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|
/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <assert.h>
#include <apr_lib.h>
#include <apr_strings.h>
#include <apr_thread_mutex.h>
#include <apr_thread_cond.h>
#include <httpd.h>
#include <http_core.h>
#include <http_log.h>
#include <http_request.h>
#include <mod_proxy.h>
#include <nghttp2/nghttp2.h>
#include "h2.h"
#include "h2_proxy_util.h"
APLOG_USE_MODULE(proxy_http2);
/* h2_log2(n) iff n is a power of 2 */
unsigned char h2_proxy_log2(int n)
{
int lz = 0;
if (!n) {
return 0;
}
if (!(n & 0xffff0000u)) {
lz += 16;
n = (n << 16);
}
if (!(n & 0xff000000u)) {
lz += 8;
n = (n << 8);
}
if (!(n & 0xf0000000u)) {
lz += 4;
n = (n << 4);
}
if (!(n & 0xc0000000u)) {
lz += 2;
n = (n << 2);
}
if (!(n & 0x80000000u)) {
lz += 1;
}
return 31 - lz;
}
/*******************************************************************************
* ihash - hash for structs with int identifier
******************************************************************************/
struct h2_proxy_ihash_t {
apr_hash_t *hash;
size_t ioff;
};
static unsigned int ihash(const char *key, apr_ssize_t *klen)
{
return (unsigned int)(*((int*)key));
}
h2_proxy_ihash_t *h2_proxy_ihash_create(apr_pool_t *pool, size_t offset_of_int)
{
h2_proxy_ihash_t *ih = apr_pcalloc(pool, sizeof(h2_proxy_ihash_t));
ih->hash = apr_hash_make_custom(pool, ihash);
ih->ioff = offset_of_int;
return ih;
}
size_t h2_proxy_ihash_count(h2_proxy_ihash_t *ih)
{
return apr_hash_count(ih->hash);
}
int h2_proxy_ihash_empty(h2_proxy_ihash_t *ih)
{
return apr_hash_count(ih->hash) == 0;
}
void *h2_proxy_ihash_get(h2_proxy_ihash_t *ih, int id)
{
return apr_hash_get(ih->hash, &id, sizeof(id));
}
typedef struct {
h2_proxy_ihash_iter_t *iter;
void *ctx;
} iter_ctx;
static int ihash_iter(void *ctx, const void *key, apr_ssize_t klen,
const void *val)
{
iter_ctx *ictx = ctx;
return ictx->iter(ictx->ctx, (void*)val); /* why is this passed const?*/
}
int h2_proxy_ihash_iter(h2_proxy_ihash_t *ih, h2_proxy_ihash_iter_t *fn, void *ctx)
{
iter_ctx ictx;
ictx.iter = fn;
ictx.ctx = ctx;
return apr_hash_do(ihash_iter, &ictx, ih->hash);
}
void h2_proxy_ihash_add(h2_proxy_ihash_t *ih, void *val)
{
apr_hash_set(ih->hash, ((char *)val + ih->ioff), sizeof(int), val);
}
void h2_proxy_ihash_remove(h2_proxy_ihash_t *ih, int id)
{
apr_hash_set(ih->hash, &id, sizeof(id), NULL);
}
void h2_proxy_ihash_remove_val(h2_proxy_ihash_t *ih, void *val)
{
int id = *((int*)((char *)val + ih->ioff));
apr_hash_set(ih->hash, &id, sizeof(id), NULL);
}
void h2_proxy_ihash_clear(h2_proxy_ihash_t *ih)
{
apr_hash_clear(ih->hash);
}
typedef struct {
h2_proxy_ihash_t *ih;
void **buffer;
size_t max;
size_t len;
} collect_ctx;
static int collect_iter(void *x, void *val)
{
collect_ctx *ctx = x;
if (ctx->len < ctx->max) {
ctx->buffer[ctx->len++] = val;
return 1;
}
return 0;
}
size_t h2_proxy_ihash_shift(h2_proxy_ihash_t *ih, void **buffer, size_t max)
{
collect_ctx ctx;
size_t i;
ctx.ih = ih;
ctx.buffer = buffer;
ctx.max = max;
ctx.len = 0;
h2_proxy_ihash_iter(ih, collect_iter, &ctx);
for (i = 0; i < ctx.len; ++i) {
h2_proxy_ihash_remove_val(ih, buffer[i]);
}
return ctx.len;
}
typedef struct {
h2_proxy_ihash_t *ih;
int *buffer;
size_t max;
size_t len;
} icollect_ctx;
static int icollect_iter(void *x, void *val)
{
icollect_ctx *ctx = x;
if (ctx->len < ctx->max) {
ctx->buffer[ctx->len++] = *((int*)((char *)val + ctx->ih->ioff));
return 1;
}
return 0;
}
size_t h2_proxy_ihash_ishift(h2_proxy_ihash_t *ih, int *buffer, size_t max)
{
icollect_ctx ctx;
size_t i;
ctx.ih = ih;
ctx.buffer = buffer;
ctx.max = max;
ctx.len = 0;
h2_proxy_ihash_iter(ih, icollect_iter, &ctx);
for (i = 0; i < ctx.len; ++i) {
h2_proxy_ihash_remove(ih, buffer[i]);
