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code.c
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code.c
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/*
* Copyright 2013 Google Inc.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*/
/*
* Author: [email protected] (Neal Cardwell)
*
* Implementation for a module to write out post-processing code that
* can run custom programmatic analyses and constraint verification.
*/
#include "code.h"
#include <errno.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <string.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include "assert.h"
#include "run.h"
#include "tcp.h"
/* We emit the following Python preamble at the top of the output
* Python code. It defines a custom exception hook so that when an
* exception is raised (such as a failed assertion) we print the file
* name and line number of the code snippet in the original test
* script that caused the error, not just the file name and line
* number in the generated Python file (which will be meaningless or
* confusing to the user).
*/
const char python_preamble[] =
"import sys\n"
"import traceback\n"
"def excepthook(etype, value, tb):\n"
" sys.stderr.write(\"%s:%d: error in Python code\\n\" %\n"
" (_file, _line))\n"
" traceback.print_exception(etype, value, tb)\n"
"\n"
"sys.excepthook = excepthook\n"
"\n";
/* Write out the standard utility routines useful for a given language. */
static void write_preamble(struct code_state *code)
{
assert(code->format > FORMAT_NONE);
assert(code->format < FORMAT_NUM_TYPES);
switch (code->format) {
case FORMAT_NONE:
case FORMAT_NUM_TYPES:
assert(!"bad code format type");
case FORMAT_PYTHON:
fprintf(code->file, "%s\n", python_preamble);
break;
/* omitting default so compiler catches missing cases */
}
}
#if HAVE_TCP_INFO
/* Write out a formatted text representation of an assignment of the
* given value to the given named variable.
*/
static void emit_var(struct code_state *code, const char *name, u64 value)
{
assert(code->format > FORMAT_NONE);
assert(code->format < FORMAT_NUM_TYPES);
switch (code->format) {
case FORMAT_NONE:
case FORMAT_NUM_TYPES:
assert(!"bad code format type");
case FORMAT_PYTHON:
fprintf(code->file, "%s = %llu\n", name, value);
break;
/* omitting default so compiler catches missing cases */
}
}
/* Write out a newline to terminate a sequence of variable assignments */
static void emit_var_end(struct code_state *code)
{
fprintf(code->file, "\n");
}
/* Write out a formatted representation of useful symbolic names. */
static void write_symbols(struct code_state *code)
{
#ifdef linux
/* Emit symbolic names for tcpi_state values. */
emit_var(code, "TCP_ESTABLISHED", TCP_ESTABLISHED);
emit_var(code, "TCP_SYN_SENT", TCP_SYN_SENT);
emit_var(code, "TCP_SYN_RECV", TCP_SYN_RECV);
emit_var(code, "TCP_FIN_WAIT1", TCP_FIN_WAIT1);
emit_var(code, "TCP_FIN_WAIT2", TCP_FIN_WAIT2);
emit_var(code, "TCP_TIME_WAIT", TCP_TIME_WAIT);
emit_var(code, "TCP_CLOSE", TCP_CLOSE);
emit_var(code, "TCP_CLOSE_WAIT", TCP_CLOSE_WAIT);
emit_var(code, "TCP_LAST_ACK", TCP_LAST_ACK);
emit_var(code, "TCP_LISTEN", TCP_LISTEN);
emit_var(code, "TCP_CLOSING", TCP_CLOSING);
