transmission/third-party/shttpd/io_ssi.c

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/*
* Copyright (c) 2006,2007 Steven Johnson <sjohnson@sakuraindustries.com>
* Copyright (c) 2007 Sergey Lyubka <valenok@gmail.com>
* All rights reserved
*
* "THE BEER-WARE LICENSE" (Revision 42):
* Sergey Lyubka wrote this file. As long as you retain this notice you
* can do whatever you want with this stuff. If we meet some day, and you think
* this stuff is worth it, you can buy me a beer in return.
*/
#include "defs.h"
#define CMDBUFSIZ 512 /* SSI command buffer size */
#define NEST_MAX 6 /* Maximum nesting level */
struct ssi_func {
struct llhead link;
void *user_data;
char *name;
shttpd_callback_t func;
};
struct ssi_inc {
int state; /* Buffering state */
int cond; /* Conditional state */
FILE *fp; /* Icluded file stream */
char buf[CMDBUFSIZ]; /* SSI command buffer */
size_t nbuf; /* Bytes in a command buffer */
FILE *pipe; /* #exec stream */
struct ssi_func func; /* #call function */
};
struct ssi {
struct conn *conn; /* Connection we belong to */
int nest; /* Current nesting level */
struct ssi_inc incs[NEST_MAX]; /* Nested includes */
};
enum { SSI_PASS, SSI_BUF, SSI_EXEC, SSI_CALL };
enum { SSI_GO, SSI_STOP }; /* Conditional states */
static const struct vec st = {"<!--#", 5};
void
shttpd_register_ssi_func(struct shttpd_ctx *ctx, const char *name,
shttpd_callback_t func, void *user_data)
{
struct ssi_func *e;
if ((e = malloc(sizeof(*e))) != NULL) {
e->name = my_strdup(name);
e->func = func;
e->user_data = user_data;
LL_TAIL(&ctx->ssi_funcs, &e->link);
}
}
void
ssi_func_destructor(struct llhead *lp)
{
struct ssi_func *e = LL_ENTRY(lp, struct ssi_func, link);
free(e->name);
free(e);
}
static const struct ssi_func *
find_ssi_func(struct ssi *ssi, const char *name)
{
struct ssi_func *e;
struct llhead *lp;
LL_FOREACH(&ssi->conn->ctx->ssi_funcs, lp) {
e = LL_ENTRY(lp, struct ssi_func, link);
if (!strcmp(name, e->name))
return (e);
}
return (NULL);
}
static void
call(struct ssi *ssi, const char *name,
struct shttpd_arg *arg, char *buf, int len)
{
const struct ssi_func *ssi_func;
(void) memset(arg, 0, sizeof(*arg));
/*
* SSI function may be called with parameters. These parameters
* are passed as arg->in.buf, arg->in.len vector.
*/
arg->in.buf = strchr(name, ' ');
if (arg->in.buf != NULL) {
*arg->in.buf++ = '\0';
arg->in.len = strlen(arg->in.buf);
}
if ((ssi_func = find_ssi_func(ssi, name)) != NULL) {
arg->priv = ssi->conn;
arg->user_data = ssi_func->user_data;
arg->out.buf = buf;
arg->out.len = len;
ssi_func->func(arg);
}
}
static int
evaluate(struct ssi *ssi, const char *name)
{
struct shttpd_arg arg;
call(ssi, name, &arg, NULL, 0);
return (arg.flags & SHTTPD_SSI_EVAL_TRUE);
}
static void
pass(struct ssi_inc *inc, void *buf, int *n)
{
if (inc->cond == SSI_GO) {
(void) memcpy(buf, inc->buf, inc->nbuf);
(*n) += inc->nbuf;
}
inc->nbuf = 0;
inc->state = SSI_PASS;
}
static int
get_path(struct conn *conn, const char *src,
int src_len, char *dst, int dst_len)
{
static struct vec accepted[] = {
{"\"", 1}, /* Relative to webserver CWD */
{"file=\"", 6}, /* Relative to current URI */
{"virtual=\"", 9}, /* Relative to document root */
{NULL, 0},
};
struct vec *vec;
const char *p, *root = conn->ctx->options[OPT_ROOT];
int len;
for (vec = accepted; vec->len > 0; vec++)
if (src_len > vec->len && !memcmp(src, vec->ptr, vec->len)) {
src += vec->len;
src_len -= vec->len;
if ((p = memchr(src, '"', src_len)) == NULL)
