json-rpc-shell/json-rpc-shell.c

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2014-09-07 02:20:49 +02:00
/*
* json-rpc-shell.c: simple JSON-RPC 2.0 shell
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*
* Copyright (c) 2014 - 2015, Přemysl Janouch <p.janouch@gmail.com>
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* All rights reserved.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
/// Some arbitrary limit for the history file
#define HISTORY_LIMIT 10000
// String constants for all attributes we use for output
#define ATTR_PROMPT "attr_prompt"
#define ATTR_RESET "attr_reset"
#define ATTR_WARNING "attr_warning"
#define ATTR_ERROR "attr_error"
#define ATTR_INCOMING "attr_incoming"
#define ATTR_OUTGOING "attr_outgoing"
// User data for logger functions to enable formatted logging
#define print_fatal_data ATTR_ERROR
#define print_error_data ATTR_ERROR
#define print_warning_data ATTR_WARNING
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#define LIBERTY_WANT_SSL
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#define LIBERTY_WANT_PROTO_HTTP
#define LIBERTY_WANT_PROTO_WS
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#include "config.h"
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#include "liberty/liberty.c"
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#include "http-parser/http_parser.h"
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#include <langinfo.h>
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#include <locale.h>
#include <signal.h>
#include <strings.h>
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#include <arpa/inet.h>
#include <ev.h>
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#include <readline/readline.h>
#include <readline/history.h>
#include <curl/curl.h>
#include <jansson.h>
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#include <openssl/rand.h>
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#include <curses.h>
#include <term.h>
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// --- Configuration (application-specific) ------------------------------------
static struct config_item g_config_table[] =
{
{ ATTR_PROMPT, NULL, "Terminal attributes for the prompt" },
{ ATTR_RESET, NULL, "String to reset terminal attributes" },
{ ATTR_WARNING, NULL, "Terminal attributes for warnings" },
{ ATTR_ERROR, NULL, "Terminal attributes for errors" },
{ ATTR_INCOMING, NULL, "Terminal attributes for incoming traffic" },
{ ATTR_OUTGOING, NULL, "Terminal attributes for outgoing traffic" },
{ NULL, NULL, NULL }
};
// --- Main program ------------------------------------------------------------
// HTTP/S and WS/S require significantly different handling. While for HTTP we
// can just use the cURL easy interface, with WebSockets it gets a bit more
// complicated and we implement it all by ourselves.
//
// Luckily on a higher level the application doesn't need to bother itself with
// the details and the backend API can be very simple..
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struct app_context;
struct backend_iface
{
void (*init) (struct app_context *ctx,
const char *endpoint, struct http_parser_url *url);
void (*add_header) (struct app_context *ctx, const char *header);
bool (*make_call) (struct app_context *ctx,
const char *request, bool expect_content,
struct str *buf, struct error **e);
void (*destroy) (struct app_context *ctx);
};
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/// Shorthand to set an error and return failure from the function
#define FAIL(...) \
BLOCK_START \
error_set (e, __VA_ARGS__); \
return false; \
BLOCK_END
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// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
enum ws_handler_state
{
WS_HANDLER_CONNECTING, ///< Parsing HTTP
WS_HANDLER_OPEN, ///< Parsing WebSockets frames
WS_HANDLER_CLOSING, ///< Closing the connection
WS_HANDLER_CLOSED ///< Dead
};
#define BACKEND_WS_MAX_PAYLOAD_LEN UINT32_MAX
struct ws_context
{
// Configuration:
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char *endpoint; ///< Endpoint URL
struct http_parser_url url; ///< Parsed URL
struct str_vector extra_headers; ///< Extra headers for the handshake
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// Events:
bool waiting_for_event; ///< Running a separate loop to wait?
struct error *e; ///< Error while waiting for event
ev_timer timeout_watcher; ///< Connection timeout watcher
struct str *response_buffer; ///< Buffer for the incoming messages
// The TCP transport:
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int server_fd; ///< Socket FD of the server
ev_io read_watcher; ///< Server FD read watcher
SSL_CTX *ssl_ctx; ///< SSL context
SSL *ssl; ///< SSL connection
// WebSockets protocol handling:
enum ws_handler_state state; ///< State
char *key; ///< Key for the current handshake
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http_parser hp; ///< HTTP parser
bool parsing_header_value; ///< Parsing header value or field?
struct str field; ///< Field part buffer
struct str value; ///< Value part buffer
struct str_map headers; ///< HTTP Headers
struct ws_parser parser; ///< Protocol frame parser
bool expecting_continuation; ///< For non-control traffic
enum ws_opcode message_opcode; ///< Opcode for the current message
struct str message_data; ///< Concatenated message data
};
static void
ws_context_init (struct ws_context *self)
{
memset (self, 0, sizeof *self);
ev_timer_init (&self->timeout_watcher, NULL, 0, 0);
self->server_fd = -1;
ev_io_init (&self->read_watcher, NULL, 0, 0);
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http_parser_init (&self->hp, HTTP_RESPONSE);
str_init (&self->field);
str_init (&self->value);
str_map_init (&self->headers);
self->headers.key_xfrm = tolower_ascii_strxfrm;
self->headers.free = free;
ws_parser_init (&self->parser);
str_init (&self->message_data);
str_vector_init (&self->extra_headers);
}
struct curl_context
{
CURL *curl; ///< cURL handle
char curl_error[CURL_ERROR_SIZE]; ///< cURL error info buffer
struct curl_slist *headers; ///< Headers
};
static void
curl_context_init (struct curl_context *self)
{
memset (self, 0, sizeof *self);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
enum color_mode
{
COLOR_AUTO, ///< Autodetect if colours are available
COLOR_ALWAYS, ///< Always use coloured output
COLOR_NEVER ///< Never use coloured output
};
static struct app_context
{
struct backend_iface *backend; ///< Our current backend
struct ws_context ws; ///< WebSockets backend data
struct curl_context curl; ///< cURL backend data
struct str_map config; ///< Program configuration
enum color_mode color_mode; ///< Colour output mode
bool pretty_print; ///< Whether to pretty print
bool verbose; ///< Print requests
bool trust_all; ///< Don't verify peer certificates
bool auto_id; ///< Use automatically generated ID's
int64_t next_id; ///< Next autogenerated ID
iconv_t term_to_utf8; ///< Terminal encoding to UTF-8
iconv_t term_from_utf8; ///< UTF-8 to terminal encoding
char *readline_prompt; ///< The prompt we use for readline
bool readline_prompt_shown; ///< Whether the prompt is shown now
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}
g_ctx;
// --- Attributed output -------------------------------------------------------
static struct
{
bool initialized; ///< Terminal is available
bool stdout_is_tty; ///< `stdout' is a terminal
bool stderr_is_tty; ///< `stderr' is a terminal
char *color_set[8]; ///< Codes to set the foreground colour
}
g_terminal;
static bool
init_terminal (void)
{
int tty_fd = -1;
if ((g_terminal.stderr_is_tty = isatty (STDERR_FILENO)))
tty_fd = STDERR_FILENO;
if ((g_terminal.stdout_is_tty = isatty (STDOUT_FILENO)))
tty_fd = STDOUT_FILENO;
int err;
if (tty_fd == -1 || setupterm (NULL, tty_fd, &err) == ERR)
return false;
// Make sure all terminal features used by us are supported
if (!set_a_foreground || !enter_bold_mode || !exit_attribute_mode)
{
del_curterm (cur_term);
return false;
}
for (size_t i = 0; i < N_ELEMENTS (g_terminal.color_set); i++)
g_terminal.color_set[i] = xstrdup (tparm (set_a_foreground,
i, 0, 0, 0, 0, 0, 0, 0, 0));
return g_terminal.initialized = true;
}
static void
free_terminal (void)
{
if (!g_terminal.initialized)
return;
for (size_t i = 0; i < N_ELEMENTS (g_terminal.color_set); i++)
free (g_terminal.color_set[i]);
del_curterm (cur_term);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
typedef int (*terminal_printer_fn) (int);
static int
putchar_stderr (int c)
{
return fputc (c, stderr);
}
static terminal_printer_fn
get_attribute_printer (FILE *stream)
{
if (stream == stdout && g_terminal.stdout_is_tty)
return putchar;
if (stream == stderr && g_terminal.stderr_is_tty)
return putchar_stderr;
return NULL;
}
static void
vprint_attributed (struct app_context *ctx,
FILE *stream, const char *attribute, const char *fmt, va_list ap)
{
terminal_printer_fn printer = get_attribute_printer (stream);
if (!attribute)
printer = NULL;
if (printer)
{
const char *value = str_map_find (&ctx->config, attribute);
tputs (value, 1, printer);
}
vfprintf (stream, fmt, ap);
if (printer)
{
const char *value = str_map_find (&ctx->config, ATTR_RESET);
tputs (value, 1, printer);
}
}
static void
print_attributed (struct app_context *ctx,
FILE *stream, const char *attribute, const char *fmt, ...)