/* Emit symbolic names for tcpi_ca_state values. */
emit_var(code, "TCP_CA_Open", TCP_CA_Open);
emit_var(code, "TCP_CA_Disorder", TCP_CA_Disorder);
emit_var(code, "TCP_CA_CWR", TCP_CA_CWR);
emit_var(code, "TCP_CA_Recovery", TCP_CA_Recovery);
emit_var(code, "TCP_CA_Loss", TCP_CA_Loss);
#endif /* linux */
/* tcpi_options flags */
#ifdef linux
emit_var(code, "TCPI_OPT_TIMESTAMPS", TCPI_OPT_TIMESTAMPS);
emit_var(code, "TCPI_OPT_WSCALE", TCPI_OPT_WSCALE);
emit_var(code, "TCPI_OPT_ECN", TCPI_OPT_ECN);
emit_var(code, "TCPI_OPT_SYN_DATA", TCPI_OPT_SYN_DATA);
#endif /* linux */
}
#endif /* HAVE_TCP_INFO */
#ifdef linux
/* Write out a formatted representation of the given tcp_info buffer. */
static void write_tcp_info(struct code_state *code,
const struct _tcp_info *info,
int len)
{
assert(len >= sizeof(struct _tcp_info));
write_symbols(code);
/* Emit the recorded values of tcpi_foo values. */
emit_var(code, "tcpi_state", info->tcpi_state);
emit_var(code, "tcpi_ca_state", info->tcpi_ca_state);
emit_var(code, "tcpi_retransmits", info->tcpi_retransmits);
emit_var(code, "tcpi_probes", info->tcpi_probes);
emit_var(code, "tcpi_backoff", info->tcpi_backoff);
emit_var(code, "tcpi_options", info->tcpi_options);
emit_var(code, "tcpi_snd_wscale", info->tcpi_snd_wscale);
emit_var(code, "tcpi_rcv_wscale", info->tcpi_rcv_wscale);
emit_var(code, "tcpi_delivery_rate_app_limited",
info->tcpi_delivery_rate_app_limited);
emit_var(code, "tcpi_rto", info->tcpi_rto);
emit_var(code, "tcpi_ato", info->tcpi_ato);
emit_var(code, "tcpi_snd_mss", info->tcpi_snd_mss);
emit_var(code, "tcpi_rcv_mss", info->tcpi_rcv_mss);
emit_var(code, "tcpi_unacked", info->tcpi_unacked);
emit_var(code, "tcpi_sacked", info->tcpi_sacked);
emit_var(code, "tcpi_lost", info->tcpi_lost);
emit_var(code, "tcpi_retrans", info->tcpi_retrans);
emit_var(code, "tcpi_fackets", info->tcpi_fackets);
emit_var(code, "tcpi_last_data_sent", info->tcpi_last_data_sent);
emit_var(code, "tcpi_last_ack_sent", info->tcpi_last_ack_sent);
emit_var(code, "tcpi_last_data_recv", info->tcpi_last_data_recv);
emit_var(code, "tcpi_last_ack_recv", info->tcpi_last_ack_recv);
emit_var(code, "tcpi_pmtu", info->tcpi_pmtu);
emit_var(code, "tcpi_rcv_ssthresh", info->tcpi_rcv_ssthresh);
emit_var(code, "tcpi_rtt", info->tcpi_rtt);
emit_var(code, "tcpi_rttvar", info->tcpi_rttvar);
emit_var(code, "tcpi_snd_ssthresh", info->tcpi_snd_ssthresh);
emit_var(code, "tcpi_snd_cwnd", info->tcpi_snd_cwnd);
emit_var(code, "tcpi_advmss", info->tcpi_advmss);
emit_var(code, "tcpi_reordering", info->tcpi_reordering);
emit_var(code, "tcpi_total_retrans", info->tcpi_total_retrans);
emit_var(code, "tcpi_pacing_rate", info->tcpi_pacing_rate);
emit_var(code, "tcpi_max_pacing_rate", info->tcpi_max_pacing_rate);
emit_var(code, "tcpi_rcv_rtt", info->tcpi_rcv_rtt);
emit_var(code, "tcpi_rcv_space", info->tcpi_rcv_space);
emit_var(code, "tcpi_bytes_acked", info->tcpi_bytes_acked);
emit_var(code, "tcpi_bytes_received", info->tcpi_bytes_received);
emit_var(code, "tcpi_segs_out", info->tcpi_segs_out);
emit_var(code, "tcpi_segs_in", info->tcpi_segs_in);
emit_var(code, "tcpi_notsent_bytes", info->tcpi_notsent_bytes);