break;
if (vec->len == 6) {
len = my_snprintf(dst, dst_len, "%s%c%s",
root, DIRSEP, conn->uri);
while (len > 0 && dst[len] != '/')
len--;
dst += len;
dst_len -= len;
} else if (vec->len == 9) {
len = my_snprintf(dst, dst_len, "%s%c",
root, DIRSEP);
dst += len;
dst_len -= len;
}
url_decode(src, p - src, dst, dst_len);
return (1);
}
return (0);
}
static void
do_include(struct ssi *ssi)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
char buf[FILENAME_MAX];
FILE *fp;
assert(inc->nbuf >= 13);
if (inc->cond == SSI_STOP) {
/* Do nothing - conditional FALSE */
} else if (ssi->nest >= (int) NELEMS(ssi->incs) - 1) {
elog(E_LOG, ssi->conn,
"ssi: #include: maximum nested level reached");
} else if (!get_path(ssi->conn,
inc->buf + 13, inc->nbuf - 13, buf, sizeof(buf))) {
elog(E_LOG, ssi->conn, "ssi: bad #include: [%.*s]",
inc->nbuf, inc->buf);
} else if ((fp = fopen(buf, "r")) == NULL) {
elog(E_LOG, ssi->conn,
"ssi: fopen(%s): %s", buf, strerror(errno));
} else {
ssi->nest++;
ssi->incs[ssi->nest].fp = fp;
ssi->incs[ssi->nest].nbuf = 0;
ssi->incs[ssi->nest].cond = SSI_GO;
}
}
static char *
trim_spaces(struct ssi_inc *inc)
{
char *p = inc->buf + inc->nbuf - 2;
/* Trim spaces from the right */
*p-- = '\0';
while (isspace(* (unsigned char *) p))
*p-- = '\0';
/* Shift pointer to the start of attributes */
for (p = inc->buf; !isspace(* (unsigned char *) p); p++);
while (*p && isspace(* (unsigned char *) p)) p++;
return (p);
}
static void
do_if(struct ssi *ssi)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
char *name = trim_spaces(inc);
inc->cond = evaluate(ssi, name) ? SSI_GO : SSI_STOP;
}
static void
do_elif(struct ssi *ssi)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
char *name = trim_spaces(inc);
if (inc->cond == SSI_STOP && evaluate(ssi, name))
inc->cond = SSI_GO;
else
inc->cond = SSI_STOP;
}
static void
do_endif(struct ssi *ssi)
{
ssi->incs[ssi->nest].cond = SSI_GO;
}
static void
do_else(struct ssi *ssi)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
inc->cond = inc->cond == SSI_GO ? SSI_STOP : SSI_GO;
}
static void
do_call2(struct ssi *ssi, char *buf, int len, int *n)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
struct shttpd_arg arg;
call(ssi, inc->buf, &arg, buf, len);
(*n) += arg.out.num_bytes;
if (arg.flags & SHTTPD_END_OF_OUTPUT)
inc->state = SSI_PASS;
}
static void
do_call(struct ssi *ssi, char *buf, int len, int *n)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
char *name = trim_spaces(inc);
if (inc->cond == SSI_GO) {
(void) memmove(inc->buf, name, strlen(name) + 1);
inc->state = SSI_CALL;
do_call2(ssi, buf, len, n);
}
}
static void
do_exec2(struct ssi *ssi, char *buf, int len, int *n)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
int i, ch;
for (i = 0; i < len; i++) {
if ((ch = fgetc(inc->pipe)) == EOF) {
inc->state = SSI_PASS;
(void) pclose(inc->pipe);
inc->pipe = NULL;
break;
}
*buf++ = ch;
(*n)++;
}
}
static void
do_exec(struct ssi *ssi, char *buf, int len, int *n)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
char cmd[sizeof(inc->buf)], *e, *p;
p = trim_spaces(inc);
if (inc->cond == SSI_STOP) {
/* Do nothing - conditional FALSE */
} else if (*p != '"' || (e = strchr(p + 1, '"')) == NULL) {
elog(E_LOG, ssi->conn, "ssi: bad exec(%s)", p);
} else if (!url_decode(p + 1, e - p - 1, cmd, sizeof(cmd))) {
elog(E_LOG, ssi->conn, "ssi: cannot url_decode: exec(%s)", p);
} else if ((inc->pipe = popen(cmd, "r")) == NULL) {