}
return ctx.len;
}
/*******************************************************************************
* iqueue - sorted list of int
******************************************************************************/
static void iq_grow(h2_proxy_iqueue *q, int nlen);
static void iq_swap(h2_proxy_iqueue *q, int i, int j);
static int iq_bubble_up(h2_proxy_iqueue *q, int i, int top,
h2_proxy_iq_cmp *cmp, void *ctx);
static int iq_bubble_down(h2_proxy_iqueue *q, int i, int bottom,
h2_proxy_iq_cmp *cmp, void *ctx);
h2_proxy_iqueue *h2_proxy_iq_create(apr_pool_t *pool, int capacity)
{
h2_proxy_iqueue *q = apr_pcalloc(pool, sizeof(h2_proxy_iqueue));
if (q) {
q->pool = pool;
iq_grow(q, capacity);
q->nelts = 0;
}
return q;
}
int h2_proxy_iq_empty(h2_proxy_iqueue *q)
{
return q->nelts == 0;
}
int h2_proxy_iq_count(h2_proxy_iqueue *q)
{
return q->nelts;
}
void h2_proxy_iq_add(h2_proxy_iqueue *q, int sid, h2_proxy_iq_cmp *cmp, void *ctx)
{
int i;
if (q->nelts >= q->nalloc) {
iq_grow(q, q->nalloc * 2);
}
i = (q->head + q->nelts) % q->nalloc;
q->elts[i] = sid;
++q->nelts;
if (cmp) {
/* bubble it to the front of the queue */
iq_bubble_up(q, i, q->head, cmp, ctx);
}
}
int h2_proxy_iq_remove(h2_proxy_iqueue *q, int sid)
{
int i;
for (i = 0; i < q->nelts; ++i) {
if (sid == q->elts[(q->head + i) % q->nalloc]) {
break;
}
}
if (i < q->nelts) {
++i;
for (; i < q->nelts; ++i) {
q->elts[(q->head+i-1)%q->nalloc] = q->elts[(q->head+i)%q->nalloc];
}
--q->nelts;
return 1;
}
return 0;
}
void h2_proxy_iq_clear(h2_proxy_iqueue *q)
{
q->nelts = 0;
}
void h2_proxy_iq_sort(h2_proxy_iqueue *q, h2_proxy_iq_cmp *cmp, void *ctx)
{
/* Assume that changes in ordering are minimal. This needs,
* best case, q->nelts - 1 comparisons to check that nothing
* changed.
*/
if (q->nelts > 0) {
int i, ni, prev, last;
/* Start at the end of the queue and create a tail of sorted
* entries. Make that tail one element longer in each iteration.
*/
last = i = (q->head + q->nelts - 1) % q->nalloc;
while (i != q->head) {
prev = (q->nalloc + i - 1) % q->nalloc;
ni = iq_bubble_up(q, i, prev, cmp, ctx);
if (ni == prev) {
/* i bubbled one up, bubble the new i down, which
* keeps all tasks below i sorted. */
iq_bubble_down(q, i, last, cmp, ctx);
}
i = prev;
};
}
}
int h2_proxy_iq_shift(h2_proxy_iqueue *q)
{
int sid;
if (q->nelts <= 0) {
return 0;
}
sid = q->elts[q->head];
q->head = (q->head + 1) % q->nalloc;
q->nelts--;
return sid;
}
static void iq_grow(h2_proxy_iqueue *q, int nlen)
{
if (nlen > q->nalloc) {
int *nq = apr_pcalloc(q->pool, sizeof(int) * nlen);
if (q->nelts > 0) {
int l = ((q->head + q->nelts) % q->nalloc) - q->head;
memmove(nq, q->elts + q->head, sizeof(int) * l);
if (l < q->nelts) {
/* elts wrapped, append elts in [0, remain] to nq */
int remain = q->nelts - l;
memmove(nq + l, q->elts, sizeof(int) * remain);
}
}
q->elts = nq;
q->nalloc = nlen;
q->head = 0;
}
}
static void iq_swap(h2_proxy_iqueue *q, int i, int j)
{
int x = q->elts[i];
q->elts[i] = q->elts[j];
q->elts[j] = x;
}
static int iq_bubble_up(h2_proxy_iqueue *q, int i, int top,
h2_proxy_iq_cmp *cmp, void *ctx)
{
int prev;
while (((prev = (q->nalloc + i - 1) % q->nalloc), i != top)
&& (*cmp)(q->elts[i], q->elts[prev], ctx) < 0) {
iq_swap(q, prev, i);
i = prev;
}
return i;
}
static int iq_bubble_down(h2_proxy_iqueue *q, int i, int bottom,
h2_proxy_iq_cmp *cmp, void *ctx)
{
int next;
while (((next = (q->nalloc + i + 1) % q->nalloc), i != bottom)
&& (*cmp)(q->elts[i], q->elts[next], ctx) > 0) {
iq_swap(q, next, i);
i = next;
}
return i;
}
/*******************************************************************************
* h2_proxy_ngheader
******************************************************************************/
#define H2_HD_MATCH_LIT_CS(l, name) \