emit_var(code, "tcpi_min_rtt", info->tcpi_min_rtt);
emit_var(code, "tcpi_data_segs_in", info->tcpi_data_segs_in);
emit_var(code, "tcpi_data_segs_out", info->tcpi_data_segs_out);
emit_var(code, "tcpi_delivery_rate", info->tcpi_delivery_rate);
emit_var(code, "tcpi_busy_time", info->tcpi_busy_time);
emit_var(code, "tcpi_rwnd_limited", info->tcpi_rwnd_limited);
emit_var(code, "tcpi_sndbuf_limited", info->tcpi_sndbuf_limited);
emit_var_end(code);
}
/* Write out a formatted representation of the given _tcp_bbr_info buffer. */
static void write_tcp_bbr_cc_info(struct code_state *code,
const union _tcp_cc_info *info,
int len)
{
struct _tcp_bbr_info *b = (struct _tcp_bbr_info *)info;
u64 bw;
/* Check for fields in initial BBR release: */
if (len < (offsetof(struct _tcp_bbr_info, bbr_cwnd_gain) +
sizeof(b->bbr_cwnd_gain)))
return;
emit_var(code, "bbr_bw_lo", b->bbr_bw_lo);
emit_var(code, "bbr_bw_hi", b->bbr_bw_hi);
/* "bbr_bw" is made up for convenience */
bw = ((u64)b->bbr_bw_hi << 32) + b->bbr_bw_lo;
emit_var(code, "bbr_bw", bw);
emit_var(code, "bbr_min_rtt", b->bbr_min_rtt);
emit_var(code, "bbr_pacing_gain", b->bbr_pacing_gain);
emit_var(code, "bbr_cwnd_gain", b->bbr_cwnd_gain);
}
/* Write out a formatted representation of the given _tcp_dctcp_info buffer. */
static void write_tcp_dctcp_cc_info(struct code_state *code,
const union _tcp_cc_info *info,
int len)
{
struct _tcp_dctcp_info *d = (struct _tcp_dctcp_info *)info;
if (len < (offsetof(struct _tcp_dctcp_info, dctcp_ab_tot) +
sizeof(d->dctcp_ab_tot)))
return;
emit_var(code, "dctcp_enabled", d->dctcp_enabled);
emit_var(code, "dctcp_ce_state", d->dctcp_ce_state);
emit_var(code, "dctcp_alpha", d->dctcp_alpha);
emit_var(code, "dctcp_ab_ecn", d->dctcp_ab_ecn);
emit_var(code, "dctcp_ab_tot", d->dctcp_ab_tot);
}
/* Write out a formatted representation of the given _tcpvegas_info buffer. */
static void write_tcp_vegas_cc_info(struct code_state *code,
const union _tcp_cc_info *info,
int len)
{
struct _tcpvegas_info *v = (struct _tcpvegas_info *)info;
if (len < (offsetof(struct _tcpvegas_info, tcpv_minrtt) +
sizeof(v->tcpv_minrtt)))
return;
emit_var(code, "tcpv_enabled", v->tcpv_enabled);
emit_var(code, "tcpv_rttcnt", v->tcpv_rttcnt);
emit_var(code, "tcp_rtt", v->tcpv_rtt);
emit_var(code, "tcp_minrtt", v->tcpv_minrtt);
}
/* Write out a formatted representation of the given tcp_cc_info buffer. */
static void write_tcp_cc_info(struct code_state *code,
const union _tcp_cc_info *info,
int len)
{
/* getsockopt returns 0 len info if C.C. does not support the opt */
write_tcp_bbr_cc_info(code, info, len);
write_tcp_dctcp_cc_info(code, info, len);
write_tcp_vegas_cc_info(code, info, len);
emit_var_end(code);
}
/* Write out a formatted representation of the given mem_info buffer. */
static void write_so_meminfo(struct code_state *code,
const u32 *mem_info,
int len)
{
assert(len >= sizeof(u32) * _SK_MEMINFO_VARS);
emit_var(code, "SK_MEMINFO_RMEM_ALLOC", mem_info[_SK_MEMINFO_RMEM_ALLOC]);
emit_var(code, "SK_MEMINFO_RCVBUF", mem_info[_SK_MEMINFO_RCVBUF]);
emit_var(code, "SK_MEMINFO_WMEM_ALLOC", mem_info[_SK_MEMINFO_WMEM_ALLOC]);
emit_var(code, "SK_MEMINFO_SNDBUF", mem_info[_SK_MEMINFO_SNDBUF]);
