Mercurial > hg > nginx
view src/core/ngx_output_chain.c @ 6861:e4590dfd97ff
Win32: support 64-bit compilation with MSVC.
There are lots of C4244 warnings (conversion from 'type1' to 'type2',
possible loss of data), so they were disabled.
The same applies to C4267 warnings (conversion from 'size_t' to 'type',
possible loss of data), most notably - conversion from ngx_str_t.len to
ngx_variable_value_t.len (which is unsigned:28). Additionally, there
is at least one case when it is not possible to fix the warning properly
without introducing win32-specific code: recv() on win32 uses "int len",
while POSIX defines "size_t len".
The ssize_t type now properly defined for 64-bit compilation with MSVC.
Caught by warning C4305 (truncation from '__int64' to 'ssize_t'), on
"cutoff = NGX_MAX_SIZE_T_VALUE / 10" in ngx_atosz()).
Several C4334 warnings (result of 32-bit shift implicitly converted to 64 bits)
were fixed by adding explicit conversions.
Several C4214 warnings (nonstandard extension used: bit field types other
than int) in ngx_http_script.h fixed by changing bit field types from
uintptr_t to unsigned.
| author | Maxim Dounin <mdounin@mdounin.ru> |
|---|---|
| date | Sat, 24 Dec 2016 18:01:14 +0300 |
| parents | 4395758d08e6 |
| children | a7ff19afbb14 |
line wrap: on
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/* * Copyright (C) Igor Sysoev * Copyright (C) Nginx, Inc. */ #include <ngx_config.h> #include <ngx_core.h> #include <ngx_event.h> #if 0 #define NGX_SENDFILE_LIMIT 4096 #endif /* * When DIRECTIO is enabled FreeBSD, Solaris, and MacOSX read directly * to an application memory from a device if parameters are aligned * to device sector boundary (512 bytes). They fallback to usual read * operation if the parameters are not aligned. * Linux allows DIRECTIO only if the parameters are aligned to a filesystem * sector boundary, otherwise it returns EINVAL. The sector size is * usually 512 bytes, however, on XFS it may be 4096 bytes. */ #define NGX_NONE 1 static ngx_inline ngx_int_t ngx_output_chain_as_is(ngx_output_chain_ctx_t *ctx, ngx_buf_t *buf); #if (NGX_HAVE_AIO_SENDFILE) static ngx_int_t ngx_output_chain_aio_setup(ngx_output_chain_ctx_t *ctx, ngx_file_t *file); #endif static ngx_int_t ngx_output_chain_add_copy(ngx_pool_t *pool, ngx_chain_t **chain, ngx_chain_t *in); static ngx_int_t ngx_output_chain_align_file_buf(ngx_output_chain_ctx_t *ctx, off_t bsize); static ngx_int_t ngx_output_chain_get_buf(ngx_output_chain_ctx_t *ctx, off_t bsize); static ngx_int_t ngx_output_chain_copy_buf(ngx_output_chain_ctx_t *ctx); ngx_int_t ngx_output_chain(ngx_output_chain_ctx_t *ctx, ngx_chain_t *in) { off_t bsize; ngx_int_t rc, last; ngx_chain_t *cl, *out, **last_out; if (ctx->in == NULL && ctx->busy == NULL #if (NGX_HAVE_FILE_AIO || NGX_THREADS) && !ctx->aio #endif ) { /* * the short path for the case when the ctx->in and ctx->busy chains * are empty, the incoming chain is empty too or has the single buf * that does not require the copy */ if (in == NULL) { return ctx->output_filter(ctx->filter_ctx, in); } if (in->next == NULL #if (NGX_SENDFILE_LIMIT) && !