((strlen(name) == sizeof(l) - 1) && !apr_strnatcasecmp(l, name))
static int h2_util_ignore_header(const char *name)
{
/* never forward, ch. 8.1.2.2 */
return (H2_HD_MATCH_LIT_CS("connection", name)
|| H2_HD_MATCH_LIT_CS("proxy-connection", name)
|| H2_HD_MATCH_LIT_CS("upgrade", name)
|| H2_HD_MATCH_LIT_CS("keep-alive", name)
|| H2_HD_MATCH_LIT_CS("transfer-encoding", name));
}
static int count_header(void *ctx, const char *key, const char *value)
{
if (!h2_util_ignore_header(key)) {
(*((size_t*)ctx))++;
}
return 1;
}
#define NV_ADD_LIT_CS(nv, k, v) add_header(nv, k, sizeof(k) - 1, v, strlen(v))
#define NV_ADD_CS_CS(nv, k, v) add_header(nv, k, strlen(k), v, strlen(v))
static int add_header(h2_proxy_ngheader *ngh,
const char *key, size_t key_len,
const char *value, size_t val_len)
{
nghttp2_nv *nv = &ngh->nv[ngh->nvlen++];
nv->name = (uint8_t*)key;
nv->namelen = key_len;
nv->value = (uint8_t*)value;
nv->valuelen = val_len;
return 1;
}
static int add_table_header(void *ctx, const char *key, const char *value)
{
if (!h2_util_ignore_header(key)) {
add_header(ctx, key, strlen(key), value, strlen(value));
}
return 1;
}
h2_proxy_ngheader *h2_proxy_util_nghd_make_req(apr_pool_t *p,
const h2_proxy_request *req)
{
h2_proxy_ngheader *ngh;
size_t n;
ap_assert(req);
ap_assert(req->scheme);
ap_assert(req->authority);
ap_assert(req->path);
ap_assert(req->method);
n = 4;
apr_table_do(count_header, &n, req->headers, NULL);
ngh = apr_pcalloc(p, sizeof(h2_proxy_ngheader));
ngh->nv = apr_pcalloc(p, n * sizeof(nghttp2_nv));
NV_ADD_LIT_CS(ngh, ":scheme", req->scheme);
NV_ADD_LIT_CS(ngh, ":authority", req->authority);
NV_ADD_LIT_CS(ngh, ":path", req->path);
NV_ADD_LIT_CS(ngh, ":method", req->method);
apr_table_do(add_table_header, ngh, req->headers, NULL);
return ngh;
}
h2_proxy_ngheader *h2_proxy_util_nghd_make(apr_pool_t *p, apr_table_t *headers)
{
h2_proxy_ngheader *ngh;
size_t n;
n = 0;
apr_table_do(count_header, &n, headers, NULL);
ngh = apr_pcalloc(p, sizeof(h2_proxy_ngheader));
ngh->nv = apr_pcalloc(p, n * sizeof(nghttp2_nv));
apr_table_do(add_table_header, ngh, headers, NULL);
return ngh;
}
/*******************************************************************************
* header HTTP/1 <-> HTTP/2 conversions
******************************************************************************/
typedef struct {
const char *name;
size_t len;
} literal;
#define H2_DEF_LITERAL(n) { (n), (sizeof(n)-1) }
#define H2_LIT_ARGS(a) (a),H2_ALEN(a)
static literal IgnoredRequestHeaders[] = {
H2_DEF_LITERAL("upgrade"),
H2_DEF_LITERAL("connection"),
H2_DEF_LITERAL("keep-alive"),
H2_DEF_LITERAL("http2-settings"),
H2_DEF_LITERAL("proxy-connection"),
H2_DEF_LITERAL("transfer-encoding"),
};
static literal IgnoredProxyRespHds[] = {
H2_DEF_LITERAL("alt-svc"),
};
static int ignore_header(const literal *lits, size_t llen,
const char *name, size_t nlen)
{
const literal *lit;
int i;
for (i = 0; i < llen; ++i) {
lit = &lits[i];
if (lit->len == nlen && !apr_strnatcasecmp(lit->name, name)) {
return 1;
}
}
return 0;
}
static int h2_proxy_req_ignore_header(const char *name, size_t len)
{
return ignore_header(H2_LIT_ARGS(IgnoredRequestHeaders), name, len);
}
int h2_proxy_res_ignore_header(const char *name, size_t len)
{
return (h2_proxy_req_ignore_header(name, len)
|| ignore_header(H2_LIT_ARGS(IgnoredProxyRespHds), name, len));
}
void h2_proxy_util_camel_case_header(char *s, size_t len)
{
size_t start = 1;
size_t i;
for (i = 0; i < len; ++i) {
if (start) {
if (s[i] >= 'a' && s[i] <= 'z') {
s[i] -= 'a' - 'A';
}
start = 0;
}
else if (s[i] == '-') {
start = 1;
}
}
}
/*******************************************************************************
* h2 request handling