emit_var(code, "SK_MEMINFO_FWD_ALLOC", mem_info[_SK_MEMINFO_FWD_ALLOC]);
emit_var(code, "SK_MEMINFO_WMEM_QUEUED", mem_info[_SK_MEMINFO_WMEM_QUEUED]);
emit_var(code, "SK_MEMINFO_OPTMEM", mem_info[_SK_MEMINFO_OPTMEM]);
emit_var(code, "SK_MEMINFO_BACKLOG", mem_info[_SK_MEMINFO_BACKLOG]);
emit_var(code, "SK_MEMINFO_DROPS", mem_info[_SK_MEMINFO_DROPS]);
emit_var_end(code);
}
#endif /* linux */
#if defined(__FreeBSD__)
/* Write out a formatted representation of the given tcp_info buffer. */
static void write_tcp_info(struct code_state *code,
const struct _tcp_info *info,
int len)
{
assert(len >= sizeof(struct _tcp_info));
write_symbols(code);
/* Emit the recorded values of tcpi_foo values. */
emit_var(code, "tcpi_state", info->tcpi_state);
emit_var(code, "tcpi_options", info->tcpi_options);
emit_var(code, "tcpi_snd_wscale", info->tcpi_snd_wscale);
emit_var(code, "tcpi_rcv_wscale", info->tcpi_rcv_wscale);
emit_var(code, "tcpi_rto", info->tcpi_rto);
emit_var(code, "tcpi_snd_mss", info->tcpi_snd_mss);
emit_var(code, "tcpi_rcv_mss", info->tcpi_rcv_mss);
emit_var(code, "tcpi_last_data_recv", info->tcpi_last_data_recv);
emit_var(code, "tcpi_rtt", info->tcpi_rtt);
emit_var(code, "tcpi_rttvar", info->tcpi_rttvar);
emit_var(code, "tcpi_snd_ssthresh", info->tcpi_snd_ssthresh);
emit_var(code, "tcpi_snd_cwnd", info->tcpi_snd_cwnd);
emit_var(code, "tcpi_rcv_space", info->tcpi_rcv_space);
/* FreeBSD extensions to tcp_info. */
emit_var(code, "tcpi_snd_wnd", info->tcpi_snd_wnd);
emit_var(code, "tcpi_snd_bwnd", info->tcpi_snd_bwnd);
emit_var(code, "tcpi_snd_nxt", info->tcpi_snd_nxt);
emit_var(code, "tcpi_rcv_nxt", info->tcpi_rcv_nxt);
emit_var(code, "tcpi_toe_tid", info->tcpi_toe_tid);
emit_var(code, "tcpi_snd_rexmitpack", info->tcpi_snd_rexmitpack);
emit_var(code, "tcpi_rcv_ooopack", info->tcpi_rcv_ooopack);
emit_var(code, "tcpi_snd_zerowin", info->tcpi_snd_zerowin);
emit_var_end(code);
}
#endif /* __FreeBSD__ */
/* Allocate a new empty struct code_text struct. */
static struct code_text *text_new(void)
{
struct code_text *text = calloc(1, sizeof(struct code_text));
return text;
}
/* Free the given text struct and all storage to which it points. */
static void text_free(struct code_text *text)
{
free(text->text);
free(text->file_name);
free(text);
}
/* Allocate a new empty struct code_data struct. */
static struct code_data *data_new(void)
{
struct code_data *data = calloc(1, sizeof(struct code_data));
return data;
}
/* Free the given data and all storage to which it points. */
static void data_free(struct code_data *data)
{
free(data->buffer);
free(data);
}
/* Allocate a new empty fragment. */
static struct code_fragment *fragment_new(void)
{
struct code_fragment *fragment =
calloc(1, sizeof(struct code_fragment));
return fragment;
}
/* Free the given fragment and all storage to which it points. */
static void fragment_free(struct code_fragment *fragment)
{
assert(fragment->type > FRAGMENT_NONE);
assert(fragment->type < FRAGMENT_NUM_TYPES);
switch (fragment->type) {
case FRAGMENT_NONE:
case FRAGMENT_NUM_TYPES:
assert(!"bad code fragment type");
break;
case FRAGMENT_TEXT:
text_free(fragment->contents.text);
