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hash.c
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hash.c
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#include <stdio.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <sys/time.h>
#include <string.h>
#include "utils.h"
#include "mysqlpcap.h"
#include "protocol.h"
#include "hash.h"
#include "log.h"
#define INITIAL_HASH_SZ 16427
#define MAX_LOAD_PERCENT 65
#define SQL_MAX_LEN 8192
#define VALUE_MAX_LEN 1024
/* 1: receive auth packet 2: recieve ok packet start work */
struct session {
uint32_t laddr, raddr;
uint16_t lport, rport;
struct timeval tv;
char *sql; // maxsize SQL_MAX_LEN
uint32_t sqlSaveLen;
char *user;
char *db;
int cmd;
enum SessionStatus status;
uchar *lastData;
size_t lastDataSize;
ulong lastNum;
enum ProtoStage ps; /* 0 is handle field_number, 1 is eof step, 2 is resultset step */
uint32_t tcp_seq;
struct session *next;
ulong stmt_id;
char is_long_data; /* if this flag, no parse_param, TODO next version */
int param_count;
/* each param count 2 bytes */
void *param_type;
char *param;
};
struct hash {
struct session *sessions;
unsigned long sz, count;
};
typedef void (*funcp)(struct hash *hash, struct session *session, void *arg);
static int hash_loop(struct hash *hash, funcp func, void *arg);
static void funcp_print(struct hash *hash, struct session *session, void *arg) {
dump(L_OK, "user:%s-sql:%s %u %u %u %u %u %d %c", session->next->user, session->next->sql,
session->next->tv.tv_sec, session->next->lport, session->next->rport,
session->next->laddr, session->next->raddr, session->next->status, session->next->ps);
}
static void funcp_del(struct hash *hash, struct session *session, void *arg) {
ASSERT(session->next);
struct session *next = session->next->next;
if (session->next->sql) {
free(session->next->sql);
session->next->sql = NULL;
}
if (session->next->user) {
free(session->next->user);
session->next->user = NULL;
}
if (session->next->db) {
free(session->next->db);
session->next->db = NULL;
}
if (session->next->param) {
free(session->next->param);
session->next->param = NULL;
}
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL;
}
if (session->next->lastData) {
free(session->next->lastData);
session->next->lastData = NULL;
}
free(session->next);
session->next = next;
hash->count--;
}
struct Arg {time_t now; int idle_time;};
static void funcp_check_count(struct hash *hash, struct session *session, void *i) {
int *i2 = (int*)i;
(*i2)++;
}
/* hash record will delete if idle time longer than 300s */
static void funcp_delete_idle(struct hash *hash, struct session *session, void *arg) {
/* arg */
struct Arg *a = arg;
time_t now = a->now;
int idle_time = a->idle_time;
time_t tv_t;
tv_t = session->next->tv.tv_sec;
/* compare */
if ( (now - tv_t) >= idle_time) {
dump(L_OK, "del this slot [user:%s db:%s]", session->next->user, session->next->db);
funcp_del(hash, session, NULL);
}
}
void hash_clean(struct hash* hash) {
hash_loop(hash, funcp_del, NULL);
hash_del(hash);
}
void hash_delete_idle(struct hash* hash, time_t now, int idle_time) {
struct Arg a ;
a.now = now;
a.idle_time = idle_time;
hash_loop(hash, funcp_delete_idle, (void*)&a);
}
void hash_print(struct hash* hash) {
hash_loop(hash, funcp_print, NULL);
}
void hash_stat(struct hash* hash) {
dump(L_OK, "hash stat %u-%u", hash->sz, hash->count);
}
void hash_check_count(struct hash* hash) {
int i = 0;
hash_loop(hash, funcp_check_count, (void*)&i);
ASSERT(hash->count == i);
}
/* general hash iterator */
static int hash_loop(struct hash *hash, funcp func, void *arg) {
unsigned long i;
for (i = 0; i < hash->sz; i ++) {
struct session *session;
for (session = hash->sessions + i; session && session->next;session = session->next) {
if (session->next) func(hash, session, arg);
}
}
return 0;
}
static unsigned long
hash_fun(uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport);
static int hash_set_internal(struct session *sessions, unsigned long sz,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
struct timeval tv, char *sql, int cmd, char *user, char *db, uint32 sqlSaveLen, enum SessionStatus status);
static int hash_load_check(struct hash *hash);
static unsigned long hash_newsz(unsigned long sz);
unsigned long initial_hash_sz = INITIAL_HASH_SZ;
struct hash *
hash_new(void) {
struct hash *ret;
ret = malloc(sizeof(struct hash));
if (!ret)
abort();
ret->sz = initial_hash_sz;
ret->count = 0;
// Don't change following ret->sz for initial_hash_sz. That wouldn't be
// very thread_safe (not that the whole module is :)
ret->sessions = malloc(ret->sz * sizeof(struct session));