******************************************************************************/
/** Match a header value against a string constance, case insensitive */
#define H2_HD_MATCH_LIT(l, name, nlen) \
((nlen == sizeof(l) - 1) && !apr_strnatcasecmp(l, name))
static apr_status_t h2_headers_add_h1(apr_table_t *headers, apr_pool_t *pool,
const char *name, size_t nlen,
const char *value, size_t vlen)
{
char *hname, *hvalue;
if (h2_proxy_req_ignore_header(name, nlen)) {
return APR_SUCCESS;
}
else if (H2_HD_MATCH_LIT("cookie", name, nlen)) {
const char *existing = apr_table_get(headers, "cookie");
if (existing) {
char *nval;
/* Cookie header come separately in HTTP/2, but need
* to be merged by "; " (instead of default ", ")
*/
hvalue = apr_pstrndup(pool, value, vlen);
nval = apr_psprintf(pool, "%s; %s", existing, hvalue);
apr_table_setn(headers, "Cookie", nval);
return APR_SUCCESS;
}
}
else if (H2_HD_MATCH_LIT("host", name, nlen)) {
if (apr_table_get(headers, "Host")) {
return APR_SUCCESS; /* ignore duplicate */
}
}
hname = apr_pstrndup(pool, name, nlen);
hvalue = apr_pstrndup(pool, value, vlen);
h2_proxy_util_camel_case_header(hname, nlen);
apr_table_mergen(headers, hname, hvalue);
return APR_SUCCESS;
}
static h2_proxy_request *h2_proxy_req_createn(int id, apr_pool_t *pool, const char *method,
const char *scheme, const char *authority,
const char *path, apr_table_t *header,
int serialize)
{
h2_proxy_request *req = apr_pcalloc(pool, sizeof(h2_proxy_request));
req->method = method;
req->scheme = scheme;
req->authority = authority;
req->path = path;
req->headers = header? header : apr_table_make(pool, 10);
req->request_time = apr_time_now();
req->serialize = serialize;
return req;
}
h2_proxy_request *h2_proxy_req_create(int id, apr_pool_t *pool, int serialize)
{
return h2_proxy_req_createn(id, pool, NULL, NULL, NULL, NULL, NULL, serialize);
}
typedef struct {
apr_table_t *headers;
apr_pool_t *pool;
} h1_ctx;
static int set_h1_header(void *ctx, const char *key, const char *value)
{
h1_ctx *x = ctx;
size_t klen = strlen(key);
if (!h2_proxy_req_ignore_header(key, klen)) {
h2_headers_add_h1(x->headers, x->pool, key, klen, value, strlen(value));
}
return 1;
}
apr_status_t h2_proxy_req_make(h2_proxy_request *req, apr_pool_t *pool,
const char *method, const char *scheme,
const char *authority, const char *path,
apr_table_t *headers)
{
h1_ctx x;
const char *val;
req->method = method;
req->scheme = scheme;
req->authority = authority;
req->path = path;
ap_assert(req->scheme);
ap_assert(req->authority);
ap_assert(req->path);
ap_assert(req->method);
x.pool = pool;
x.headers = req->headers;
apr_table_do(set_h1_header, &x, headers, NULL);
if ((val = apr_table_get(headers, "TE")) && ap_find_token(pool, val, "trailers")) {
/* client accepts trailers, forward this information */
apr_table_addn(req->headers, "TE", "trailers");
}
apr_table_setn(req->headers, "te", "trailers");
return APR_SUCCESS;
}
/*******************************************************************************
* frame logging
******************************************************************************/
int h2_proxy_util_frame_print(const nghttp2_frame *frame, char *buffer, size_t maxlen)
{
char scratch[128];
size_t s_len = sizeof(scratch)/sizeof(scratch[0]);
switch (frame->hd.type) {
case NGHTTP2_DATA: {
return apr_snprintf(buffer, maxlen,
"DATA[length=%d, flags=%d, stream=%d, padlen=%d]",
(int)frame->hd.length, frame->hd.flags,
frame->hd.stream_id, (int)frame->data.padlen);
}
case NGHTTP2_HEADERS: {
return apr_snprintf(buffer, maxlen,
"HEADERS[length=%d, hend=%d, stream=%d, eos=%d]",
(int)frame->hd.length,
!!(frame->hd.flags & NGHTTP2_FLAG_END_HEADERS),
frame->hd.stream_id,