break;
case FRAGMENT_DATA:
data_free(fragment->contents.data);
break;
/* omitting default so compiler catches missing cases */
}
free(fragment);
}
/* Write out the text to the given file. */
static void write_text(struct code_state *code, struct code_text *text)
{
assert(code->format > FORMAT_NONE);
assert(code->format < FORMAT_NUM_TYPES);
switch (code->format) {
case FORMAT_NONE:
case FORMAT_NUM_TYPES:
assert(!"bad code format type");
case FORMAT_PYTHON:
fprintf(code->file,
"_file = '%s'\n"
"_line = %d\n"
"%s\n\n",
text->file_name, text->line_number, text->text);
break;
/* omitting default so compiler catches missing cases */
}
}
/* Write out a textual representation of the data to the given file. */
static void write_data(struct code_state *code, struct code_data *data)
{
assert(data->type > DATA_NONE);
assert(data->type < DATA_NUM_TYPES);
switch (data->type) {
case DATA_NONE:
case DATA_NUM_TYPES:
assert(!"bad data type");
break;
#if HAVE_TCP_INFO
case DATA_TCP_INFO:
write_tcp_info(code, data->buffer, data->len);
break;
#endif /* HAVE_TCP_INFO */
#if HAVE_TCP_CC_INFO
case DATA_TCP_CC_INFO:
write_tcp_cc_info(code, data->buffer, data->len);
break;
#endif /* HAVE_TCP_CC_INFO */
#if HAVE_SO_MEMINFO
case DATA_SO_MEMINFO:
write_so_meminfo(code, data->buffer, data->len);
break;
#endif /* HAVE_SO_MEMINFO */
/* omitting default so compiler catches missing cases */
}
}
/* Write out a textual representation of the fragment to the given file. */
static void write_fragment(struct code_state *code,
struct code_fragment *fragment)
{
assert(fragment->type > FRAGMENT_NONE);
assert(fragment->type < FRAGMENT_NUM_TYPES);
switch (fragment->type) {
case FRAGMENT_NONE:
case FRAGMENT_NUM_TYPES:
assert(!"bad code fragment type");
break;
case FRAGMENT_TEXT:
write_text(code, fragment->contents.text);
break;
case FRAGMENT_DATA:
write_data(code, fragment->contents.data);
break;
/* omitting default so compiler catches missing cases */
}
}
/* Format and write out all the code fragments. */
static void write_all_fragments(struct code_state *code)
{
struct code_fragment *fragment = NULL;
for (fragment = code->list_head; fragment != NULL;
fragment = fragment->next) {
write_fragment(code, fragment);
}
}
/* Append the code fragment to the end of the list of code fragments. */
static void append_fragment(struct code_state *code,
struct code_fragment *fragment)
{
*(code->list_tail) = fragment;
code->list_tail = &(fragment->next);
}
/* Append a literal ASCII text code snippet that we should emit.
* Takes ownership of the malloc-allocated text memory and frees it.
*/
static void append_text(struct code_state *code,
const char *file_name, int line_number,
char *text_buffer)
{
struct code_text *text = text_new();
text->text = text_buffer;
text->file_name = strdup(file_name);
text->line_number = line_number;
struct code_fragment *fragment = fragment_new();
fragment->type = FRAGMENT_TEXT;
fragment->contents.text = text;
append_fragment(code, fragment);
}
/* Append a live binary buffer that we should translate into the
* format configured earlier by the user for this script.
* Takes ownership of the malloc-allocated buffer and frees it.