(in->buf->in_file && in->buf->file_last > NGX_SENDFILE_LIMIT) #endif && ngx_output_chain_as_is(ctx, in->buf)) { return ctx->output_filter(ctx->filter_ctx, in); } } /* add the incoming buf to the chain ctx->in */ if (in) { if (ngx_output_chain_add_copy(ctx->pool, &ctx->in, in) == NGX_ERROR) { return NGX_ERROR; } } out = NULL; last_out = &out; last = NGX_NONE; for ( ;; ) { #if (NGX_HAVE_FILE_AIO || NGX_THREADS) if (ctx->aio) { return NGX_AGAIN; } #endif while (ctx->in) { /* * cycle while there are the ctx->in bufs * and there are the free output bufs to copy in */ bsize = ngx_buf_size(ctx->in->buf); if (bsize == 0 && !ngx_buf_special(ctx->in->buf)) { ngx_log_error(NGX_LOG_ALERT, ctx->pool->log, 0, "zero size buf in output " "t:%d r:%d f:%d %p %p-%p %p %O-%O", ctx->in->buf->temporary, ctx->in->buf->recycled, ctx->in->buf->in_file, ctx->in->buf->start, ctx->in->buf->pos, ctx->in->buf->last, ctx->in->buf->file, ctx->in->buf->file_pos, ctx->in->buf->file_last); ngx_debug_point(); ctx->in = ctx->in->next; continue; } if (ngx_output_chain_as_is(ctx, ctx->in->buf)) { /* move the chain link to the output chain */ cl = ctx->in; ctx->in = cl->next; *last_out = cl; last_out = &cl->next; cl->next = NULL; continue; } if (ctx->buf == NULL) { rc = ngx_output_chain_align_file_buf(ctx, bsize); if (rc == NGX_ERROR) { return NGX_ERROR; } if (rc != NGX_OK) { if (ctx->free) { /* get the free buf */ cl = ctx->free; ctx->buf = cl->buf; ctx->free = cl->next; ngx_free_chain(ctx->pool, cl); } else if (out || ctx->allocated == ctx->bufs.num) { break; } else if (ngx_output_chain_get_buf(ctx, bsize) != NGX_OK) { return NGX_ERROR; } } } rc = ngx_output_chain_copy_buf(ctx); if (rc == NGX_ERROR) { return rc; } if (rc == NGX_AGAIN) { if (out) { break; } return rc; } /* delete the completed buf from the ctx->in chain */ if (ngx_buf_size(ctx->in->buf) == 0) { ctx->in = ctx->in->next; } cl = ngx_alloc_chain_link(ctx->pool); if (cl == NULL) { return NGX_ERROR; } cl->buf = ctx->buf; cl->next = NULL; *last_out = cl; last_out = &cl->next; ctx->buf = NULL; } if (out == NULL && last != NGX_NONE) { if (ctx->in) { return NGX_AGAIN; } return last; } last = ctx->output_filter(ctx->filter_ctx, out); if (last == NGX_ERROR || last == NGX_DONE) { return last; } ngx_chain_update_chains(ctx->pool, &ctx->free, &ctx->busy, &out, ctx->tag); last_out = &out; } } static ngx_inline ngx_int_t ngx_output_chain_as_is(ngx_output_chain_ctx_t *ctx, ngx_buf_t *buf) { ngx_uint_t sendfile; if (ngx_buf_special(buf)) { return 1; } #if (NGX_THREADS) if (buf->in_file) { buf->file->thread_handler = ctx->thread_handler; buf->file->thread_ctx = ctx->filter_ctx; } #endif if (buf->in_file && buf->file->directio) { return 0; } sendfile = ctx->sendfile; #if (NGX_SENDFILE_LIMIT) if (buf->in_file && buf->file_pos >= NGX_SENDFILE_LIMIT) { sendfile = 0; } #endif if (!sendfile) { if (!ngx_buf_in_memory(buf)) { return 0; } buf->in_file = 0; } #if (NGX_HAVE_AIO_SENDFILE) if (ctx->aio_preload && buf->in_file) { (void) ngx_output_chain_aio_setup(ctx, buf->file); } #endif if (ctx->need_in_memory && !ngx_buf_in_memory(buf)) { return 0; } if (ctx->need_in_temp && (buf->memory || buf->mmap)) { return 0; } return 1; } #if (NGX_HAVE_AIO_SENDFILE) static ngx_int_t ngx_output_chain_aio_setup(ngx_output_chain_ctx_t *ctx, ngx_file_t *file) { ngx_event_aio_t *aio; if (file->aio == NULL && ngx_file_aio_init(file, ctx->pool) != NGX_OK) { return NGX_ERROR; } aio = file->aio; aio->data = ctx->filter_ctx; aio->preload_handler = ctx->aio_preload; return NGX_OK; } #endif static ngx_int_t ngx_output_chain_add_copy(ngx_pool_t *pool, ngx_chain_t **chain, ngx_chain_t *in) { ngx_chain_t *cl, **ll; #if (NGX_SENDFILE_LIMIT) ngx_buf_t *b, *buf; #endif ll = chain; for (cl = *chain; cl; cl = cl->next) { ll = &cl->next; } while (in) { cl = ngx_alloc_chain_link(pool); if (cl == NULL) { return NGX_ERROR; } #if (NGX_SENDFILE_LIMIT) buf = in->buf; if (buf->in_file && buf->file_pos < NGX_SENDFILE_LIMIT && buf->file_last > NGX_SENDFILE_LIMIT) { /* split a file buf on two bufs by the sendfile limit */ b = ngx_calloc_buf(pool); if (b == NULL) { return NGX_ERROR; } ngx_memcpy(b, buf, sizeof(ngx_buf_t)); if (ngx_buf_in_memory(buf)) { buf->pos += (ssize_t) (NGX_SENDFILE_LIMIT - buf->file_pos); b->last = buf->pos; } buf->file_pos = NGX_SENDFILE_LIMIT; b->file_last = NGX_SENDFILE_LIMIT; cl->buf = b; } else { cl->buf = buf; in = in->next; } #else cl->buf = in->buf; in = in->next; #endif cl->next = NULL; *ll = cl; ll = &cl->next; } return NGX_OK; } static ngx_int_t ngx_output_chain_align_file_buf(ngx_output_chain_ctx_t *ctx, off_t bsize) { size_t size; ngx_buf_t *in; in = ctx->in->buf; if (in->file == NULL || !in->file->directio) { return NGX_DECLINED; } ctx->directio = 1; size = (size_t) (in->file_pos - (in->file_pos & ~(ctx->alignment - 1))); if (size == 0) { if (bsize >= (off_t) ctx->bufs.size) { return NGX_DECLINED; } size = (size_t) bsize; } else { size = (size_t) ctx->alignment - size; if ((off_t) size > bsize) { size = (size_t) bsize; } } ctx->buf = ngx_create_temp_buf(ctx->pool, size); if (ctx->buf == NULL) { return NGX_ERROR; } /* * we do not set ctx->buf->tag, because we do not want * to reuse the buf via ctx->free list */ #if (NGX_HAVE_ALIGNED_DIRECTIO) ctx->unaligned = 1; #endif return NGX_OK; } static ngx_int_t ngx_output_chain_get_buf(ngx_output_chain_ctx_t *ctx, off_t bsize) { size_t size; ngx_buf_t *b, *in; ngx_uint_t recycled; in = ctx->in->buf; size = ctx->bufs.size; recycled = 1; if (in->last_in_chain) { if (bsize < (off_t) size) { /* * allocate a small temp buf for a small last buf * or its small last part */ size = (size_t) bsize; recycled = 0; } else if (!ctx->directio && ctx->bufs.num == 1 && (bsize < (off_t) (size + size / 4))) { /* * allocate a temp buf that equals to a last buf, * if there is no directio, the last buf size is lesser * than 1.25 of bufs.size and the temp buf is single */ size = (size_t) bsize; recycled = 0; } } b = ngx_calloc_buf(ctx->pool); if (b == NULL) { return NGX_ERROR; } if (ctx->directio) { /* * allocate block aligned to a disk sector size to enable * userland buffer direct usage conjunctly with directio */ b->start = ngx_pmemalign(ctx->pool, size, (size_t) ctx->alignment); if (b->start == NULL) { return NGX_ERROR; } } else { b->start = ngx_palloc(ctx->pool, size); if (b->start == NULL) { return NGX_ERROR; } } b->pos = b->start; b->last = b->start; b->end = b->last + size; b->temporary = 1; b->tag = ctx->tag; b->recycled = recycled; ctx->buf = b; ctx->allocated++; return NGX_OK; } static ngx_int_t ngx_output_chain_copy_buf(ngx_output_chain_ctx_t *ctx) { off_t size; ssize_t n; ngx_buf_t *src, *dst; ngx_uint_t sendfile; src = ctx->in->buf; dst = ctx->buf; size = ngx_buf_size(src); size = ngx_min(size, dst->end - dst->pos); sendfile = ctx->sendfile && !ctx->directio; #if (NGX_SENDFILE_LIMIT) if (src->in_file && src->file_pos >= NGX_SENDFILE_LIMIT) { sendfile = 0; } #endif if (ngx_buf_in_memory(src)) { ngx_memcpy(dst->pos, src->pos, (size_t) size); src->pos += (size_t) size; dst->last += (size_t) size; if (src->in_file) { if (sendfile) { dst->in_file = 1; dst->file = src->file; dst->file_pos = src->file_pos; dst->file_last = src->file_pos + size; } else { dst->in_file = 0; } src->file_pos += size; } else { dst->in_file = 0; } if (src->pos == src->last) { dst->flush = src->flush; dst->last_buf = src->last_buf; dst->last_in_chain = src->last_in_chain; } } else { #if (NGX_HAVE_ALIGNED_DIRECTIO) if (ctx->unaligned) { if (ngx_directio_off(src->file->fd) == NGX_FILE_ERROR) { ngx_log_error(NGX_LOG_ALERT, ctx->pool->log, ngx_errno, ngx_directio_off_n " \"%s\" failed", src->file->name.data); } } #endif #if (NGX_HAVE_FILE_AIO) if (ctx->aio_handler) { n = ngx_file_aio_read(src->file, dst->pos, (size_t) size, src->file_pos, ctx->pool); if (n == NGX_AGAIN) { ctx->aio_handler(ctx, src->file); return NGX_AGAIN; } } else #endif #if (NGX_THREADS) if (ctx->thread_handler) { src->file->thread_task = ctx->thread_task; src->file->thread_handler = ctx->thread_handler; src->file->thread_ctx = ctx->filter_ctx; n = ngx_thread_read(src->file, dst->pos, (size_t) size, src->file_pos, ctx->pool); if (n == NGX_AGAIN) { ctx->thread_task = src->file->thread_task; return NGX_AGAIN; } } else #endif { n = ngx_read_file(src->file, dst->pos, (size_t) size, src->file_pos); } #if (NGX_HAVE_ALIGNED_DIRECTIO) if (ctx->unaligned) { ngx_err_t err; err = ngx_errno; if (ngx_directio_on(src->file->fd) == NGX_FILE_ERROR) { ngx_log_error(NGX_LOG_ALERT, ctx->pool->log, ngx_errno, ngx_directio_on_n " \"%s\" failed", src->file->name.data); } ngx_set_errno(err); ctx->unaligned = 0; } #endif if (n == NGX_ERROR) { return (ngx_int_t) n; } if (n != size) { ngx_log_error(NGX_LOG_ALERT, ctx->pool->log, 0, ngx_read_file_n " read only %z of %O from \"%s\"", n, size, src->file->name.data); return NGX_ERROR; } dst->last += n; if (sendfile) { dst->in_file = 1; dst->file = src->file; dst->file_pos = src->file_pos; dst->file_last = src->file_pos + n; } else { dst->in_file = 0; } src->file_pos += n; if (src->file_pos == src->file_last) { dst->flush = src->flush; dst->last_buf = src->last_buf; dst->last_in_chain = src->last_in_chain; } } return NGX_OK; } ngx_int_t ngx_chain_writer(void *data, ngx_chain_t *in) { ngx_chain_writer_ctx_t *ctx = data; off_t size; ngx_chain_t *cl, *ln, *chain; ngx_connection_t *c; c = ctx->connection; for (size = 0; in; in = in->next) { #if 1 if (ngx_buf_size(in->buf) == 0 && !ngx_buf_special(in->buf)) { ngx_log_error(NGX_LOG_ALERT, ctx->pool->log, 0, "zero size buf in chain writer " "t:%d r:%d f:%d %p %p-%p %p %O-%O", in->buf->temporary, in->buf->recycled, in->buf->in_file, in->buf->start, in->buf->pos, in->buf->last, in->buf->file, in->buf->file_pos, in->buf->file_last); ngx_debug_point(); continue; } #endif size += ngx_buf_size(in->buf); ngx_log_debug2(NGX_LOG_DEBUG_CORE, c->log, 0, "chain writer buf fl:%d s:%uO", in->buf->flush, ngx_buf_size(in->buf)); cl = ngx_alloc_chain_link(ctx->pool); if (cl == NULL) { return NGX_ERROR; } cl->buf = in->buf; cl->next = NULL; *ctx->last = cl; ctx->last = &cl->next; } ngx_log_debug1(NGX_LOG_DEBUG_CORE, c->log, 0, "chain writer in: %p", ctx->out); for (cl = ctx->out; cl; cl = cl->next) { #if 1 if (ngx_buf_size(cl->buf) == 0 && !ngx_buf_special(cl->buf)) { ngx_log_error(NGX_LOG_ALERT, ctx->pool->log, 0, "zero size buf in chain writer " "t:%d r:%d f:%d %p %p-%p %p %O-%O", cl->buf->temporary, cl->buf->recycled, cl->buf->in_file, cl->buf->start, cl->buf->pos, cl->buf->last, cl->buf->file, cl->buf->file_pos, cl->buf->file_last); ngx_debug_point(); continue; } #endif size += ngx_buf_size(cl->buf); } if (size == 0 && !c->buffered) { return NGX_OK; } chain = c->send_chain(c, ctx->out, ctx->limit); ngx_log_debug1(NGX_LOG_DEBUG_CORE, c->log, 0, "chain writer out: %p", chain); if (chain == NGX_CHAIN_ERROR) { return NGX_ERROR; } for (cl = ctx->out; cl && cl != chain; /* void */) { ln = cl; cl = cl->next; ngx_free_chain(ctx->pool, ln); } ctx->out = chain; if (ctx->out == NULL) { ctx->last = &ctx->out; if (!c->buffered) { return NGX_OK; } } return NGX_AGAIN; }