!!(frame->hd.flags & NGHTTP2_FLAG_END_STREAM));
}
case NGHTTP2_PRIORITY: {
return apr_snprintf(buffer, maxlen,
"PRIORITY[length=%d, flags=%d, stream=%d]",
(int)frame->hd.length,
frame->hd.flags, frame->hd.stream_id);
}
case NGHTTP2_RST_STREAM: {
return apr_snprintf(buffer, maxlen,
"RST_STREAM[length=%d, flags=%d, stream=%d]",
(int)frame->hd.length,
frame->hd.flags, frame->hd.stream_id);
}
case NGHTTP2_SETTINGS: {
if (frame->hd.flags & NGHTTP2_FLAG_ACK) {
return apr_snprintf(buffer, maxlen,
"SETTINGS[ack=1, stream=%d]",
frame->hd.stream_id);
}
return apr_snprintf(buffer, maxlen,
"SETTINGS[length=%d, stream=%d]",
(int)frame->hd.length, frame->hd.stream_id);
}
case NGHTTP2_PUSH_PROMISE: {
return apr_snprintf(buffer, maxlen,
"PUSH_PROMISE[length=%d, hend=%d, stream=%d]",
(int)frame->hd.length,
!!(frame->hd.flags & NGHTTP2_FLAG_END_HEADERS),
frame->hd.stream_id);
}
case NGHTTP2_PING: {
return apr_snprintf(buffer, maxlen,
"PING[length=%d, ack=%d, stream=%d]",
(int)frame->hd.length,
frame->hd.flags&NGHTTP2_FLAG_ACK,
frame->hd.stream_id);
}
case NGHTTP2_GOAWAY: {
size_t len = (frame->goaway.opaque_data_len < s_len)?
frame->goaway.opaque_data_len : s_len-1;
memcpy(scratch, frame->goaway.opaque_data, len);
scratch[len] = '\0';
return apr_snprintf(buffer, maxlen, "GOAWAY[error=%d, reason='%s', "
"last_stream=%d]", frame->goaway.error_code,
scratch, frame->goaway.last_stream_id);
}
case NGHTTP2_WINDOW_UPDATE: {
return apr_snprintf(buffer, maxlen,
"WINDOW_UPDATE[stream=%d, incr=%d]",
frame->hd.stream_id,
frame->window_update.window_size_increment);
}
default:
return apr_snprintf(buffer, maxlen,
"type=%d[length=%d, flags=%d, stream=%d]",
frame->hd.type, (int)frame->hd.length,
frame->hd.flags, frame->hd.stream_id);
}
}
/*******************************************************************************
* link header handling
******************************************************************************/
typedef struct {
apr_pool_t *pool;
request_rec *r;
proxy_dir_conf *conf;
const char *s;
int slen;
int i;
const char *server_uri;
int su_len;
const char *real_backend_uri;
int rbu_len;
const char *p_server_uri;
int psu_len;
int link_start;
int link_end;
} link_ctx;
static int attr_char(char c)
{
switch (c) {
case '!':
case '#':
case '$':
case '&':
case '+':
case '-':
case '.':
case '^':
case '_':
case '`':
case '|':
case '~':
return 1;
default:
return apr_isalnum(c);
}
}
static int ptoken_char(char c)
{
switch (c) {
case '!':
case '#':
case '$':
case '&':
case '\'':
case '(':
case ')':
case '*':
case '+':
case '-':
case '.':
case '/':
case ':':
case '<':
case '=':
case '>':
case '?':
case '@':
case '[':
case ']':
case '^':
case '_':
case '`':
case '{':
case '|':
case '}':
case '~':
return 1;
default:
return apr_isalnum(c);
}
}
static int skip_ws(link_ctx *ctx)
{
char c;
while (ctx->i < ctx->slen
&& (((c = ctx->s[ctx->i]) == ' ') || (c == '\t'))) {
++ctx->i;
}
return (ctx->i < ctx->slen);
}
static int find_chr(link_ctx *ctx, char c, int *pidx)
{
int j;
for (j = ctx->i; j < ctx->slen; ++j) {
if (ctx->s[j] == c) {
*pidx = j;
return 1;
}
}
return 0;
}
static int read_chr(link_ctx *ctx, char c)
{
if (ctx->i < ctx->slen && ctx->s[ctx->i] == c) {
++ctx->i;
return 1;
}
return 0;
}
static int skip_qstring(link_ctx *ctx)
{
if (skip_ws(ctx) && read_chr(ctx, '\"')) {
int end;
if (find_chr(ctx, '\"', &end)) {
ctx->i = end + 1;
return 1;
}
}
return 0;
}
static int skip_ptoken(link_ctx *ctx)
{
if (skip_ws(ctx)) {
int i;
for (i = ctx->i; i < ctx->slen && ptoken_char(ctx->s[i]); ++i) {
/* nop */
}
if (i > ctx->i) {
ctx->i = i;
return 1;
}
}
return 0;
}
static int read_link(link_ctx *ctx)
{
ctx->link_start = ctx->link_end = 0;
if (skip_ws(ctx) && read_chr(ctx, '<')) {
int end;
if (find_chr(ctx, '>', &end)) {