{
va_list ap;
va_start (ap, fmt);
vprint_attributed (ctx, stream, attribute, fmt, ap);
va_end (ap);
}
static void
log_message_attributed (void *user_data, const char *quote, const char *fmt,
va_list ap)
{
FILE *stream = stderr;
// GNU readline is a huge piece of total crap; it seems that we must do
// these incredible shenanigans in order to intersperse readline output
// with asynchronous status messages
char *saved_line;
int saved_point;
if (g_ctx.readline_prompt_shown)
{
saved_point = rl_point;
saved_line = rl_copy_text (0, rl_end);
rl_set_prompt ("");
rl_replace_line ("", 0);
rl_redisplay ();
}
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print_attributed (&g_ctx, stream, user_data, "%s", quote);
vprint_attributed (&g_ctx, stream, user_data, fmt, ap);
fputs ("\n", stream);
if (g_ctx.readline_prompt_shown)
{
rl_set_prompt (g_ctx.readline_prompt);
rl_replace_line (saved_line, 0);
rl_point = saved_point;
rl_redisplay ();
free (saved_line);
}
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}
static void
init_colors (struct app_context *ctx)
{
// Use escape sequences from terminfo if possible, and SGR as a fallback
if (init_terminal ())
{
const char *attrs[][2] =
{
{ ATTR_PROMPT, enter_bold_mode },
{ ATTR_RESET, exit_attribute_mode },
{ ATTR_WARNING, g_terminal.color_set[3] },
{ ATTR_ERROR, g_terminal.color_set[1] },
{ ATTR_INCOMING, "" },
{ ATTR_OUTGOING, "" },
};
for (size_t i = 0; i < N_ELEMENTS (attrs); i++)
str_map_set (&ctx->config, attrs[i][0], xstrdup (attrs[i][1]));
}
else
{
const char *attrs[][2] =
{
{ ATTR_PROMPT, "\x1b[1m" },
{ ATTR_RESET, "\x1b[0m" },
{ ATTR_WARNING, "\x1b[33m" },
{ ATTR_ERROR, "\x1b[31m" },
{ ATTR_INCOMING, "" },
{ ATTR_OUTGOING, "" },
};
for (size_t i = 0; i < N_ELEMENTS (attrs); i++)
str_map_set (&ctx->config, attrs[i][0], xstrdup (attrs[i][1]));
}
switch (ctx->color_mode)
{
case COLOR_ALWAYS:
g_terminal.stdout_is_tty = true;
g_terminal.stderr_is_tty = true;
break;
case COLOR_AUTO:
if (!g_terminal.initialized)
{
case COLOR_NEVER:
g_terminal.stdout_is_tty = false;
g_terminal.stderr_is_tty = false;
}
}
g_log_message_real = log_message_attributed;
}
// --- Configuration loading ---------------------------------------------------
static bool
read_hexa_escape (const char **cursor, struct str *output)
{
int i;
char c, code = 0;
for (i = 0; i < 2; i++)
{
c = tolower (*(*cursor));
if (c >= '0' && c <= '9')
code = (code << 4) | (c - '0');
else if (c >= 'a' && c <= 'f')
code = (code << 4) | (c - 'a' + 10);
else
break;
(*cursor)++;
}
if (!i)
return false;
str_append_c (output, code);
return true;
}
static bool
read_octal_escape (const char **cursor, struct str *output)
{
int i;
char c, code = 0;
for (i = 0; i < 3; i++)
{
c = *(*cursor);
if (c < '0' || c > '7')
break;
code = (code << 3) | (c - '0');
(*cursor)++;
}
if (!i)
return false;
str_append_c (output, code);
return true;
}
static bool
read_string_escape_sequence (const char **cursor,
struct str *output, struct error **e)
{
int c;
switch ((c = *(*cursor)++))
{
case '?': str_append_c (output, '?'); break;
case '"': str_append_c (output, '"'); break;
case '\\': str_append_c (output, '\\'); break;
case 'a': str_append_c (output, '\a'); break;
case 'b': str_append_c (output, '\b'); break;
case 'f': str_append_c (output, '\f'); break;
case 'n': str_append_c (output, '\n'); break;
case 'r': str_append_c (output, '\r'); break;
case 't': str_append_c (output, '\t'); break;
case 'v': str_append_c (output, '\v'); break;
case 'e':
case 'E':
str_append_c (output, '\x1b');
break;
case 'x':
case 'X':
if (!read_hexa_escape (cursor, output))
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FAIL ("invalid hexadecimal escape");
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break;
case '\0':
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FAIL ("premature end of escape sequence");
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default:
(*cursor)--;
if (!read_octal_escape (cursor, output))
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FAIL ("unknown escape sequence");
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}
return true;
}
static bool
unescape_string (const char *s, struct str *output, struct error **e)
{
int c;
while ((c = *s++))
{
if (c != '\\')
str_append_c (output, c);
else if (!read_string_escape_sequence (&s, output, e))
return false;
}
return true;
}
static void
load_config (struct app_context *ctx)
{
// TODO: employ a better configuration file format, so that we don't have
// to do this convoluted post-processing anymore.
struct str_map map;
str_map_init (&map);
map.free = free;
struct error *e = NULL;
if (!read_config_file (&map, &e))
{
print_error ("error loading configuration: %s", e->message);
error_free (e);
exit (EXIT_FAILURE);
}
struct str_map_iter iter;
str_map_iter_init (&iter, &map);
while (str_map_iter_next (&iter))
{
struct error *e = NULL;
struct str value;
str_init (&value);
if (!unescape_string (iter.link->data, &value, &e))
{
print_error ("error reading configuration: %s: %s",
iter.link->key, e->message);
error_free (e);
exit (EXIT_FAILURE);
}
str_map_set (&ctx->config, iter.link->key, str_steal (&value));
}
str_map_free (&map);
}
// --- WebSockets backend ------------------------------------------------------
static void
backend_ws_init (struct app_context *ctx,
const char *endpoint, struct http_parser_url *url)
{
struct ws_context *self = &ctx->ws;
ws_context_init (self);
self->endpoint = xstrdup (endpoint);
self->url = *url;
SSL_library_init ();
atexit (EVP_cleanup);
SSL_load_error_strings ();
atexit (ERR_free_strings);
}
static void
backend_ws_add_header (struct app_context *ctx, const char *header)
{
str_vector_add (&ctx->ws.extra_headers, header);
}
enum ws_read_result
{
WS_READ_OK, ///< Some data were read successfully
WS_READ_EOF, ///< The server has closed connection
WS_READ_AGAIN, ///< No more data at the moment
WS_READ_ERROR ///< General connection failure
};
static enum ws_read_result
backend_ws_fill_read_buffer_tls
(struct app_context *ctx, void *buf, size_t *len)
{
int n_read;
struct ws_context *self = &ctx->ws;
start:
n_read = SSL_read (self->ssl, buf, *len);
const char *error_info = NULL;
switch (xssl_get_error (self->ssl, n_read, &error_info))
{
case SSL_ERROR_NONE:
*len = n_read;
return WS_READ_OK;
case SSL_ERROR_ZERO_RETURN:
return WS_READ_EOF;
case SSL_ERROR_WANT_READ:
return WS_READ_AGAIN;
case SSL_ERROR_WANT_WRITE:
{
// Let it finish the handshake as we don't poll for writability;
// any errors are to be collected by SSL_read() in the next iteration
struct pollfd pfd = { .fd = self->server_fd, .events = POLLOUT };
soft_assert (poll (&pfd, 1, 0) > 0);
goto start;
}
case XSSL_ERROR_TRY_AGAIN:
goto start;
default:
print_debug ("%s: %s: %s", __func__, "SSL_read", error_info);
return WS_READ_ERROR;
}
}
static enum ws_read_result
backend_ws_fill_read_buffer
(struct app_context *ctx, void *buf, size_t *len)
{
ssize_t n_read;
struct ws_context *self = &ctx->ws;
start:
n_read = recv (self->server_fd, buf, *len, 0);
if (n_read > 0)
{
*len = n_read;
return WS_READ_OK;
}
if (n_read == 0)
return WS_READ_EOF;
if (errno == EAGAIN)
return WS_READ_AGAIN;
if (errno == EINTR)
goto start;
print_debug ("%s: %s: %s", __func__, "recv", strerror (errno));
return WS_READ_ERROR;
}
static bool
backend_ws_header_field_is_a_list (const char *name)
{
// This must contain all header fields we use for anything
static const char *concatenable[] =
{ SEC_WS_PROTOCOL, SEC_WS_EXTENSIONS, "Connection", "Upgrade" };
for (size_t i = 0; i < N_ELEMENTS (concatenable); i++)
if (!strcasecmp_ascii (name, concatenable[i]))
return true;
return false;
}
static void
backend_ws_on_header_read (struct ws_context *self)
{
// The HTTP parser unfolds values and removes preceding whitespace, but
// otherwise doesn't touch the values or the following whitespace.