if (!ret->sessions)
abort();
memset(ret->sessions, 0, ret->sz * sizeof(struct session));
return ret;
}
int
hash_free(struct hash* hs) {
return 0;
}
void
hash_del(struct hash *hash) {
free(hash->sessions);
free(hash);
}
int hash_get_status(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
char **sql, uint32_t *sqlSaveLen, uint32_t **tcp_seq, int *cmd) {
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
for (session = hash->sessions + port; session->next; session = session->next)
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
*sql = session->next->sql;
*sqlSaveLen = session->next->sqlSaveLen;
*tcp_seq = &(session->next->tcp_seq);
*cmd = session->next->cmd;
return session->next->status;
}
return 0;
}
int
hash_get(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
struct timeval *result, char **sql, char **user, char **db, char **value,
uchar ***lastData, size_t **lastDataSize, ulong **lastNum, enum ProtoStage **ps, uint **tcp_seq, int *cmd)
{
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
for (session = hash->sessions + port; session->next; session = session->next)
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
)
{
*result = session->next->tv;
*sql = session->next->sql;
*user = session->next->user;
*db = session->next->db;
*value = session->next->param;
*lastData = &(session->next->lastData);
*lastDataSize = &(session->next->lastDataSize);
*lastNum = &(session->next->lastNum);
*ps = &(session->next->ps);
*tcp_seq = &(session->next->tcp_seq);
*cmd = session->next->cmd;
return session->next->status;
}
return 0;
}
int
hash_remove_stmt(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport)
{
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
for (session = hash->sessions + port; session->next; session = session->next)
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
session->next->stmt_id = 0;
session->next->is_long_data = '0';
session->next->param_count = 0;
if (session->next->sql) {
free(session->next->sql);
session->next->sql = NULL;
}
if (session->next->param) {
free(session->next->param);
session->next->param = NULL;
}
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL;
}
if (session->next->lastData) {
free(session->next->lastData);
session->next->lastData = NULL;
}
session->next->ps = '0';
session->next->lastDataSize = 0;
session->next->lastNum = 0;
session->next->sqlSaveLen = 0;
session->next->cmd = 0;
return 1;
}
return 0;
}
int
hash_get_rem(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport)
{
struct session *session, *next;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
for (session = hash->sessions + port; session->next; session = session->next)
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
// *result = session->next->tv;
// Now remove
next = session->next->next;
if (session->next->sql) {
free(session->next->sql);
session->next->sql = NULL;
}
if (session->next->user) {
free(session->next->user);
session->next->user = NULL;
}
if (session->next->db) {
free(session->next->db);
session->next->db = NULL;
}
if (session->next->param) {
free(session->next->param);
session->next->param = NULL;
}
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL;
}
if (session->next->lastData) {
free(session->next->lastData);
session->next->lastData = NULL;
}
free(session->next);
session->next = next;
hash->count--;
return 1;
}
return 0;
}
int
hash_set(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
struct timeval value, char *sql, int cmd, char *user, char *db, uint32_t sqlSaveLen, enum SessionStatus status)
{
hash_load_check(hash);
if (hash_set_internal(hash->sessions, hash->sz,
laddr, raddr, lport, rport, value, sql, cmd, user, db, sqlSaveLen, status))
{
hash->count++;
return 1;
}
return 0;
}
/* save stmt_id, param_count */
int
hash_get_param_count(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
ulong stmt_id, int *param_count, char **param_type) {
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
ASSERT(param_count > 0);
ASSERT(stmt_id > 0);
for (session = hash->sessions + port; session->next; session = session->next) {
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
if (stmt_id == session->next->stmt_id) {
/* is_long_data cant valid param_count in COM_EXECUTE */
if ('1' != session->next->is_long_data) {
*param_count = session->next->param_count;
*param_type = session->next->param_type;
} else {
dump(L_ERR, "this stmt_id %lu send_long_data, so cant get_param_count", stmt_id);
}
} else {
/* TODO next version support */
dump(L_ERR, "stmt_id not same %d %d, skip it", stmt_id, session->next->stmt_id);