*/
static void append_data(struct code_state *code, enum code_data_t data_type,
void *data_buffer, int data_len)
{
struct code_data *data = data_new();
data->buffer = data_buffer;
data->type = data_type;
data->len = data_len;
struct code_fragment *fragment = fragment_new();
fragment->type = FRAGMENT_DATA;
fragment->contents.data = data;
append_fragment(code, fragment);
}
struct code_state *code_new(struct config *config)
{
struct code_state *code = calloc(1, sizeof(struct code_state));
/* Set up the pointer to the tail of the empty linked list. */
code->list_tail = &(code->list_head);
if (strcmp(config->code_format, "python") == 0)
code->format = FORMAT_PYTHON;
else
die("unsupported --code_format '%s'\n", config->code_format);
/* See which getsockopt we should use to get data for our code. */
if (strcmp(config->code_sockopt, "") == 0) {
code->data_type = DATA_NONE; /* auto-detect */
#if HAVE_TCP_INFO
} else if (strcmp(config->code_sockopt, "TCP_INFO") == 0) {
code->data_type = DATA_TCP_INFO;
#endif
#if HAVE_TCP_CC_INFO
} else if (strcmp(config->code_sockopt, "TCP_CC_INFO") == 0) {
code->data_type = DATA_TCP_CC_INFO;
#endif /* HAVE_TCP_CC_INFO */
#if HAVE_SO_MEMINFO
} else if (strcmp(config->code_sockopt, "SO_MEMINFO") == 0) {
code->data_type = DATA_SO_MEMINFO;
#endif /* HAVE_SO_MEMINFO */
} else {
die("unsupported --code_sockopt '%s'\n", config->code_sockopt);
}
code->command_line = strdup(config->code_command_line);
code->verbose = config->verbose;
return code;
}
void code_free(struct code_state *code)
{
if (code->command_line != NULL)
free(code->command_line);
if (code->path != NULL)
free(code->path);
/* Free all the code fragments. */
struct code_fragment *fragment = code->list_head;
while (fragment != NULL) {
struct code_fragment *dead_fragment = fragment;
fragment = fragment->next;
fragment_free(dead_fragment);
}
memset(code, 0, sizeof(*code)); /* paranoia to help catch bugs */
free(code);
}
/* Write all the code fragments to a newly-chosen temporary file and
* store the name of the file in code->path.
*/
static void write_code_file(struct code_state *code)
{
/* mkstemp will fill this in with the actual unique path name. */
char path_template[] = "/tmp/code_XXXXXX";
int code_fd = mkstemp(path_template);
if (code_fd < 0)
die_perror("error making temp output file for code: mkstemp");
assert(code->path == NULL);
code->path = strdup(path_template);
code->file = fdopen(code_fd, "w");
if (code->file == NULL)
die_perror("error opening temp output file for code: fdopen");
write_preamble(code);
write_all_fragments(code);
if (fclose(code->file) != 0)
die_perror("error closing temp output file for code: fclose");
code->file = NULL;
}
/* Execute the code in the file at code->path by executing the
* configured command line. On success, returns STATUS_OK. On error
* returns STATUS_ERR and fills in *error.
*/
static int execute_code_command_line(struct code_state *code, char **error)
{
int result = STATUS_ERR; /* return value */
char *full_command_line = NULL;
asprintf(&full_command_line, "%s %s", code->command_line, code->path);
/* For verbose debugging we dump the full output file. */
if (code->verbose) {
char *verbose_command_line = NULL;
asprintf(&verbose_command_line, "cat %s", code->path);
system(verbose_command_line);
free(verbose_command_line);
printf("running: '%s'\n", full_command_line);
}
int status = system(full_command_line);
if (status == -1) {
asprintf(error, "error running '%s' with system(3): %s",
code->command_line, strerror(errno));
goto out;
}
if (WIFSIGNALED(status) &&
(WTERMSIG(status) == SIGINT || WTERMSIG(status) == SIGQUIT)) {
asprintf(error, "'%s' got signal %d (%s)",
code->command_line,
WTERMSIG(status), strsignal(WTERMSIG(status)));
goto out;
}
if (WEXITSTATUS(status) != 0) {
asprintf(error, "'%s' returned non-zero status %d",
code->command_line, WEXITSTATUS(status));
goto out;
}
result = STATUS_OK;
out:
free(full_command_line);
return result;
}
/* Delete the temporary file at code->path. */
static void delete_code_file(struct code_state *code)
{
if ((code->path != NULL) && (unlink(code->path) != 0))
die_perror("error deleting code file: unlink:");
}
/* Write out the code to a file, execute the code, and delete the file. */
int code_execute(struct code_state *code, char **error)
{
if (code->list_head == NULL)
return STATUS_OK; /* no code to execute */
write_code_file(code);
int result = execute_code_command_line(code, error);
delete_code_file(code);
return result;
}
/* Run a getsockopt for the given fd to grab data of the given type.