// RFC 7230 states that trailing whitespace is not part of a field value
char *value = self->field.str;
size_t len = self->field.len;
while (len--)
if (value[len] == '\t' || value[len] == ' ')
value[len] = '\0';
else
break;
self->field.len = len;
const char *field = self->field.str;
const char *current = str_map_find (&self->headers, field);
if (backend_ws_header_field_is_a_list (field) && current)
str_map_set (&self->headers, field,
xstrdup_printf ("%s, %s", current, self->value.str));
else
// If the field cannot be concatenated, just overwrite the last value.
// Maybe we should issue a warning or something.
str_map_set (&self->headers, field, xstrdup (self->value.str));
}
static int
backend_ws_on_header_field (http_parser *parser, const char *at, size_t len)
{
struct ws_context *self = parser->data;
if (self->parsing_header_value)
{
backend_ws_on_header_read (self);
str_reset (&self->field);
str_reset (&self->value);
}
str_append_data (&self->field, at, len);
self->parsing_header_value = false;
return 0;
}
static int
backend_ws_on_header_value (http_parser *parser, const char *at, size_t len)
{
struct ws_context *self = parser->data;
str_append_data (&self->value, at, len);
self->parsing_header_value = true;
return 0;
}
static int
backend_ws_on_headers_complete (http_parser *parser)
{
// We strictly require a protocol upgrade
if (!parser->upgrade)
return 2;
return 0;
}
static bool
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backend_ws_finish_handshake (struct app_context *ctx, struct error **e)
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{
struct ws_context *self = &ctx->ws;
if (self->hp.http_major != 1 || self->hp.http_minor < 1)
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FAIL ("incompatible HTTP version: %d.%d",
self->hp.http_major, self->hp.http_minor);
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if (self->hp.status_code != 101)
// TODO: handle other codes?
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FAIL ("unexpected status code: %d", self->hp.status_code);
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const char *upgrade = str_map_find (&self->headers, "Upgrade");
if (!upgrade || strcasecmp_ascii (upgrade, "websocket"))
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FAIL ("cannot upgrade connection to WebSocket");
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const char *connection = str_map_find (&self->headers, "Connection");
if (!connection || strcasecmp_ascii (connection, "Upgrade"))
// XXX: maybe we shouldn't be so strict and only check for presence
// of the "Upgrade" token in this list
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FAIL ("cannot upgrade connection to WebSocket");
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const char *accept = str_map_find (&self->headers, SEC_WS_ACCEPT);
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char *accept_expected = ws_encode_response_key (self->key);
bool accept_ok = accept && !strcmp (accept, accept_expected);
free (accept_expected);
if (!accept_ok)
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FAIL ("missing or invalid " SEC_WS_ACCEPT " header");
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const char *extensions = str_map_find (&self->headers, SEC_WS_EXTENSIONS);
const char *protocol = str_map_find (&self->headers, SEC_WS_PROTOCOL);
if (extensions || protocol)
// TODO: actually parse these fields
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FAIL ("unexpected WebSocket extension or protocol");
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return true;
}
static bool
backend_ws_on_data (struct app_context *ctx, const void *data, size_t len)
{
struct ws_context *self = &ctx->ws;
if (self->state != WS_HANDLER_CONNECTING)
return ws_parser_push (&self->parser, data, len);
// The handshake hasn't been done yet, process HTTP headers
static const http_parser_settings http_settings =
{
.on_header_field = backend_ws_on_header_field,
.on_header_value = backend_ws_on_header_value,
.on_headers_complete = backend_ws_on_headers_complete,
};
size_t n_parsed = http_parser_execute (&self->hp,
&http_settings, data, len);
if (self->hp.upgrade)
{
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struct error *e = NULL;
if (!backend_ws_finish_handshake (ctx, &e))
{
print_error ("WS handshake failed: %s", e->message);
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error_free (e);
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return false;
2015-04-05 00:23:29 +02:00
}
// Finished the handshake, return to caller
// (we run a separate loop to wait for the handshake to finish)
2015-03-29 00:37:12 +01:00
self->state = WS_HANDLER_OPEN;
ev_unloop (EV_DEFAULT_ EVUNLOOP_ONE);
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if ((len -= n_parsed))
return ws_parser_push (&self->parser,
(const uint8_t *) data + n_parsed, len);
return true;
}
enum http_errno err = HTTP_PARSER_ERRNO (&self->hp);
if (n_parsed != len || err != HPE_OK)
{
if (err == HPE_CB_headers_complete)
print_error ("WS handshake failed: %s", "missing `Upgrade' field");
2015-03-29 00:37:12 +01:00
else
print_error ("WS handshake failed: %s",
2015-03-29 00:37:12 +01:00
http_errno_description (err));
return false;
}
return true;
}
static void
backend_ws_close_connection (struct app_context *ctx)
{
struct ws_context *self = &ctx->ws;
if (self->server_fd == -1)
return;
ev_io_stop (EV_DEFAULT_ &self->read_watcher);
if (self->ssl)
{
(void) SSL_shutdown (self->ssl);
SSL_free (self->ssl);
self->ssl = NULL;
}
xclose (self->server_fd);
self->server_fd = -1;
self->state = WS_HANDLER_CLOSED;
// That would have no way of succeeding
// XXX: what if we're waiting for the close?