ctx->link_start = ctx->i;
ctx->link_end = end;
ctx->i = end + 1;
return 1;
}
}
return 0;
}
static int skip_pname(link_ctx *ctx)
{
if (skip_ws(ctx)) {
int i;
for (i = ctx->i; i < ctx->slen && attr_char(ctx->s[i]); ++i) {
/* nop */
}
if (i > ctx->i) {
ctx->i = i;
return 1;
}
}
return 0;
}
static int skip_pvalue(link_ctx *ctx)
{
if (skip_ws(ctx) && read_chr(ctx, '=')) {
if (skip_qstring(ctx) || skip_ptoken(ctx)) {
return 1;
}
}
return 0;
}
static int skip_param(link_ctx *ctx)
{
if (skip_ws(ctx) && read_chr(ctx, ';')) {
if (skip_pname(ctx)) {
skip_pvalue(ctx); /* value is optional */
return 1;
}
}
return 0;
}
static int read_sep(link_ctx *ctx)
{
if (skip_ws(ctx) && read_chr(ctx, ',')) {
return 1;
}
return 0;
}
static size_t subst_str(link_ctx *ctx, int start, int end, const char *ns)
{
int olen, nlen, plen;
int delta;
char *p;
olen = end - start;
nlen = (int)strlen(ns);
delta = nlen - olen;
plen = ctx->slen + delta + 1;
p = apr_palloc(ctx->pool, plen);
memcpy(p, ctx->s, start);
memcpy(p + start, ns, nlen);
strcpy(p + start + nlen, ctx->s + end);
ctx->s = p;
ctx->slen = plen - 1; /* (int)strlen(p) */
if (ctx->i >= end) {
ctx->i += delta;
}
return nlen;
}
static void map_link(link_ctx *ctx)
{
if (ctx->link_start < ctx->link_end) {
char buffer[HUGE_STRING_LEN];
int need_len, link_len, buffer_len, prepend_p_server;
const char *mapped;
buffer[0] = '\0';
buffer_len = 0;
link_len = ctx->link_end - ctx->link_start;
need_len = link_len + 1;
prepend_p_server = (ctx->s[ctx->link_start] == '/');
if (prepend_p_server) {
/* common to use relative uris in link header, for mappings
* to work need to prefix the backend server uri */
need_len += ctx->psu_len;
apr_cpystrn(buffer, ctx->p_server_uri, sizeof(buffer));
buffer_len = ctx->psu_len;
}
if (need_len > sizeof(buffer)) {
ap_log_rerror(APLOG_MARK, APLOG_WARNING, 0, ctx->r, APLOGNO(03482)
"link_reverse_map uri too long, skipped: %s", ctx->s);
return;
}
apr_cpystrn(buffer + buffer_len, ctx->s + ctx->link_start, link_len + 1);
if (!prepend_p_server
&& strcmp(ctx->real_backend_uri, ctx->p_server_uri)
&& !strncmp(buffer, ctx->real_backend_uri, ctx->rbu_len)) {
/* the server uri and our local proxy uri we use differ, for mapping
* to work, we need to use the proxy uri */
int path_start = ctx->link_start + ctx->rbu_len;
link_len -= ctx->rbu_len;
memcpy(buffer, ctx->p_server_uri, ctx->psu_len);
memcpy(buffer + ctx->psu_len, ctx->s + path_start, link_len);
buffer_len = ctx->psu_len + link_len;
buffer[buffer_len] = '\0';
}
mapped = ap_proxy_location_reverse_map(ctx->r, ctx->conf, buffer);
ap_log_rerror(APLOG_MARK, APLOG_TRACE2, 0, ctx->r,
"reverse_map[%s] %s --> %s", ctx->p_server_uri, buffer, mapped);
if (mapped != buffer) {
if (prepend_p_server) {
if (ctx->server_uri == NULL) {
ctx->server_uri = ap_construct_url(ctx->pool, "", ctx->r);
ctx->su_len = (int)strlen(ctx->server_uri);
}
if (!strncmp(mapped, ctx->server_uri, ctx->su_len)) {
mapped += ctx->su_len;
}
}
subst_str(ctx, ctx->link_start, ctx->link_end, mapped);
}
}
}
/* RFC 5988 <https://tools.ietf.org/html/rfc5988#section-6.2.1>
Link = "Link" ":" #link-value
link-value = "<" URI-Reference ">" *( ";" link-param )
link-param = ( ( "rel" "=" relation-types )
| ( "anchor" "=" <"> URI-Reference <"> )
| ( "rev" "=" relation-types )
| ( "hreflang" "=" Language-Tag )
| ( "media" "=" ( MediaDesc | ( <"> MediaDesc <"> ) ) )
| ( "title" "=" quoted-string )
| ( "title*" "=" ext-value )
| ( "type" "=" ( media-type | quoted-mt ) )
| ( link-extension ) )
link-extension = ( parmname [ "=" ( ptoken | quoted-string ) ] )
| ( ext-name-star "=" ext-value )
ext-name-star = parmname "*" ; reserved for RFC2231-profiled
; extensions. Whitespace NOT
; allowed in between.
