +body+ of a Rack
830 * response and should be automatically called by the web server.
832 static VALUE
clogger_close(VALUE self
)
835 return rb_ensure(body_close
, self
, clogger_write
, self
);
839 static VALUE
clogger_fileno(VALUE self
)
841 struct clogger
*c
= clogger_get(self
);
843 return c
->fd
< 0 ? Qnil
: INT2NUM(c
->fd
);
846 static VALUE
ccall(struct clogger
*c
, VALUE env
)
850 clock_gettime(hopefully_CLOCK_MONOTONIC
, &c
->ts_start
);
853 rv
= rb_funcall(c
->app
, call_id
, 1, env
);
854 if (TYPE(rv
) == T_ARRAY
&& RARRAY_LEN(rv
) == 3) {
855 VALUE
*tmp
= RARRAY_PTR(rv
);
861 rv
= rb_ary_new4(3, tmp
);
863 ! rb_obj_is_kind_of(tmp
[1], cHeaderHash
)) {
864 c
->headers
= rb_funcall(cHeaderHash
, new_id
, 1, tmp
[1]);
865 rb_ary_store(rv
, 1, c
->headers
);
868 volatile VALUE tmp
= rb_inspect(rv
);
870 c
->status
= INT2FIX(500);
871 c
->headers
= c
->body
= rb_ary_new();
873 rb_raise(rb_eTypeError
,
874 "app response not a 3 element Array: %s",
883 * clogger.call(env) => [ status, headers, body ]
885 * calls the wrapped Rack application with +env+, returns the
886 * [status, headers, body ] tuplet required by Rack.
888 static VALUE
clogger_call(VALUE self
, VALUE env
)
890 struct clogger
*c
= clogger_get(self
);
893 env
= rb_check_convert_type(env
, T_HASH
, "Hash", "to_hash");
896 /* XXX: we assume the existence of the GVL here: */
897 if (c
->reentrant
< 0) {
898 VALUE tmp
= rb_hash_aref(env
, g_rack_multithread
);
899 c
->reentrant
= Qfalse
== tmp
? 0 : 1;
903 self
= rb_obj_dup(self
);
904 c
= clogger_get(self
);
908 assert(!OBJ_FROZEN(rv
) && "frozen response array");
909 rb_ary_store(rv
, 2, self
);
920 static void duplicate_buffers(VALUE ops
)
922 long i
= RARRAY_LEN(ops
);
923 VALUE
*ary
= RARRAY_PTR(ops
);
925 for ( ; --i
>= 0; ary
++) {
926 VALUE
*op
= RARRAY_PTR(*ary
);
927 enum clogger_opcode opcode
= FIX2INT(op
[0]);
929 if (opcode
== CL_OP_TIME_LOCAL
|| opcode
== CL_OP_TIME_UTC
) {
930 Check_Type(op
[2], T_STRING
);
931 op
[2] = rb_str_dup(op
[2]);
932 rb_str_modify(op
[2]); /* trigger copy-on-write */
938 static VALUE
clogger_init_copy(VALUE clone
, VALUE orig
)
940 struct clogger
*a
= clogger_get(orig
);
941 struct clogger
*b
= clogger_get(clone
);
943 memcpy(b
, a
, sizeof(struct clogger
));
945 duplicate_buffers(b
->fmt_ops
);
950 #define CONST_GLOBAL_STR2(var, val) do { \
951 g_##var = rb_obj_freeze(rb_str_new(val, sizeof(val) - 1)); \
952 rb_global_variable(&g_##var); \
955 #define CONST_GLOBAL_STR(val) CONST_GLOBAL_STR2(val, #val)
959 * clogger.respond_to?(:to_path) => true or false
960 * clogger.respond_to?(:close) => true
962 * used to delegate +:to_path+ checks for Rack webservers that optimize
963 * static file serving
965 static VALUE
respond_to(VALUE self
, VALUE method
)
967 struct clogger
*c
= clogger_get(self
);
968 ID id
= rb_to_id(method
);
972 return rb_respond_to(c
->body
, id
);
979 * used to proxy +:to_path+ method calls to the wrapped response body.
981 static VALUE
to_path(VALUE self
)
983 struct clogger
*c
= clogger_get(self
);
986 VALUE path
= rb_funcall(c
->body
, to_path_id
, 0);
988 /* try to avoid an extra path lookup */
989 if (rb_respond_to(c
->body
, to_io_id
)) {
990 rv
= fstat(my_fileno(c
->body
), &sb
);
992 const char *cpath
= StringValueCStr(path
);
995 * Rainbows! can use "/dev/fd/%u" in to_path output to avoid
996 * extra open() syscalls, too.