if (self->waiting_for_event)
{
if (!self->e)
error_set (&self->e, "unexpected connection close");
ev_unloop (EV_DEFAULT_ EVUNLOOP_ONE);
}
}
2015-03-29 00:37:12 +01:00
static void
backend_ws_on_fd_ready (EV_P_ ev_io *handle, int revents)
{
(void) loop;
(void) revents;
struct app_context *ctx = handle->data;
struct ws_context *self = &ctx->ws;
enum ws_read_result (*fill_buffer)(struct app_context *, void *, size_t *)
= self->ssl
? backend_ws_fill_read_buffer_tls
: backend_ws_fill_read_buffer;
bool close_connection = false;
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uint8_t buf[8192];
while (true)
{
// Try to read some data in a non-blocking manner
2015-03-29 00:37:12 +01:00
size_t n_read = sizeof buf;
(void) set_blocking (self->server_fd, false);
enum ws_read_result result = fill_buffer (ctx, buf, &n_read);
(void) set_blocking (self->server_fd, true);
switch (result)
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{
case WS_READ_AGAIN:
goto end;
case WS_READ_ERROR:
print_error ("reading from the server failed");
close_connection = true;
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goto end;
case WS_READ_EOF:
print_status ("the server closed the connection");
close_connection = true;
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goto end;
case WS_READ_OK:
if (backend_ws_on_data (ctx, buf, n_read))
break;
// XXX: maybe we should wait until we receive an EOF
close_connection = true;
goto end;
2015-03-29 00:37:12 +01:00
}
}
end:
if (close_connection)
backend_ws_close_connection (ctx);
2015-03-29 00:37:12 +01:00
}
static bool
backend_ws_write (struct app_context *ctx, const void *data, size_t len)
{
if (!soft_assert (ctx->ws.server_fd != -1))
return false;
bool result = true;
if (ctx->ws.ssl)
{
// TODO: call SSL_get_error() to detect if a clean shutdown has occured
if (SSL_write (ctx->ws.ssl, data, len) != (int) len)
{
print_debug ("%s: %s: %s", __func__, "SSL_write",
ERR_error_string (ERR_get_error (), NULL));
result = false;
}
}
else if (write (ctx->ws.server_fd, data, len) != (ssize_t) len)
{
print_debug ("%s: %s: %s", __func__, "write", strerror (errno));
result = false;
}
return result;
}
static bool
backend_ws_establish_connection (struct app_context *ctx,
const char *host, const char *port, struct error **e)
{
struct addrinfo gai_hints, *gai_result, *gai_iter;
memset (&gai_hints, 0, sizeof gai_hints);
gai_hints.ai_socktype = SOCK_STREAM;
int err = getaddrinfo (host, port, &gai_hints, &gai_result);
if (err)
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FAIL ("%s: %s: %s",
2015-03-29 00:37:12 +01:00
"connection failed", "getaddrinfo", gai_strerror (err));
int sockfd;
for (gai_iter = gai_result; gai_iter; gai_iter = gai_iter->ai_next)
{
sockfd = socket (gai_iter->ai_family,
gai_iter->ai_socktype, gai_iter->ai_protocol);
if (sockfd == -1)
continue;
set_cloexec (sockfd);
int yes = 1;
soft_assert (setsockopt (sockfd, SOL_SOCKET, SO_KEEPALIVE,
&yes, sizeof yes) != -1);
const char *real_host = host;
// Let's try to resolve the address back into a real hostname;
// we don't really need this, so we can let it quietly fail
char buf[NI_MAXHOST];
err = getnameinfo (gai_iter->ai_addr, gai_iter->ai_addrlen,
buf, sizeof buf, NULL, 0, 0);
if (err)
print_debug ("%s: %s", "getnameinfo", gai_strerror (err));
else
real_host = buf;
char *address = format_host_port_pair (real_host, port);
print_status ("connecting to %s...", address);
free (address);
if (!connect (sockfd, gai_iter->ai_addr, gai_iter->ai_addrlen))
break;
xclose (sockfd);
}
freeaddrinfo (gai_result);
if (!gai_iter)
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FAIL ("connection failed");
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ctx->ws.server_fd = sockfd;
return true;
}
static bool
backend_ws_initialize_tls (struct app_context *ctx,
const char *server_name, struct error **e)
2015-03-29 00:37:12 +01:00
{
struct ws_context *self = &ctx->ws;
const char *error_info = NULL;
if (!self->ssl_ctx)
{
if (!(self->ssl_ctx = SSL_CTX_new (SSLv23_client_method ())))
goto error_ssl_1;
if (ctx->trust_all)
SSL_CTX_set_verify (self->ssl_ctx, SSL_VERIFY_NONE, NULL);
// XXX: how do we check certificates?
}
self->ssl = SSL_new (self->ssl_ctx);
if (!self->ssl)
goto error_ssl_2;
SSL_set_connect_state (self->ssl);
if (!SSL_set_fd (self->ssl, self->server_fd))
goto error_ssl_3;
// Avoid SSL_write() returning SSL_ERROR_WANT_READ
SSL_set_mode (self->ssl, SSL_MODE_AUTO_RETRY);
// Literal IP addresses aren't allowed in the SNI
struct in6_addr dummy;
if (!inet_pton (AF_INET, server_name, &dummy)
&& !inet_pton (AF_INET6, server_name, &dummy))
SSL_set_tlsext_host_name (self->ssl, server_name);
2015-03-29 00:37:12 +01:00
switch (xssl_get_error (self->ssl, SSL_connect (self->ssl), &error_info))
{
case SSL_ERROR_NONE:
return true;
case SSL_ERROR_ZERO_RETURN:
error_info = "server closed the connection";
default:
break;
}
error_ssl_3:
SSL_free (self->ssl);
self->ssl = NULL;
error_ssl_2:
SSL_CTX_free (self->ssl_ctx);
self->ssl_ctx = NULL;
error_ssl_1:
// XXX: these error strings are really nasty; also there could be
// multiple errors on the OpenSSL stack.
if (!error_info)
error_info = ERR_error_string (ERR_get_error (), NULL);
2015-04-05 00:23:29 +02:00
FAIL ("%s: %s", "could not initialize SSL", error_info);
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}
static bool
backend_ws_send_message (struct app_context *ctx,
enum ws_opcode opcode, const void *data, size_t len)
{
struct str header;
str_init (&header);
str_pack_u8 (&header, 0x80 | (opcode & 0x0F));
if (len > UINT16_MAX)
{
str_pack_u8 (&header, 0x80 | 127);
str_pack_u64 (&header, len);
}
else if (len > 125)
{
str_pack_u8 (&header, 0x80 | 126);
str_pack_u16 (&header, len);
}
else
str_pack_u8 (&header, 0x80 | len);
uint32_t mask;
if (!RAND_bytes ((unsigned char *) &mask, sizeof mask))
return false;
str_pack_u32 (&header, mask);
// XXX: maybe we should do this in a loop, who knows how large this can be
char masked[len];
memcpy (masked, data, len);
ws_parser_unmask (masked, len, mask);
bool result = true;
if (!backend_ws_write (ctx, header.str, header.len)
|| !backend_ws_write (ctx, masked, len))
result = false;
str_free (&header);
return result;
}
static bool
2015-03-29 00:37:12 +01:00
backend_ws_send_control (struct app_context *ctx,
enum ws_opcode opcode, const void *data, size_t len)
{
if (len > WS_MAX_CONTROL_PAYLOAD_LEN)
{
print_debug ("truncating output control frame payload"
" from %zu to %zu bytes", len, (size_t) WS_MAX_CONTROL_PAYLOAD_LEN);
len = WS_MAX_CONTROL_PAYLOAD_LEN;
}
return backend_ws_send_message (ctx, opcode, data, len);
2015-03-29 00:37:12 +01:00
}
static bool
2015-03-29 00:37:12 +01:00
backend_ws_fail (struct app_context *ctx, enum ws_status reason)
{
struct ws_context *self = &ctx->ws;
2015-03-29 00:37:12 +01:00
uint8_t payload[2] = { reason << 8, reason };
(void) backend_ws_send_control (ctx, WS_OPCODE_CLOSE,
payload, sizeof payload);
// The caller should immediately proceed to close the TCP connection,
// e.g. by returning false from a handler
self->state = WS_HANDLER_CLOSING;
return false;
2015-03-29 00:37:12 +01:00
}
static bool
backend_ws_on_frame_header (void *user_data, const struct ws_parser *parser)