ptoken = 1*ptokenchar
ptokenchar = "!" | "#" | "$" | "%" | "&" | "'" | "("
| ")" | "*" | "+" | "-" | "." | "/" | DIGIT
| ":" | "<" | "=" | ">" | "?" | "@" | ALPHA
| "[" | "]" | "^" | "_" | "`" | "{" | "|"
| "}" | "~"
media-type = type-name "/" subtype-name
quoted-mt = <"> media-type <">
relation-types = relation-type
| <"> relation-type *( 1*SP relation-type ) <">
relation-type = reg-rel-type | ext-rel-type
reg-rel-type = LOALPHA *( LOALPHA | DIGIT | "." | "-" )
ext-rel-type = URI
and from <https://tools.ietf.org/html/rfc5987>
parmname = 1*attr-char
attr-char = ALPHA / DIGIT
/ "!" / "#" / "$" / "&" / "+" / "-" / "."
/ "^" / "_" / "`" / "|" / "~"
*/
const char *h2_proxy_link_reverse_map(request_rec *r,
proxy_dir_conf *conf,
const char *real_backend_uri,
const char *proxy_server_uri,
const char *s)
{
link_ctx ctx;
if (r->proxyreq != PROXYREQ_REVERSE) {
return s;
}
memset(&ctx, 0, sizeof(ctx));
ctx.r = r;
ctx.pool = r->pool;
ctx.conf = conf;
ctx.real_backend_uri = real_backend_uri;
ctx.rbu_len = (int)strlen(ctx.real_backend_uri);
ctx.p_server_uri = proxy_server_uri;
ctx.psu_len = (int)strlen(ctx.p_server_uri);
ctx.s = s;
ctx.slen = (int)strlen(s);
while (read_link(&ctx)) {
while (skip_param(&ctx)) {
/* nop */
}
map_link(&ctx);
if (!read_sep(&ctx)) {
break;
}
}
ap_log_rerror(APLOG_MARK, APLOG_TRACE2, 0, r,
"link_reverse_map %s --> %s", s, ctx.s);
return ctx.s;
}
/*******************************************************************************
* FIFO queue
******************************************************************************/
struct h2_proxy_fifo {
void **elems;
int nelems;
int set;
int head;
int count;
int aborted;
apr_thread_mutex_t *lock;
apr_thread_cond_t *not_empty;
apr_thread_cond_t *not_full;
};
static int nth_index(h2_proxy_fifo *fifo, int n)
{
return (fifo->head + n) % fifo->nelems;
}
static apr_status_t fifo_destroy(void *data)
{
h2_proxy_fifo *fifo = data;
apr_thread_cond_destroy(fifo->not_empty);
apr_thread_cond_destroy(fifo->not_full);
apr_thread_mutex_destroy(fifo->lock);
return APR_SUCCESS;
}
static int index_of(h2_proxy_fifo *fifo, void *elem)
{
int i;
for (i = 0; i < fifo->count; ++i) {
if (elem == fifo->elems[nth_index(fifo, i)]) {
return i;
}
}
return -1;
}
static apr_status_t create_int(h2_proxy_fifo **pfifo, apr_pool_t *pool,
int capacity, int as_set)
{
apr_status_t rv;
h2_proxy_fifo *fifo;
fifo = apr_pcalloc(pool, sizeof(*fifo));
if (fifo == NULL) {
return APR_ENOMEM;
}
rv = apr_thread_mutex_create(&fifo->lock,
APR_THREAD_MUTEX_UNNESTED, pool);
if (rv != APR_SUCCESS) {
return rv;
}
rv = apr_thread_cond_create(&fifo->not_empty, pool);
if (rv != APR_SUCCESS) {
return rv;
}
rv = apr_thread_cond_create(&fifo->not_full, pool);
if (rv != APR_SUCCESS) {
return rv;
}
fifo->elems = apr_pcalloc(pool, capacity * sizeof(void*));
if (fifo->elems == NULL) {
return APR_ENOMEM;
}
fifo->nelems = capacity;
fifo->set = as_set;
*pfifo = fifo;
apr_pool_cleanup_register(pool, fifo, fifo_destroy, apr_pool_cleanup_null);
return APR_SUCCESS;
}
apr_status_t h2_proxy_fifo_create(h2_proxy_fifo **pfifo, apr_pool_t *pool, int capacity)
{
return create_int(pfifo, pool, capacity, 0);
}
apr_status_t h2_proxy_fifo_set_create(h2_proxy_fifo **pfifo, apr_pool_t *pool, int capacity)
{
return create_int(pfifo, pool, capacity, 1);
}
apr_status_t h2_proxy_fifo_term(h2_proxy_fifo *fifo)
{
apr_status_t rv;
if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) {
