1# An overview of the PHP streams abstraction 2 3WARNING: some prototypes in this file are out of date. 4 5## Why streams? 6 7You may have noticed a shed-load of issock parameters flying around the PHP 8code; we don't want them - they are ugly and cumbersome and force you to special 9case sockets and files every time you need to work with a "user-level" PHP file 10pointer. 11 12Streams take care of that and present the PHP extension coder with an ANSI 13stdio-alike API that looks much nicer and can be extended to support non file 14based data sources. 15 16## Using streams 17 18Streams use a `php_stream*` parameter just as ANSI stdio (fread etc.) use a 19`FILE*` parameter. 20 21The main functions are: 22 23```c 24PHPAPI size_t php_stream_read(php_stream * stream, char * buf, size_t count); 25PHPAPI size_t php_stream_write(php_stream * stream, const char * buf, size_t 26 count); 27PHPAPI size_t php_stream_printf(php_stream * stream, 28 const char * fmt, ...); 29PHPAPI int php_stream_eof(php_stream * stream); 30PHPAPI int php_stream_getc(php_stream * stream); 31PHPAPI char *php_stream_gets(php_stream * stream, char *buf, size_t maxlen); 32PHPAPI int php_stream_close(php_stream * stream); 33PHPAPI int php_stream_flush(php_stream * stream); 34PHPAPI int php_stream_seek(php_stream * stream, off_t offset, int whence); 35PHPAPI off_t php_stream_tell(php_stream * stream); 36PHPAPI int php_stream_lock(php_stream * stream, int mode); 37``` 38 39These (should) behave in the same way as the ANSI stdio functions with similar 40names: fread, fwrite, fprintf, feof, fgetc, fgets, fclose, fflush, fseek, ftell, 41flock. 42 43## Opening streams 44 45In most cases, you should use this API: 46 47```c 48PHPAPI php_stream *php_stream_open_wrapper(const char *path, const char *mode, 49 int options, char **opened_path); 50``` 51 52Where: 53 54* `path` is the file or resource to open. 55* `mode` is the stdio compatible mode eg: "wb", "rb" etc. 56* `options` is a combination of the following values: 57 * `IGNORE_PATH` (default) - don't use include path to search for the file 58 * `USE_PATH` - use include path to search for the file 59 * `IGNORE_URL` - do not use plugin wrappers 60 * `REPORT_ERRORS` - show errors in a standard format if something goes wrong. 61 * `STREAM_MUST_SEEK` - If you really need to be able to seek the stream and 62 don't need to be able to write to the original file/URL, use this option to 63 arrange for the stream to be copied (if needed) into a stream that can be 64 seek()ed. 65* `opened_path` is used to return the path of the actual file opened, but if you 66 used `STREAM_MUST_SEEK`, may not be valid. You are responsible for 67 `efree()ing` `opened_path`. 68* `opened_path` may be (and usually is) `NULL`. 69 70If you need to open a specific stream, or convert standard resources into 71streams there are a range of functions to do this defined in `php_streams.h`. A 72brief list of the most commonly used functions: 73 74```c 75PHPAPI php_stream *php_stream_fopen_from_file(FILE *file, const char *mode); 76 /* Convert a FILE * into a stream. */ 77 78PHPAPI php_stream *php_stream_fopen_tmpfile(void); 79 /* Open a FILE * with tmpfile() and convert into a stream. */ 80 81PHPAPI php_stream *php_stream_fopen_temporary_file(const char *dir, 82 const char *pfx, char **opened_path); 83 /* Generate a temporary file name and open it. */ 84``` 85 86There are some network enabled relatives in `php_network.h`: 87 88```c 89PHPAPI php_stream *php_stream_sock_open_from_socket(int socket, int persistent); 90 /* Convert a socket into a stream. */ 91 92PHPAPI php_stream *php_stream_sock_open_host(const char *host, unsigned short port, 93 int socktype, int timeout, int persistent); 94 /* Open a connection to a host and return a stream. */ 95 96PHPAPI php_stream *php_stream_sock_open_unix(const char *path, int persistent, 97 struct timeval *timeout); 98 /* Open a UNIX domain socket. */ 99``` 100 101## Stream utilities 102 103If you need to copy some data from one stream to another, you will be please to 104know that the streams API provides a standard way to do this: 105 106```c 107PHPAPI size_t php_stream_copy_to_stream(php_stream *src, 108 php_stream *dest, size_t maxlen); 109``` 110 111If you want to copy all remaining data from the src stream, pass 112`PHP_STREAM_COPY_ALL` as the maxlen parameter, otherwise maxlen indicates the 113number of bytes to copy. This function will try to use mmap where available to 114make the copying more efficient. 115 116If you want to read the contents of a stream into an allocated memory buffer, 117you should use: 118 119```c 120PHPAPI size_t php_stream_copy_to_mem(php_stream *src, char **buf, 121 size_t maxlen, int persistent); 122``` 123 124This function will set buf to the address of the buffer that it allocated, which 125will be maxlen bytes in length, or will be the entire length of the data 126remaining on the stream if you set maxlen to `PHP_STREAM_COPY_ALL`. The buffer 127is allocated using `pemalloc()`. You need to call `pefree()` to release the 128memory when you are done. As with `copy_to_stream`, this function will try use 129mmap where it can. 130 131If you have an existing stream and need to be able to `seek()` it, you can use 132this function to copy the contents into a new stream that can be `seek()ed`: 133 134```c 135PHPAPI int php_stream_make_seekable(php_stream *origstream, php_stream **newstream); 136``` 137 138It returns one of the following values: 139 140```c 141#define PHP_STREAM_UNCHANGED 0 /* orig stream was seekable anyway */ 142#define PHP_STREAM_RELEASED 1 /* newstream should be used; origstream is no longer valid */ 143#define PHP_STREAM_FAILED 2 /* an error occurred while attempting conversion */ 144#define PHP_STREAM_CRITICAL 3 /* an error occurred; origstream is in an unknown state; you should close origstream */ 145``` 146 147`make_seekable` will always set newstream to be the stream that is valid if the 148function succeeds. When you have finished, remember to close the stream. 