{
struct app_context *ctx = user_data;
struct ws_context *self = &ctx->ws;
// Note that we aren't expected to send any close frame before closing the
// connection when the frame is unmasked
if (parser->reserved_1 || parser->reserved_2 || parser->reserved_3
|| !parser->is_masked // client -> server payload must be masked
|| (ws_is_control_frame (parser->opcode) &&
(!parser->is_fin || parser->payload_len > WS_MAX_CONTROL_PAYLOAD_LEN))
|| (!ws_is_control_frame (parser->opcode) &&
(self->expecting_continuation && parser->opcode != WS_OPCODE_CONT))
|| parser->payload_len >= 0x8000000000000000ULL)
return backend_ws_fail (ctx, WS_STATUS_PROTOCOL_ERROR);
2015-03-29 00:37:12 +01:00
else if (parser->payload_len > BACKEND_WS_MAX_PAYLOAD_LEN)
return backend_ws_fail (ctx, WS_STATUS_MESSAGE_TOO_BIG);
return true;
}
static bool
backend_ws_finish_closing_handshake
(struct app_context *ctx, const struct ws_parser *parser)
{
struct str reason;
str_init (&reason);
if (parser->payload_len >= 2)
{
struct msg_unpacker unpacker;
msg_unpacker_init (&unpacker, parser->input.str, parser->payload_len);
uint16_t status_code;
msg_unpacker_u16 (&unpacker, &status_code);
print_debug ("close status code: %d", status_code);
str_append_data (&reason,
parser->input.str + 2, parser->payload_len - 2);
}
char *s = iconv_xstrdup (ctx->term_from_utf8,
reason.str, reason.len, NULL);
print_status ("server closed the connection (%s)", s);
str_free (&reason);
free (s);
return backend_ws_send_control (ctx, WS_OPCODE_CLOSE,
parser->input.str, parser->payload_len);
2015-03-29 00:37:12 +01:00
}
static bool
backend_ws_on_control_frame
(struct app_context *ctx, const struct ws_parser *parser)
{
struct ws_context *self = &ctx->ws;
2015-03-29 00:37:12 +01:00
switch (parser->opcode)
{
case WS_OPCODE_CLOSE:
// We've received an unsolicited server close
if (self->state != WS_HANDLER_CLOSING)
(void) backend_ws_finish_closing_handshake (ctx, parser);
return false;
2015-03-29 00:37:12 +01:00
case WS_OPCODE_PING:
if (!backend_ws_send_control (ctx, WS_OPCODE_PONG,
parser->input.str, parser->payload_len))
return false;
2015-03-29 00:37:12 +01:00
break;
case WS_OPCODE_PONG:
// Not sending any pings but w/e
break;
default:
// Unknown control frame
return backend_ws_fail (ctx, WS_STATUS_PROTOCOL_ERROR);
2015-03-29 00:37:12 +01:00
}
return true;
}
static bool
backend_ws_on_message (struct app_context *ctx,
enum ws_opcode type, const void *data, size_t len)
{
struct ws_context *self = &ctx->ws;
2015-03-29 00:37:12 +01:00
if (type != WS_OPCODE_TEXT)
return backend_ws_fail (ctx, WS_STATUS_UNSUPPORTED_DATA);
if (!self->waiting_for_event || !self->response_buffer)
2015-03-29 00:37:12 +01:00
{
print_warning ("unexpected message received");
2015-03-29 00:37:12 +01:00
return true;
}
2015-03-29 00:37:12 +01:00
str_append_data (self->response_buffer, data, len);
ev_unloop (EV_DEFAULT_ EVUNLOOP_ONE);
return true;
}
static bool
2015-03-29 00:37:12 +01:00
backend_ws_on_frame (void *user_data, const struct ws_parser *parser)
{
2015-03-29 00:37:12 +01:00
struct app_context *ctx = user_data;
struct ws_context *self = &ctx->ws;
if (ws_is_control_frame (parser->opcode))
return backend_ws_on_control_frame (ctx, parser);
// TODO: do this rather in "on_frame_header"
if (self->message_data.len + parser->payload_len
> BACKEND_WS_MAX_PAYLOAD_LEN)
return backend_ws_fail (ctx, WS_STATUS_MESSAGE_TOO_BIG);
2015-03-29 00:37:12 +01:00
if (!self->expecting_continuation)
self->message_opcode = parser->opcode;
str_append_data (&self->message_data,
parser->input.str, parser->payload_len);
self->expecting_continuation = !parser->is_fin;
if (!parser->is_fin)
return true;
if (self->message_opcode == WS_OPCODE_TEXT
&& !utf8_validate (self->parser.input.str, self->parser.input.len))
return backend_ws_fail (ctx, WS_STATUS_INVALID_PAYLOAD_DATA);
2015-03-29 00:37:12 +01:00
bool result = backend_ws_on_message (ctx, self->message_opcode,
self->message_data.str, self->message_data.len);
str_reset (&self->message_data);
return result;
}
static void
backend_ws_on_connection_timeout (EV_P_ ev_io *handle, int revents)
{
(void) loop;
(void) revents;
struct app_context *ctx = handle->data;
struct ws_context *self = &ctx->ws;
hard_assert (self->waiting_for_event);
error_set (&self->e, "connection timeout");
backend_ws_close_connection (ctx);
}
static bool
2015-03-29 00:37:12 +01:00
backend_ws_connect (struct app_context *ctx, struct error **e)
{
2015-03-29 00:37:12 +01:00
struct ws_context *self = &ctx->ws;
bool result = false;
char *url_schema = xstrndup (self->endpoint +
self->url.field_data[UF_SCHEMA].off,
self->url.field_data[UF_SCHEMA].len);
bool use_tls = !strcasecmp_ascii (url_schema, "wss");
char *url_host = xstrndup (self->endpoint +
self->url.field_data[UF_HOST].off,
self->url.field_data[UF_HOST].len);
char *url_port = (self->url.field_set & (1 << UF_PORT))
? xstrndup (self->endpoint +
self->url.field_data[UF_PORT].off,
self->url.field_data[UF_PORT].len)
: xstrdup (use_tls ? "443" : "80");
// FIXME: should include "?UF_QUERY" as well, if present
char *url_path = xstrndup (self->endpoint +
self->url.field_data[UF_PATH].off,
self->url.field_data[UF_PATH].len);
if (!backend_ws_establish_connection (ctx, url_host, url_port, e))
goto fail_1;
if (use_tls && !backend_ws_initialize_tls (ctx, url_host, e))
2015-03-29 00:37:12 +01:00
goto fail_2;
unsigned char key[16];
if (!RAND_bytes (key, sizeof key))
{
2015-03-29 00:37:12 +01:00
error_set (e, "failed to get random bytes");
goto fail_2;
}
2015-03-29 00:37:12 +01:00
struct str key_b64;
str_init (&key_b64);
base64_encode (key, sizeof key, &key_b64);
free (self->key);
char *key_b64_string = self->key = str_steal (&key_b64);
struct str request;
str_init (&request);
str_append_printf (&request, "GET %s HTTP/1,1\r\n", url_path);
// TODO: omit the port if it's the default (check RFC for "SHOULD" or ...)
str_append_printf (&request, "Host: %s:%s\r\n", url_host, url_port);
str_append_printf (&request, "Upgrade: websocket\r\n");
str_append_printf (&request, "Connection: upgrade\r\n");
str_append_printf (&request, SEC_WS_KEY ": %s\r\n", key_b64_string);
for (size_t i = 0; i < self->extra_headers.len; i++)
str_append_printf (&request, "%s\r\n", self->extra_headers.vector[i]);
str_append_printf (&request, "\r\n");
bool written = backend_ws_write (ctx, request.str, request.len);
str_free (&request);
if (!written)
{
error_set (e, "connection failed");
goto fail_2;
}
2015-03-29 00:37:12 +01:00
http_parser_init (&self->hp, HTTP_RESPONSE);
str_reset (&self->field);
str_reset (&self->value);
str_map_clear (&self->headers);
2015-03-29 00:37:12 +01:00
ws_parser_free (&self->parser);
ws_parser_init (&self->parser);
self->parser.on_frame_header = backend_ws_on_frame_header;
self->parser.on_frame = backend_ws_on_frame;
self->parser.user_data = ctx;
2015-03-29 00:37:12 +01:00
ev_io_init (&self->read_watcher,
backend_ws_on_fd_ready, self->server_fd, EV_READ);
self->read_watcher.data = ctx;
ev_io_start (EV_DEFAULT_ &self->read_watcher);
// XXX: we should do everything non-blocking and include establishing
// the TCP connection in the timeout, but that requires a rewrite.