fifo->aborted = 1;
apr_thread_mutex_unlock(fifo->lock);
}
return rv;
}
apr_status_t h2_proxy_fifo_interrupt(h2_proxy_fifo *fifo)
{
apr_status_t rv;
if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) {
apr_thread_cond_broadcast(fifo->not_empty);
apr_thread_cond_broadcast(fifo->not_full);
apr_thread_mutex_unlock(fifo->lock);
}
return rv;
}
int h2_proxy_fifo_count(h2_proxy_fifo *fifo)
{
return fifo->count;
}
int h2_proxy_fifo_capacity(h2_proxy_fifo *fifo)
{
return fifo->nelems;
}
static apr_status_t check_not_empty(h2_proxy_fifo *fifo, int block)
{
if (fifo->count == 0) {
if (!block) {
return APR_EAGAIN;
}
while (fifo->count == 0) {
if (fifo->aborted) {
return APR_EOF;
}
apr_thread_cond_wait(fifo->not_empty, fifo->lock);
}
}
return APR_SUCCESS;
}
static apr_status_t fifo_push(h2_proxy_fifo *fifo, void *elem, int block)
{
apr_status_t rv;
if (fifo->aborted) {
return APR_EOF;
}
if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) {
if (fifo->set && index_of(fifo, elem) >= 0) {
/* set mode, elem already member */
apr_thread_mutex_unlock(fifo->lock);
return APR_EEXIST;
}
else if (fifo->count == fifo->nelems) {
if (block) {
while (fifo->count == fifo->nelems) {
if (fifo->aborted) {
apr_thread_mutex_unlock(fifo->lock);
return APR_EOF;
}
apr_thread_cond_wait(fifo->not_full, fifo->lock);
}
}
else {
apr_thread_mutex_unlock(fifo->lock);
return APR_EAGAIN;
}
}
ap_assert(fifo->count < fifo->nelems);
fifo->elems[nth_index(fifo, fifo->count)] = elem;
++fifo->count;
if (fifo->count == 1) {
apr_thread_cond_broadcast(fifo->not_empty);
}
apr_thread_mutex_unlock(fifo->lock);
}
return rv;
}
apr_status_t h2_proxy_fifo_push(h2_proxy_fifo *fifo, void *elem)
{
return fifo_push(fifo, elem, 1);
}
apr_status_t h2_proxy_fifo_try_push(h2_proxy_fifo *fifo, void *elem)
{
return fifo_push(fifo, elem, 0);
}
static void *pull_head(h2_proxy_fifo *fifo)
{
void *elem;
ap_assert(fifo->count > 0);
elem = fifo->elems[fifo->head];
--fifo->count;
if (fifo->count > 0) {
fifo->head = nth_index(fifo, 1);
if (fifo->count+1 == fifo->nelems) {
apr_thread_cond_broadcast(fifo->not_full);
}
}
return elem;
}
static apr_status_t fifo_pull(h2_proxy_fifo *fifo, void **pelem, int block)
{
apr_status_t rv;
if (fifo->aborted) {
return APR_EOF;
}
if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) {
if ((rv = check_not_empty(fifo, block)) != APR_SUCCESS) {
apr_thread_mutex_unlock(fifo->lock);
*pelem = NULL;
return rv;
}
ap_assert(fifo->count > 0);
*pelem = pull_head(fifo);
apr_thread_mutex_unlock(fifo->lock);
}
return rv;
}
apr_status_t h2_proxy_fifo_pull(h2_proxy_fifo *fifo, void **pelem)
{
return fifo_pull(fifo, pelem, 1);
}
apr_status_t h2_proxy_fifo_try_pull(h2_proxy_fifo *fifo, void **pelem)
{
return fifo_pull(fifo, pelem, 0);
}
apr_status_t h2_proxy_fifo_remove(h2_proxy_fifo *fifo, void *elem)
{
apr_status_t rv;
if (fifo->aborted) {
return APR_EOF;
}
if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) {
int i, rc;
void *e;
rc = 0;
for (i = 0; i < fifo->count; ++i) {
e = fifo->elems[nth_index(fifo, i)];
if (e == elem) {
++rc;
}
else if (rc) {
fifo->elems[nth_index(fifo, i-rc)] = e;
}
}
if (rc) {
fifo->count -= rc;
if (fifo->count + rc == fifo->nelems) {
apr_thread_cond_broadcast(fifo->not_full);
}
rv = APR_SUCCESS;
}
else {
rv = APR_EAGAIN;
}
apr_thread_mutex_unlock(fifo->lock);
}
return rv;
}
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