149 150NOTE: If you only need to seek forward, there is no need to call this function, 151as the `php_stream_seek` can emulate forward seeking when the whence parameter 152is `SEEK_CUR`. 153 154NOTE: Writing to the stream may not affect the original source, so it only makes 155sense to use this for read-only use. 156 157NOTE: If the origstream is network based, this function will block until the 158whole contents have been downloaded. 159 160NOTE: Never call this function with an origstream that is referenced as a 161resource! It will close the origstream on success, and this can lead to a crash 162when the resource is later used/released. 163 164NOTE: If you are opening a stream and need it to be seekable, use the 165`STREAM_MUST_SEEK` option to php_stream_open_wrapper(); 166 167```c 168PHPAPI int php_stream_supports_lock(php_stream * stream); 169``` 170 171This function will return either 1 (success) or 0 (failure) indicating whether 172or not a lock can be set on this stream. Typically, you can only set locks on 173stdio streams. 174 175## Casting streams 176 177What if your extension needs to access the `FILE*` of a user level file pointer? 178You need to "cast" the stream into a `FILE*`, and this is how you do it: 179 180```c 181FILE * fp; 182php_stream * stream; /* already opened */ 183 184if (php_stream_cast(stream, PHP_STREAM_AS_STDIO, (void*)&fp, REPORT_ERRORS) == FAILURE) { 185 RETURN_FALSE; 186} 187``` 188 189The prototype is: 190 191```c 192PHPAPI int php_stream_cast(php_stream * stream, int castas, void ** ret, int show_err); 193``` 194 195The `show_err` parameter, if non-zero, will cause the function to display an 196appropriate error message of type `E_WARNING` if the cast fails. 197 198`castas` can be one of the following values: 199 200```txt 201PHP_STREAM_AS_STDIO - a stdio FILE* 202PHP_STREAM_AS_FD - a generic file descriptor 203PHP_STREAM_AS_SOCKETD - a socket descriptor 204``` 205 206If you ask a socket stream for a `FILE*`, the abstraction will use fdopen to 207create it for you. Be warned that doing so may cause buffered data to be lost 208if you mix ANSI stdio calls on the FILE* with php stream calls on the stream. 209 210If your system has the fopencookie function, php streams can synthesize a 211`FILE*` on top of any stream, which is useful for SSL sockets, memory based 212streams, database streams etc. etc. 213 214In situations where this is not desirable, you should query the stream to see if 215it naturally supports `FILE *`. You can use this code snippet for this purpose: 216 217```c 218if (php_stream_is(stream, PHP_STREAM_IS_STDIO)) { 219 /* can safely cast to FILE* with no adverse side effects */ 220} 221``` 222 223You can use: 224 225```c 226PHPAPI int php_stream_can_cast(php_stream * stream, int castas) 227``` 228 229to find out if a stream can be cast, without actually performing the cast, so to 230check if a stream is a socket you might use: 231 232```c 233if (php_stream_can_cast(stream, PHP_STREAM_AS_SOCKETD) == SUCCESS) { 234 /* it can be a socket */ 235} 236``` 237 238Please note the difference between `php_stream_is` and `php_stream_can_cast`; 239`stream_is` tells you if the stream is a particular type of stream, whereas 240`can_cast` tells you if the stream can be forced into the form you request. The 241former doesn't change anything, while the later *might* change some state in the 242stream. 243 244## Stream internals 245 246There are two main structures associated with a stream - the `php_stream` 247itself, which holds some state information (and possibly a buffer) and a 248`php_stream_ops` structure, which holds the "virtual method table" for the 249underlying implementation. 250 251The `php_streams` ops struct consists of pointers to methods that implement 252read, write, close, flush, seek, gets and cast operations. Of these, an 253implementation need only implement write, read, close and flush. The gets method 254is intended to be used for streams if there is an underlying method that can 255efficiently behave as fgets. The ops struct also contains a label for the 256implementation that will be used when printing error messages - the stdio 257implementation has a label of `STDIO` for example. 258 259The idea is that a stream implementation defines a `php_stream_ops` struct, and 260associates it with a `php_stream` using `php_stream_alloc`. 