// As it is, this isn't really too useful.
ev_timer_init (&self->timeout_watcher,
backend_ws_on_connection_timeout, 30, 0);
// Run an event loop to process the handshake
ev_timer_start (EV_DEFAULT_ &self->timeout_watcher);
self->waiting_for_event = true;
ev_loop (EV_DEFAULT_ 0);
self->waiting_for_event = false;
ev_timer_stop (EV_DEFAULT_ &self->timeout_watcher);
2015-03-29 00:37:12 +01:00
if (self->e)
{
error_propagate (e, self->e);
self->e = NULL;
}
else
result = true;
2015-03-29 00:37:12 +01:00
fail_2:
if (!result)
{
xclose (self->server_fd);
self->server_fd = -1;
}
2015-03-29 00:37:12 +01:00
fail_1:
free (url_schema);
free (url_host);
free (url_port);
free (url_path);
return result;
}
static bool
2015-03-29 00:37:12 +01:00
backend_ws_make_call (struct app_context *ctx,
const char *request, bool expect_content, struct str *buf, struct error **e)
{
2015-03-29 00:37:12 +01:00
struct ws_context *self = &ctx->ws;
if (self->server_fd == -1)
if (!backend_ws_connect (ctx, e))
return false;
while (true)
{
2015-03-29 00:37:12 +01:00
if (backend_ws_send_message (ctx,
WS_OPCODE_TEXT, request, strlen (request)))
break;
print_status ("connection failed, reconnecting");
2015-03-29 00:37:12 +01:00
if (!backend_ws_connect (ctx, e))
return false;
}
2015-03-29 00:37:12 +01:00
if (expect_content)
{
// Run an event loop to retrieve the response
2015-03-29 00:37:12 +01:00
self->response_buffer = buf;
self->waiting_for_event = true;
ev_loop (EV_DEFAULT_ 0);
self->waiting_for_event = false;
2015-03-29 00:37:12 +01:00
self->response_buffer = NULL;
if (self->e)
{
error_propagate (e, self->e);
self->e = NULL;
return false;
}
2015-03-29 00:37:12 +01:00
}
return true;
}
static void
2015-03-29 00:37:12 +01:00
backend_ws_destroy (struct app_context *ctx)
{
struct ws_context *self = &ctx->ws;
// TODO: maybe attempt a graceful shutdown, but for that there should
// probably be another backend method that runs an event loop
if (self->server_fd != -1)
backend_ws_close_connection (ctx);
free (self->endpoint);
str_vector_free (&self->extra_headers);
if (self->e)
error_free (self->e);
ev_timer_stop (EV_DEFAULT_ &self->timeout_watcher);
if (self->ssl_ctx)
SSL_CTX_free (self->ssl_ctx);
free (self->key);
str_free (&self->field);
str_free (&self->value);
str_map_free (&self->headers);
ws_parser_free (&self->parser);
str_free (&self->message_data);
2015-03-29 00:37:12 +01:00
}
2015-03-29 00:37:12 +01:00
static struct backend_iface g_backend_ws =
{
.init = backend_ws_init,
.add_header = backend_ws_add_header,
.make_call = backend_ws_make_call,
.destroy = backend_ws_destroy,
};
2015-03-29 00:37:12 +01:00
// --- cURL backend ------------------------------------------------------------
2015-03-29 00:37:12 +01:00
static size_t
write_callback (char *ptr, size_t size, size_t nmemb, void *user_data)
{
struct str *buf = user_data;
str_append_data (buf, ptr, size * nmemb);
return size * nmemb;
}
2015-03-29 00:37:12 +01:00
static bool
validate_json_rpc_content_type (const char *content_type)
{
char *type = NULL;
char *subtype = NULL;
struct str_map parameters;
str_map_init (&parameters);
parameters.free = free;
parameters.key_xfrm = tolower_ascii_strxfrm;
bool result = http_parse_media_type
(content_type, &type, &subtype, &parameters);
if (!result)
goto end;
if (strcasecmp_ascii (type, "application")
|| (strcasecmp_ascii (subtype, "json") &&
strcasecmp_ascii (subtype, "json-rpc" /* obsolete */)))
result = false;
const char *charset = str_map_find (&parameters, "charset");
if (charset && strcasecmp_ascii (charset, "UTF-8"))
result = false;
// Currently ignoring all unknown parametrs
end:
free (type);
free (subtype);
str_map_free (&parameters);
return result;
}
2015-03-29 00:37:12 +01:00
static void
backend_curl_init (struct app_context *ctx,
const char *endpoint, struct http_parser_url *url)
{
(void) url;
curl_context_init (&ctx->curl);
CURL *curl;
if (!(ctx->curl.curl = curl = curl_easy_init ()))
exit_fatal ("cURL initialization failed");
ctx->curl.headers = NULL;
ctx->curl.headers = curl_slist_append
(ctx->curl.headers, "Content-Type: application/json");
if (curl_easy_setopt (curl, CURLOPT_POST, 1L)
|| curl_easy_setopt (curl, CURLOPT_NOPROGRESS, 1L)
|| curl_easy_setopt (curl, CURLOPT_ERRORBUFFER, ctx->curl.curl_error)
|| curl_easy_setopt (curl, CURLOPT_HTTPHEADER, ctx->curl.headers)
|| curl_easy_setopt (curl, CURLOPT_SSL_VERIFYPEER,
ctx->trust_all ? 0L : 1L)
|| curl_easy_setopt (curl, CURLOPT_SSL_VERIFYHOST,
ctx->trust_all ? 0L : 2L)
|| curl_easy_setopt (curl, CURLOPT_URL, endpoint))
exit_fatal ("cURL setup failed");
}
static void
backend_curl_add_header (struct app_context *ctx, const char *header)
{
ctx->curl.headers = curl_slist_append (ctx->curl.headers, header);
if (curl_easy_setopt (ctx->curl.curl,
CURLOPT_HTTPHEADER, ctx->curl.headers))
exit_fatal ("cURL setup failed");
}
static bool
backend_curl_make_call (struct app_context *ctx,
const char *request, bool expect_content, struct str *buf, struct error **e)
{
CURL *curl = ctx->curl.curl;
if (curl_easy_setopt (curl, CURLOPT_POSTFIELDS, request)
|| curl_easy_setopt (curl, CURLOPT_POSTFIELDSIZE_LARGE,
(curl_off_t) -1)
|| curl_easy_setopt (curl, CURLOPT_WRITEDATA, buf)
|| curl_easy_setopt (curl, CURLOPT_WRITEFUNCTION, write_callback))
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FAIL ("cURL setup failed");
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CURLcode ret;
if ((ret = curl_easy_perform (curl)))
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FAIL ("HTTP request failed: %s", ctx->curl.curl_error);
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long code;
char *type;
if (curl_easy_getinfo (curl, CURLINFO_RESPONSE_CODE, &code)
|| curl_easy_getinfo (curl, CURLINFO_CONTENT_TYPE, &type))
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FAIL ("cURL info retrieval failed");
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if (code != 200)
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FAIL ("unexpected HTTP response code: %ld", code);
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if (!expect_content)
; // Let there be anything
else if (!type)
print_warning ("missing `Content-Type' header");
else if (!validate_json_rpc_content_type (type))
print_warning ("unexpected `Content-Type' header: %s", type);
return true;
}
static void
backend_curl_destroy (struct app_context *ctx)
{
curl_slist_free_all (ctx->curl.headers);
curl_easy_cleanup (ctx->curl.curl);
}
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static struct backend_iface g_backend_curl =
{
.init = backend_curl_init,
.add_header = backend_curl_add_header,
.make_call = backend_curl_make_call,
.destroy = backend_curl_destroy,
};
// --- Main program ------------------------------------------------------------
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#define PARSE_FAIL(...) \
BLOCK_START \
print_error (__VA_ARGS__); \
goto fail; \
BLOCK_END
static bool
parse_response (struct app_context *ctx, struct str *buf)
{
json_error_t e;
json_t *response;
if (!(response = json_loadb (buf->str, buf->len, JSON_DECODE_ANY, &e)))
{
print_error ("failed to parse the response: %s", e.text);
return false;
}
bool success = false;
if (!json_is_object (response))
PARSE_FAIL ("the response is not a JSON object");
json_t *v;
if (!(v = json_object_get (response, "jsonrpc")))
print_warning ("`%s' field not present in response", "jsonrpc");
else if (!json_is_string (v) || strcmp (json_string_value (v), "2.0"))
print_warning ("invalid `%s' field in response", "jsonrpc");
json_t *result = json_object_get (response, "result");
json_t *error = json_object_get (response, "error");
json_t *data = NULL;