998 if (sscanf(cpath
, "/dev/fd/%u", &devfd
) == 1)
999 rv
= fstat((int)devfd
, &sb
);
1001 rv
= stat(cpath
, &sb
);
1005 * calling this method implies the web server will bypass
1006 * the each method where body_bytes_sent is calculated,
1007 * so we stat and set that value here.
1009 c
->body_bytes_sent
= rv
== 0 ? sb
.st_size
: 0;
1017 * used to proxy +:to_io+ method calls to the wrapped response body.
1019 static VALUE
to_io(VALUE self
)
1021 struct clogger
*c
= clogger_get(self
);
1023 VALUE io
= rb_convert_type(c
->body
, T_FILE
, "IO", "to_io");
1025 if (fstat(my_fileno(io
), &sb
) == 0)
1026 c
->body_bytes_sent
= sb
.st_size
;
1032 static VALUE
body(VALUE self
)
1034 return clogger_get(self
)->body
;
1037 void Init_clogger_ext(void)
1043 write_id
= rb_intern("write");
1044 ltlt_id
= rb_intern("<<");
1045 call_id
= rb_intern("call");
1046 each_id
= rb_intern("each");
1047 close_id
= rb_intern("close");
1048 to_i_id
= rb_intern("to_i");
1049 to_s_id
= rb_intern("to_s");
1050 size_id
= rb_intern("size");
1051 sq_brace_id
= rb_intern("[]");
1052 new_id
= rb_intern("new");
1053 to_path_id
= rb_intern("to_path");
1054 to_io_id
= rb_intern("to_io");
1055 respond_to_id
= rb_intern("respond_to?");
1056 cClogger
= rb_define_class("Clogger", rb_cObject
);
1057 mFormat
= rb_define_module_under(cClogger
, "Format");
1058 rb_define_alloc_func(cClogger
, clogger_alloc
);
1059 rb_define_method(cClogger
, "initialize", clogger_init
, -1);
1060 rb_define_method(cClogger
, "initialize_copy", clogger_init_copy
, 1);
1061 rb_define_method(cClogger
, "call", clogger_call
, 1);
1062 rb_define_method(cClogger
, "each", clogger_each
, 0);
1063 rb_define_method(cClogger
, "close", clogger_close
, 0);
1064 rb_define_method(cClogger
, "fileno", clogger_fileno
, 0);
1065 rb_define_method(cClogger
, "wrap_body?", clogger_wrap_body
, 0);
1066 rb_define_method(cClogger
, "reentrant?", clogger_reentrant
, 0);
1067 rb_define_method(cClogger
, "to_path", to_path
, 0);
1068 rb_define_method(cClogger
, "to_io", to_io
, 0);
1069 rb_define_method(cClogger
, "respond_to?", respond_to
, 1);
1070 rb_define_method(cClogger
, "body", body
, 0);
1071 CONST_GLOBAL_STR(REMOTE_ADDR
);
1072 CONST_GLOBAL_STR(HTTP_X_FORWARDED_FOR
);
1073 CONST_GLOBAL_STR(REQUEST_METHOD
);
1074 CONST_GLOBAL_STR(PATH_INFO
);
1075 CONST_GLOBAL_STR(QUERY_STRING
);
1076 CONST_GLOBAL_STR(REQUEST_URI
);
1077 CONST_GLOBAL_STR(HTTP_VERSION
);
1078 CONST_GLOBAL_STR2(rack_errors
, "rack.errors");
1079 CONST_GLOBAL_STR2(rack_input
, "rack.input");
1080 CONST_GLOBAL_STR2(rack_multithread
, "rack.multithread");
1081 CONST_GLOBAL_STR2(dash
, "-");
1082 CONST_GLOBAL_STR2(space
, " ");
1083 CONST_GLOBAL_STR2(question_mark
, "?");
1084 CONST_GLOBAL_STR2(rack_request_cookie_hash
, "rack.request.cookie_hash");
1086 tmp
= rb_const_get(rb_cObject
, rb_intern("Rack"));
1087 tmp
= rb_const_get(tmp
, rb_intern("Utils"));
1088 cHeaderHash
= rb_const_get(tmp
, rb_intern("HeaderHash"));