261 262As an example, the `php_stream_fopen()` function looks like this: 263 264```c 265PHPAPI php_stream * php_stream_fopen(const char * filename, const char * mode) 266{ 267 FILE * fp = fopen(filename, mode); 268 php_stream * ret; 269 270 if (fp) { 271 ret = php_stream_alloc(&php_stream_stdio_ops, fp, 0, 0, mode); 272 if (ret) 273 return ret; 274 275 fclose(fp); 276 } 277 return NULL; 278} 279``` 280 281`php_stream_stdio_ops` is a `php_stream_ops` structure that can be used to 282handle `FILE*` based streams. 283 284A socket based stream would use code similar to that above to create a stream to 285be passed back to fopen_wrapper (or it's yet to be implemented successor). 286 287The prototype for php_stream_alloc is this: 288 289```c 290PHPAPI php_stream * php_stream_alloc(php_stream_ops * ops, void * abstract, 291 size_t bufsize, int persistent, const char * mode) 292``` 293 294* `ops` is a pointer to the implementation, 295* `abstract` holds implementation specific data that is relevant to this 296 instance of the stream, 297* `bufsize` is the size of the buffer to use - if 0, then buffering at the 298 stream 299* `level` will be disabled (recommended for underlying sources that implement 300 their own buffering - such a `FILE*`) 301* `persistent` controls how the memory is to be allocated - persistently so that 302 it lasts across requests, or non-persistently so that it is freed at the end 303 of a request (it uses pemalloc), 304* `mode` is the stdio-like mode of operation - php streams places no real 305 meaning in the mode parameter, except that it checks for a `w` in the string 306 when attempting to write (this may change). 307 308The mode parameter is passed on to `fdopen/fopencookie` when the stream is cast 309into a `FILE*`, so it should be compatible with the mode parameter of `fopen()`. 310 311## Writing your own stream implementation 312 313* **RULE #1**: when writing your own streams: make sure you have configured PHP 314 with `--enable-debug`. 315 Some great great pains have been taken to hook into the Zend memory manager to 316 help track down allocation problems. It will also help you spot incorrect use 317 of the STREAMS_DC, STREAMS_CC and the semi-private STREAMS_REL_CC macros for 318 function definitions. 319 320* RULE #2: Please use the stdio stream as a reference; it will help you 321 understand the semantics of the stream operations, and it will always be more 322 up to date than these docs :-) 323 324First, you need to figure out what data you need to associate with the 325`php_stream`. For example, you might need a pointer to some memory for memory 326based streams, or if you were making a stream to read data from an RDBMS like 327MySQL, you might want to store the connection and rowset handles. 328 329The stream has a field called abstract that you can use to hold this data. If 330you need to store more than a single field of data, define a structure to hold 331it, allocate it (use pemalloc with the persistent flag set appropriately), and 332use the abstract pointer to refer to it. 333 334For structured state you might have this: 335 336```c 337struct my_state { 338 MYSQL conn; 339 MYSQL_RES * result; 340}; 341 342struct my_state * state = pemalloc(sizeof(struct my_state), persistent); 343 344/* initialize the connection, and run a query, using the fields in state to 345 * hold the results */ 346 347state->result = mysql_use_result(&state->conn); 348 349/* now allocate the stream itself */ 350stream = php_stream_alloc(&my_ops, state, 0, persistent, "r"); 351 352/* now stream->abstract == state */ 353``` 354 355Once you have that part figured out, you can write your implementation and 356define your own php_stream_ops struct (we called it my_ops in the above 357example). 358 359For example, for reading from this weird MySQL stream: 360 361```c 362static size_t php_mysqlop_read(php_stream * stream, char * buf, size_t count) 363{ 364 struct my_state * state = (struct my_state*)stream->abstract; 365 366 if (buf == NULL && count == 0) { 367 /* in this special case, php_streams is asking if we have reached the 368 * end of file */ 369 if (... at end of file ...) 370 return EOF; 371 else 372 return 0; 373 } 374 375 /* pull out some data from the stream and put it in buf */ 376 ... mysql_fetch_row(state->result) ... 377 /* we could do something strange, like format the data as XML here, 378 and place that in the buf, but that brings in some complexities, 379 such as coping with a buffer size too small to hold the data, 380 so I won't even go in to how to do that here */ 381} 382``` 383 384Implement the other operations - remember that write, read, close and flush are 385all mandatory. The rest are optional. Declare your stream ops struct: 386 387```c 388php_stream_ops my_ops = { 389 php_mysqlop_write, php_mysqlop_read, php_mysqlop_close, 390 php_mysqlop_flush, NULL, NULL, NULL, 391 "Strange MySQL example" 392} 393``` 394 395That's it! 396 397Take a look at the STDIO implementation in streams.c for more information about 398how these operations work. 399 400The main thing to remember is that in your close operation you need to release 401and free the resources you allocated for the abstract field. In the case of the 402example above, you need to use mysql_free_result on the rowset, close the 403connection and then use pefree to dispose of the struct you allocated. You may 404read the stream->persistent field to determine if your struct was allocated in 405persistent mode or not. 406