* On success, return a pointer the filled-in buffer (allocated by malloc);
* on failure, return NULL.
*/
static void *get_data(struct state *state, struct event *event,
int fd, enum code_data_t data_type, int *len)
{
int opt_name = 0;
int data_len = 0;
int level;
assert(data_type > DATA_NONE);
assert(data_type < DATA_NUM_TYPES);
switch (data_type) {
case DATA_NONE:
case DATA_NUM_TYPES:
assert(!"bad data type");
break;
#if HAVE_TCP_INFO
case DATA_TCP_INFO:
opt_name = TCP_INFO;
data_len = sizeof(struct _tcp_info);
level = SOL_TCP;
break;
#endif /* HAVE_TCP_INFO */
#if HAVE_TCP_CC_INFO
case DATA_TCP_CC_INFO:
opt_name = TCP_CC_INFO;
data_len = sizeof(union _tcp_cc_info);
level = SOL_TCP;
break;
#endif /* HAVE_TCP_CC_INFO */
#if HAVE_SO_MEMINFO
case DATA_SO_MEMINFO:
opt_name = SO_MEMINFO;
data_len = sizeof(u32) * _SK_MEMINFO_VARS;
level = SOL_SOCKET;
break;
#endif /* HAVE_SO_MEMINFO */
/* omitting default so compiler catches missing cases */
}
assert(opt_name != 0);
assert(data_len > 0);
socklen_t opt_len = data_len;
void *data = calloc(1, data_len);
int result = getsockopt(fd, level, opt_name, data, &opt_len);
if (result < 0) {
free(data);
return NULL;
}
*len = opt_len;
return data;
}
void run_code_event(struct state *state, struct event *event,
const char *text)
{
DEBUGP("%d: run code event\n", event->line_number);
char *error = NULL;
/* Wait for the right time before firing off this event. */
wait_for_event(state);
if (state->socket_under_test == NULL) {
asprintf(&error, "no socket to use for code");
goto error_out;
}
int fd = state->socket_under_test->fd.live_fd;
struct code_state *code = state->code;
void *data = NULL;
void *data_ext = NULL;
void *data_meminfo = NULL;
int data_len = 0;
#if HAVE_TCP_INFO
code->data_type = DATA_TCP_INFO;
data = get_data(state, event, fd, code->data_type, &data_len);
if (data)
append_data(code, code->data_type, data, data_len);
#endif /* HAVE_TCP_INFO */
if (data == NULL && data_ext == NULL) {
asprintf(&error,
"can't find getsockopt to get TCP info");
goto error_out;
}
#if HAVE_TCP_CC_INFO
code->data_type = DATA_TCP_CC_INFO;
data = get_data(state, event, fd, code->data_type, &data_len);
if (data) {
append_data(code, code->data_type, data, data_len);
} else {
asprintf(&error,
"can't find getsockopt to get TCP_CC_INFO");
goto error_out;
}
#endif /* HAVE_TCP_CC_INFO */
#if HAVE_SO_MEMINFO
code->data_type = DATA_SO_MEMINFO;
data_meminfo = get_data(state, event, fd, code->data_type, &data_len);
if (data_meminfo)
append_data(code, code->data_type, data_meminfo, data_len);
if (data_meminfo == NULL) {
asprintf(&error,
"can't find getsockopt to get sk_meminfo");
goto error_out;
}
#endif
append_text(code, state->config->script_path, event->line_number,
strdup(text));
return;
error_out:
die("%s:%d: runtime error in code: %s\n",
state->config->script_path, event->line_number, error);
free(error);
}