if (!result && !error)
PARSE_FAIL ("neither `result' nor `error' present in response");
if (result && error)
// Prohibited by the specification but happens in real life (null)
print_warning ("both `result' and `error' present in response");
if (error)
{
if (!json_is_object (error))
PARSE_FAIL ("invalid `%s' field in response", "error");
json_t *code = json_object_get (error, "code");
json_t *message = json_object_get (error, "message");
if (!code)
PARSE_FAIL ("missing `%s' field in error response", "code");
if (!message)
PARSE_FAIL ("missing `%s' field in error response", "message");
if (!json_is_integer (code))
PARSE_FAIL ("invalid `%s' field in error response", "code");
if (!json_is_string (message))
PARSE_FAIL ("invalid `%s' field in error response", "message");
json_int_t code_val = json_integer_value (code);
char *utf8 = xstrdup_printf ("error response: %" JSON_INTEGER_FORMAT
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" (%s)", code_val, json_string_value (message));
char *s = iconv_xstrdup (ctx->term_from_utf8, utf8, -1, NULL);
free (utf8);
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if (!s)
print_error ("character conversion failed for `%s'", "error");
else
printf ("%s\n", s);
free (s);
data = json_object_get (error, "data");
}
if (data)
{
char *utf8 = json_dumps (data, JSON_ENCODE_ANY);
char *s = iconv_xstrdup (ctx->term_from_utf8, utf8, -1, NULL);
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free (utf8);
if (!s)
print_error ("character conversion failed for `%s'", "error data");
else
printf ("error data: %s\n", s);
free (s);
}
if (result)
{
int flags = JSON_ENCODE_ANY;
if (ctx->pretty_print)
flags |= JSON_INDENT (2);
char *utf8 = json_dumps (result, flags);
char *s = iconv_xstrdup (ctx->term_from_utf8, utf8, -1, NULL);
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free (utf8);
if (!s)
print_error ("character conversion failed for `%s'", "result");
else
print_attributed (ctx, stdout, ATTR_INCOMING, "%s\n", s);
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free (s);
}
success = true;
fail:
json_decref (response);
return success;
}
static bool
is_valid_json_rpc_id (json_t *v)
{
return json_is_string (v) || json_is_integer (v)
|| json_is_real (v) || json_is_null (v); // These two shouldn't be used
}
static bool
is_valid_json_rpc_params (json_t *v)
{
return json_is_array (v) || json_is_object (v);
}
static void
make_json_rpc_call (struct app_context *ctx,
const char *method, json_t *id, json_t *params)
{
json_t *request = json_object ();
json_object_set_new (request, "jsonrpc", json_string ("2.0"));
json_object_set_new (request, "method", json_string (method));
if (id) json_object_set (request, "id", id);
if (params) json_object_set (request, "params", params);
char *req_utf8 = json_dumps (request, 0);
if (ctx->verbose)
{
char *req_term = iconv_xstrdup
(ctx->term_from_utf8, req_utf8, -1, NULL);
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if (!req_term)
print_error ("%s: %s", "verbose", "character conversion failed");
else
print_attributed (ctx, stdout, ATTR_OUTGOING, "%s\n", req_term);
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free (req_term);
}
struct str buf;
str_init (&buf);
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struct error *e = NULL;
if (!ctx->backend->make_call (ctx, req_utf8, id != NULL, &buf, &e))
{
print_error ("%s", e->message);
error_free (e);
goto fail;
}
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bool success = false;
if (id)
success = parse_response (ctx, &buf);
else
{
printf ("[Notification]\n");
if (buf.len)
print_warning ("we have been sent data back for a notification");
else
success = true;
}
if (!success)
{
char *s = iconv_xstrdup (ctx->term_from_utf8,
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buf.str, buf.len + 1, NULL);
if (!s)
print_error ("character conversion failed for `%s'",
"raw response data");
else
printf ("%s: %s\n", "raw response data", s);
free (s);
}
fail:
str_free (&buf);
free (req_utf8);
json_decref (request);
}
static void
process_input (struct app_context *ctx, char *user_input)
{
char *input;
size_t len;
if (!(input = iconv_xstrdup (ctx->term_to_utf8, user_input, -1, &len)))
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{
print_error ("character conversion failed for `%s'", "user input");
goto fail;
}
// Cut out the method name first
char *p = input;
while (*p && isspace_ascii (*p))
p++;
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// No input
if (!*p)
goto fail;
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char *method = p;
while (*p && !isspace_ascii (*p))
p++;
if (*p)
*p++ = '\0';
// Now we go through this madness, just so that the order can be arbitrary
json_error_t e;
size_t args_len = 0;
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json_t *args[2] = { NULL, NULL }, *id = NULL, *params = NULL;
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while (true)
{
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// Jansson is too stupid to just tell us that there was nothing;
// still genius compared to the clusterfuck of json-c
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while (*p && isspace_ascii (*p))
p++;
if (!*p)
break;
if (args_len == N_ELEMENTS (args))
{
print_error ("too many arguments");
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goto fail_parse;
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}
if (!(args[args_len] = json_loadb (p, len - (p - input),
JSON_DECODE_ANY | JSON_DISABLE_EOF_CHECK, &e)))
{
print_error ("failed to parse JSON value: %s", e.text);
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goto fail_parse;
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}
p += e.position;
args_len++;
}
for (size_t i = 0; i < args_len; i++)
{
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json_t **target;
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if (is_valid_json_rpc_id (args[i]))
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target = &id;
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else if (is_valid_json_rpc_params (args[i]))
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target = &params;
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else
{
print_error ("unexpected value at index %zu", i);
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goto fail_parse;
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}
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if (*target)
{
print_error ("cannot specify multiple `id' or `params'");
goto fail_parse;
}
*target = json_incref (args[i]);
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}
if (!id && ctx->auto_id)
id = json_integer (ctx->next_id++);
make_json_rpc_call (ctx, method, id, params);
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fail_parse:
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if (id) json_decref (id);
if (params) json_decref (params);
for (size_t i = 0; i < args_len; i++)
json_decref (args[i]);
fail:
free (input);
}
static void
on_winch (EV_P_ ev_signal *handle, int revents)
{
(void) loop;
(void) handle;
(void) revents;
// This fucks up big time on terminals with automatic wrapping such as
// rxvt-unicode or newer VTE when the current line overflows, however we
// can't do much about that
rl_resize_terminal ();
}
static void
on_readline_input (char *line)
{
// Otherwise the prompt is shown at all times
g_ctx.readline_prompt_shown = false;
if (!line)
{
ev_break (EV_DEFAULT_ EVBREAK_ALL);
// We must do this here, or the prompt gets printed twice. *shrug*
rl_callback_handler_remove ();
// Note that we don't set "readline_prompt_shown" back to true.