elog(E_LOG, ssi->conn, "ssi: popen(%s)", cmd);
} else {
inc->state = SSI_EXEC;
do_exec2(ssi, buf, len, n);
}
}
static const struct ssi_cmd {
struct vec vec;
void (*func)();
} known_ssi_commands [] = {
{{"include ", 8}, do_include },
{{"if ", 3}, do_if },
{{"elif ", 5}, do_elif },
{{"else", 4}, do_else },
{{"endif", 5}, do_endif },
{{"call ", 5}, do_call },
{{"exec ", 5}, do_exec },
{{NULL, 0}, NULL }
};
static void
do_command(struct ssi *ssi, char *buf, size_t len, int *n)
{
struct ssi_inc *inc = ssi->incs + ssi->nest;
const struct ssi_cmd *cmd;
assert(len > 0);
assert(inc->nbuf <= len);
inc->state = SSI_PASS;
for (cmd = known_ssi_commands; cmd->func != NULL; cmd++)
if (inc->nbuf > (size_t) st.len + cmd->vec.len &&
!memcmp(inc->buf + st.len, cmd->vec.ptr, cmd->vec.len)) {
cmd->func(ssi, buf, len, n);
break;
}
if (cmd->func == NULL)
pass(inc, buf, n);
inc->nbuf = 0;
}
static int
read_ssi(struct stream *stream, void *vbuf, size_t len)
{
struct ssi *ssi = stream->conn->ssi;
struct ssi_inc *inc = ssi->incs + ssi->nest;
char *buf = vbuf;
int ch = EOF, n = 0;
again:
if (inc->state == SSI_CALL)
do_call2(ssi, buf, len, &n);
else if (inc->state == SSI_EXEC)
do_exec2(ssi, buf, len, &n);
while (n + inc->nbuf < len && (ch = fgetc(inc->fp)) != EOF)
switch (inc->state) {
case SSI_PASS:
if (ch == '<') {
inc->nbuf = 0;
inc->buf[inc->nbuf++] = ch;
inc->state = SSI_BUF;
} else if (inc->cond == SSI_GO) {
buf[n++] = ch;
}
break;
/*
* We are buffering whole SSI command, until closing "-->".
* That means that when do_command() is called, we can rely
* on that full command with arguments is buffered in and
* there is no need for streaming.
* Restrictions:
* 1. The command must fit in CMDBUFSIZ
* 2. HTML comments inside the command ? Not sure about this.
*/
case SSI_BUF:
if (inc->nbuf >= sizeof(inc->buf) - 1) {
pass(inc, buf + n, &n);
} else if (ch == '>' &&
!memcmp(inc->buf + inc->nbuf - 2, "--", 2)) {
do_command(ssi, buf + n, len - n, &n);
inc = ssi->incs + ssi->nest;
} else {
inc->buf[inc->nbuf++] = ch;
/* If not SSI tag, pass it */
if (inc->nbuf <= (size_t) st.len &&
memcmp(inc->buf, st.ptr, inc->nbuf) != 0)
pass(inc, buf + n, &n);
}
break;
case SSI_EXEC:
case SSI_CALL:
break;
default:
/* Never happens */
abort();
break;
}
if (ssi->nest > 0 && n + inc->nbuf < len && ch == EOF) {
(void) fclose(inc->fp);
inc->fp = NULL;
ssi->nest--;
inc--;
goto again;
}
return (n);
}
static void
close_ssi(struct stream *stream)
{
struct ssi *ssi = stream->conn->ssi;
size_t i;
for (i = 0; i < NELEMS(ssi->incs); i++) {
if (ssi->incs[i].fp != NULL)
(void) fclose(ssi->incs[i].fp);
if (ssi->incs[i].pipe != NULL)
(void) pclose(ssi->incs[i].pipe);
}
free(ssi);
}
void
do_ssi(struct conn *c)
{
char date[64];
struct ssi *ssi;
(void) strftime(date, sizeof(date), "%a, %d %b %Y %H:%M:%S GMT",
localtime(&current_time));
c->loc.io.head = c->loc.headers_len = my_snprintf(c->loc.io.buf,
c->loc.io.size,
"HTTP/1.1 200 OK\r\n"
"Date: %s\r\n"
"Content-Type: text/html\r\n"
"Connection: close\r\n\r\n",
date);
c->status = 200;
c->loc.io_class = &io_ssi;
c->loc.flags |= FLAG_R | FLAG_ALWAYS_READY;
if (c->method == METHOD_HEAD) {
stop_stream(&c->loc);
} else if ((ssi = calloc(1, sizeof(struct ssi))) == NULL) {
send_server_error(c, 500, "Cannot allocate SSI descriptor");
} else {
ssi->incs[0].fp = fdopen(c->loc.chan.fd, "r");
ssi->conn = c;
c->ssi = ssi;
}
}
const struct io_class io_ssi = {
"ssi",
read_ssi,
NULL,
close_ssi
};