return -1;
}
return 0;
}
}
return -1;
}
int
hash_set_is_long_data(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport, ulong stmt_id) {
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
for (session = hash->sessions + port; session->next; session = session->next) {
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
if (stmt_id == session->next->stmt_id) {
session->next->is_long_data = '1';
return 0;
}
}
}
return -1;
}
int
hash_set_sql_len(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
uint32_t sqlSaveLen, int status) {
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
for (session = hash->sessions + port; session->next; session = session->next) {
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
session->next->sqlSaveLen = sqlSaveLen;
// last sql change status
if (sqlSaveLen == 0) {
session->next->status = status;
session->next->tcp_seq = 0;
}
if ((status == AfterSqlPacket) || (status == AfterBigExeutePacket)) {
session->next->stmt_id = 0;
session->next->is_long_data = '0';
session->next->param_count = 0;
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL;
}
}
if ((status == AfterBigExeutePacket) || (status == AfterSqlPacket) || (status == AfterPreparePacket)) {
session->next->tcp_seq = 0;
if (session->next->lastData) {
free(session->next->lastData);
session->next->lastData = NULL;
}
session->next->lastDataSize = 0;
session->next->lastNum = 0;
session->next->ps = '0';
}
return 0;
}
}
return -1;
}
/* save stmt_id, param_count */
int
hash_set_param_count(struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
ulong stmt_id, int param_count) {
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
ASSERT(param_count >= 0);
ASSERT(stmt_id > 0);
for (session = hash->sessions + port; session->next; session = session->next) {
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
/* TODO only support one stmt_id */
session->next->tcp_seq = 0;
session->next->stmt_id = stmt_id;
session->next->is_long_data = '0';
if (session->next->param_count == param_count)
return 0;
else {
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL;
}
session->next->param_count = param_count;
}
return 0;
}
}
return -1;
}
/* save param, param_type (possible) */
int
hash_set_param (struct hash *hash,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport, struct timeval tv, ulong stmt_id,
char *param, char *param_type, int param_count) {
struct session *session;
unsigned long port;
port = hash_fun(laddr, raddr, lport, rport) % hash->sz;
ASSERT(param > 0);
for (session = hash->sessions + port; session->next; session = session->next) {
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
session->next->tcp_seq = 0;
ASSERT(session->next->stmt_id == stmt_id);
ASSERT(param_count >= 0);
session->next->tv = tv;
/* copy param_type */
ASSERT(session->next->param_count == param_count);
if (param_type != session->next->param_type) {
if (param_type && param_count > 0) {
session->next->param_type = malloc(2 * param_count);
memcpy(session->next->param_type, param_type, 2 * param_count);
}
}
ASSERT(param);
ASSERT(strlen(param) >= 0);
int len = 0;
if (NULL == session->next->param) {
len = 0;
} else {
len = strlen(session->next->param);
}
/* copy param */
if (strlen(param) > len) {
if (session->next->param)
free(session->next->param);
session->next->param = malloc(strlen(param) + 1);
}
if (strlen(param) == 0) {
free(session->next->param);
session->next->param = NULL;
} else {
snprintf(session->next->param, strlen(param) + 1, "%s", param);
}
session->next->status = AfterSqlPacket;
return 0;
}
}
return -1;
}
static int
hash_set_internal(struct session *sessions, unsigned long sz,
uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport,
struct timeval value, char* sql, int cmd, char *user, char *db,
uint32_t sqlSaveLen, enum SessionStatus status)
{
struct session *session;
unsigned long port;
uint32_t sqlLen;
port = hash_fun(laddr, raddr, lport, rport) % sz;
for (session = sessions + port; session->next; session = session->next) {
if (
session->next->raddr == raddr &&
session->next->laddr == laddr &&
session->next->rport == rport &&
session->next->lport == lport
) {
session->next->sqlSaveLen = sqlSaveLen;
/* if normal sql, clear prepare sql fields */
if (status == AfterSqlPacket) {
session->next->stmt_id = 0;
session->next->is_long_data = '0';
session->next->param_count = 0;
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL;
}
}
if (status == AfterOkPacket) {
if (session->next->lastData) {
free(session->next->lastData);
session->next->lastData = NULL;
}
session->next->lastDataSize = 0;