// This is so that we can safely do rl_callback_handler_remove when
// the program is terminated in an unusual manner (other than ^D).
return;
}
if (*line)
add_history (line);
// Stupid readline forces us to use a global variable
process_input (&g_ctx, line);
free (line);
g_ctx.readline_prompt_shown = true;
}
static void
on_tty_readable (EV_P_ ev_io *handle, int revents)
{
(void) loop;
(void) handle;
if (revents & EV_READ)
rl_callback_read_char ();
}
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static void
parse_program_arguments (struct app_context *ctx, int argc, char **argv,
char **origin, char **endpoint)
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{
static const struct opt opts[] =
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{
{ 'd', "debug", NULL, 0, "run in debug mode" },
{ 'h', "help", NULL, 0, "display this help and exit" },
{ 'V', "version", NULL, 0, "output version information and exit" },
{ 'a', "auto-id", NULL, 0, "automatic `id' fields" },
{ 'o', "origin", "O", 0, "set the HTTP Origin header" },
{ 'p', "pretty", NULL, 0, "pretty-print the responses" },
{ 't', "trust-all", NULL, 0, "don't care about SSL/TLS certificates" },
{ 'v', "verbose", NULL, 0, "print the request before sending" },
{ 'c', "color", "WHEN", OPT_LONG_ONLY,
"colorize output: never, always, or auto" },
{ 'w', "write-default-cfg", "FILENAME",
OPT_OPTIONAL_ARG | OPT_LONG_ONLY,
"write a default configuration file and exit" },
{ 0, NULL, NULL, 0, NULL }
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};
struct opt_handler oh;
opt_handler_init (&oh, argc, argv, opts,
"ENDPOINT", "Trivial JSON-RPC shell.");
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int c;
while ((c = opt_handler_get (&oh)) != -1)
switch (c)
{
case 'd':
g_debug_mode = true;
break;
case 'h':
opt_handler_usage (&oh, stdout);
exit (EXIT_SUCCESS);
case 'V':
printf (PROGRAM_NAME " " PROGRAM_VERSION "\n");
exit (EXIT_SUCCESS);
case 'o': *origin = optarg; break;
case 'a': ctx->auto_id = true; break;
case 'p': ctx->pretty_print = true; break;
case 't': ctx->trust_all = true; break;
case 'v': ctx->verbose = true; break;
case 'c':
if (!strcasecmp (optarg, "never"))
ctx->color_mode = COLOR_NEVER;
else if (!strcasecmp (optarg, "always"))
ctx->color_mode = COLOR_ALWAYS;
else if (!strcasecmp (optarg, "auto"))
ctx->color_mode = COLOR_AUTO;
else
{
print_error ("`%s' is not a valid value for `%s'", optarg, "color");
exit (EXIT_FAILURE);
}
break;
case 'w':
call_write_default_config (optarg, g_config_table);
exit (EXIT_SUCCESS);
default:
print_error ("wrong options");
opt_handler_usage (&oh, stderr);
exit (EXIT_FAILURE);
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}
argc -= optind;
argv += optind;
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if (argc != 1)
{
opt_handler_usage (&oh, stderr);
2014-09-07 02:20:49 +02:00
exit (EXIT_FAILURE);
}
*endpoint = argv[0];
opt_handler_free (&oh);
}
int
main (int argc, char *argv[])
{
str_map_init (&g_ctx.config);
g_ctx.config.free = free;
char *origin = NULL;
char *endpoint = NULL;
parse_program_arguments (&g_ctx, argc, argv, &origin, &endpoint);
init_colors (&g_ctx);
load_config (&g_ctx);
2015-03-29 00:37:12 +01:00
struct http_parser_url url;
if (http_parser_parse_url (endpoint, strlen (endpoint), false, &url))
exit_fatal ("invalid endpoint address");
if (!(url.field_set & (1 << UF_SCHEMA)))
exit_fatal ("invalid endpoint address, must contain the schema");
char *url_schema = xstrndup (endpoint +
url.field_data[UF_SCHEMA].off,
url.field_data[UF_SCHEMA].len);
if (!strcasecmp_ascii (url_schema, "http")
|| !strcasecmp_ascii (url_schema, "https"))
g_ctx.backend = &g_backend_curl;
else if (!strcasecmp_ascii (url_schema, "ws")
|| !strcasecmp_ascii (url_schema, "wss"))
{
print_warning ("WebSocket support is experimental"
" and most likely completely broken");
2015-03-29 00:37:12 +01:00
g_ctx.backend = &g_backend_ws;
}
2015-03-29 00:37:12 +01:00
else
exit_fatal ("unsupported protocol");
2014-09-07 02:20:49 +02:00
2015-03-29 00:37:12 +01:00
free (url_schema);
2014-09-07 02:20:49 +02:00
2015-03-29 00:37:12 +01:00
g_ctx.backend->init (&g_ctx, endpoint, &url);
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if (origin)
{
origin = xstrdup_printf ("Origin: %s", origin);
2015-03-29 00:37:12 +01:00
g_ctx.backend->add_header (&g_ctx, origin);
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}
// We only need to convert to and from the terminal encoding
setlocale (LC_CTYPE, "");
char *encoding = nl_langinfo (CODESET);
#ifdef __linux__
// XXX: not quite sure if this is actually desirable
// TODO: instead retry with JSON_ENSURE_ASCII
encoding = xstrdup_printf ("%s//TRANSLIT", encoding);
2014-09-07 02:20:49 +02:00
#endif // __linux__
if ((g_ctx.term_from_utf8 = iconv_open (encoding, "UTF-8"))
2014-09-07 02:20:49 +02:00
== (iconv_t) -1
|| (g_ctx.term_to_utf8 = iconv_open ("UTF-8", nl_langinfo (CODESET)))
2014-09-07 02:20:49 +02:00
== (iconv_t) -1)
exit_fatal ("creating the UTF-8 conversion object failed: %s",
strerror (errno));
char *data_home = getenv ("XDG_DATA_HOME"), *home = getenv ("HOME");
if (!data_home || *data_home != '/')
{
if (!home)
exit_fatal ("where is your $HOME, kid?");
data_home = xstrdup_printf ("%s/.local/share", home);
2014-09-07 02:20:49 +02:00
}
using_history ();
stifle_history (HISTORY_LIMIT);
char *history_path =
xstrdup_printf ("%s/" PROGRAM_NAME "/history", data_home);
2014-09-07 02:20:49 +02:00
(void) read_history (history_path);
if (!get_attribute_printer (stdout))
g_ctx.readline_prompt = xstrdup_printf ("json-rpc> ");
else
{
// XXX: to be completely correct, we should use tputs, but we cannot
const char *prompt_attrs = str_map_find (&g_ctx.config, ATTR_PROMPT);
const char *reset_attrs = str_map_find (&g_ctx.config, ATTR_RESET);
g_ctx.readline_prompt = xstrdup_printf ("%c%s%cjson-rpc> %c%s%c",
RL_PROMPT_START_IGNORE, prompt_attrs, RL_PROMPT_END_IGNORE,
RL_PROMPT_START_IGNORE, reset_attrs, RL_PROMPT_END_IGNORE);
}
2014-09-07 02:20:49 +02:00
2015-03-29 00:37:12 +01:00
// So that if the remote end closes the connection, attempts to write to
// the socket don't terminate the program
(void) signal (SIGPIPE, SIG_IGN);
// readline 6.3 doesn't immediately redraw the terminal upon reception
// of SIGWINCH, so we must run it in an event loop to remediate that
struct ev_loop *loop = EV_DEFAULT;
if (!loop)
exit_fatal ("libev initialization failed");
2014-09-07 02:20:49 +02:00
ev_signal winch_watcher;
ev_io tty_watcher;
ev_signal_init (&winch_watcher, on_winch, SIGWINCH);
ev_signal_start (EV_DEFAULT_ &winch_watcher);
ev_io_init (&tty_watcher, on_tty_readable, STDIN_FILENO, EV_READ);
ev_io_start (EV_DEFAULT_ &tty_watcher);
rl_catch_sigwinch = false;
g_ctx.readline_prompt_shown = true;
rl_callback_handler_install (g_ctx.readline_prompt, on_readline_input);
ev_run (loop, 0);
if (g_ctx.readline_prompt_shown)
rl_callback_handler_remove ();
putchar ('\n');
2014-09-07 02:20:49 +02:00
// User has terminated the program, let's save the history and clean up
char *dir = xstrdup (history_path);
(void) mkdir_with_parents (dirname (dir), NULL);
2014-09-07 02:20:49 +02:00
free (dir);
if (write_history (history_path))
print_error ("writing the history file `%s' failed: %s",
history_path, strerror (errno));
free (history_path);
iconv_close (g_ctx.term_from_utf8);
iconv_close (g_ctx.term_to_utf8);
2015-03-29 00:37:12 +01:00
g_ctx.backend->destroy (&g_ctx);
2014-09-07 02:20:49 +02:00
free (origin);
free (g_ctx.readline_prompt);
str_map_free (&g_ctx.config);
free_terminal ();
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ev_loop_destroy (loop);
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return EXIT_SUCCESS;
}