session->next->lastNum = 0;
session->next->ps = '0';
}
if ((status == AfterSqlPacket) || (status == AfterPreparePacket)) {
session->next->tcp_seq = 0;
if (session->next->lastData) {
free(session->next->lastData);
session->next->lastData = NULL;
}
session->next->lastDataSize = 0;
session->next->lastNum = 0;
session->next->ps = '0';
}
if (session->next->param) {
free(session->next->param);
session->next->param = NULL; // after prepare then a normal sql, need remove this
}
/*
if (cmd == COM_QUERY) {
if (session->next->param_type) {
free(session->next->param_type);
session->next->param_type = NULL; // after prepare then a normal sql, need remove this
}
session->next->param_count = 0;
session->next->stmt_id = 0;
}
*/
session->next->tv = value;
if (sql != session->next->sql) {
if (sql) {
if (session->next->sql) {
free(session->next->sql);
session->next->sql = NULL;
}
sqlLen = strlen(sql) ;
sqlLen = sqlLen > SQL_MAX_LEN ? SQL_MAX_LEN:sqlLen;
if (sqlLen == SQL_MAX_LEN) {
sql[SQL_MAX_LEN - 1] = '.';
sql[SQL_MAX_LEN - 2] = '.';
sql[SQL_MAX_LEN - 3] = '.';
}
session->next->sql = malloc(sqlLen + 1);
snprintf(session->next->sql, sqlLen + 1, "%s", sql);
ASSERT(session->next->ps == '0');
}
}
session->next->cmd = cmd;
if (user != session->next->user) {
if (user) {
if (session->next->user) {
free(session->next->user);
session->next->user = NULL;
}
session->next->user = malloc(strlen(user) + 1);
snprintf(session->next->user, strlen(user) + 1, "%s", user);
}
}
if (db != session->next->db) {
if (db) {
if (session->next->db) {
free(session->next->db);
session->next->db = NULL;
}
session->next->db = malloc(strlen(db) + 1);
snprintf(session->next->db, strlen(db) + 1, "%s", db);
}
}
if (status)
session->next->status = status;
return 0;
}
}
/* not in hash, new */
session->next = malloc(sizeof(struct session));
memset(session->next, 0, sizeof(struct session));
if (!session->next)
abort();
session->next->raddr = raddr;
session->next->laddr = laddr;
session->next->rport = rport;
session->next->lport = lport;
session->next->sqlSaveLen = sqlSaveLen;
session->next->ps = '0';
session->next->tv = value;
if (sql) {
sqlLen = strlen(sql) ;
sqlLen = sqlLen > SQL_MAX_LEN ? SQL_MAX_LEN:sqlLen;
if (sqlLen == SQL_MAX_LEN) {
sql[SQL_MAX_LEN - 1] = '.';
sql[SQL_MAX_LEN - 2] = '.';
sql[SQL_MAX_LEN - 3] = '.';
}
session->next->sql = malloc(sqlLen + 1);
snprintf(session->next->sql, sqlLen + 1, "%s", sql);
}
session->next->cmd = cmd;
if (user) {
if (session->next->user) {
free(session->next->user);
}
session->next->user = malloc(strlen(user) + 1);
snprintf(session->next->user, strlen(user) + 1, "%s", user);
}
if (db) {
if (session->next->db) {
free(session->next->db);
}
session->next->db = malloc(strlen(db) + 1);
snprintf(session->next->db, strlen(db) + 1, "%s", db);
}
if (status)
session->next->status = status;
session->next->next = NULL;
return 1;
}
static int
hash_load_check(struct hash *hash) {
if ((hash->count * 100) / hash->sz > MAX_LOAD_PERCENT) {
struct session *new_sessions;
unsigned long nsz, i, count;
count = hash->count;
// New container
nsz = hash_newsz(hash->sz);
new_sessions = malloc(nsz * sizeof(struct session));
if (!new_sessions)
abort();
memset(new_sessions, 0, nsz * sizeof(struct session));
// Rehash
for (i = 0; i < hash->sz; i ++) {
struct session *session;
for (session = hash->sessions + i; session && session->next;
session = session->next)
{
if(session->next) {
/* TODO not only this field */
hash_set_internal(new_sessions, nsz, session->next->laddr,
session->next->raddr, session->next->lport, session->next->rport,
session->next->tv, session->next->sql, session->next->cmd,
session->next->user, session->next->db,
session->next->sqlSaveLen ,session->next->status);
}
}
}
//clear, here will clear count, so need save before
hash_loop(hash, funcp_del, NULL);
hash->count = count;
// Switch
hash->sz = nsz;
free(hash->sessions);
hash->sessions = new_sessions;
return 1;
}
return 0;
}
static unsigned long
hash_fun(uint32_t laddr, uint32_t raddr, uint16_t lport, uint16_t rport) {
unsigned long ret;
ret = laddr ^ raddr;
ret ^= (lport << 16) | rport;
return ret;
}
static unsigned long
hash_newsz(unsigned long sz) {
return sz * 2 + 1;
}
#ifdef _HASH_TEST_
int main() {
log_init("/tmp/hash", NULL, ".log", L_OK);
struct hash *h = hash_new();
int i;
struct timeval t;
for(i = 0 ;i < 20000; i++) {
hash_set(h, 1, 1,
i, i, t, NULL, 0, NULL, NULL, 0, 0);
hash_check_count(h);
if (i % 100 == 0)
hash_get_rem(h, 1, 1, i, i);
}
hash_check_count(h);
printf("ok - %lu %lu\n", h->count, h->sz);
hash_clean(h);
return 0;
}
#endif