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proxy_lua.c
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proxy_lua.c
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/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */
#include "proxy.h"
#include "proxy_tls.h"
#include "storage.h" // for stats call
// func prototype example:
// static int fname (lua_State *L)
// normal library open:
// int luaopen_mcp(lua_State *L) { }
struct _mcplib_statctx_s {
lua_State *L;
};
static void _mcplib_append_stats(const char *key, const uint16_t klen,
const char *val, const uint32_t vlen,
const void *cookie) {
// k + v == 0 means END, but we don't use END for this lua API.
if (klen == 0) {
return;
}
// cookie -> struct
const struct _mcplib_statctx_s *c = cookie;
lua_State *L = c->L;
// table should always be on the top.
lua_pushlstring(L, key, klen);
lua_pushlstring(L, val, vlen);
lua_rawset(L, -3);
}
static void _mcplib_append_section_stats(const char *key, const uint16_t klen,
const char *val, const uint32_t vlen,
const void *cookie) {
char stat[STAT_KEY_LEN];
long section = 0;
if (klen == 0) {
return;
}
const struct _mcplib_statctx_s *c = cookie;
lua_State *L = c->L;
// table must be at the top when this function is called.
int tidx = lua_absindex(L, -1);
// NOTE: sscanf is not great, especially with numerics due to UD for out
// of range data. It is safe to use here because we're generating the
// strings, and we don't use this function on anything that has user
// defined data (ie; stats proxy). Otherwise sscanf saves a lot of code so
// we use it here.
if (sscanf(key, "items:%ld:%s", §ion, stat) == 2
|| sscanf(key, "%ld:%s", §ion, stat) == 2) {
// stats [items, slabs, conns]
if (lua_rawgeti(L, tidx, section) == LUA_TNIL) {
lua_pop(L, 1); // drop the nil
// no sub-section table yet, create one.
lua_newtable(L);
lua_pushvalue(L, -1); // copy the table
lua_rawseti(L, tidx, section); // remember the table
// now top of stack is the table.
}
lua_pushstring(L, stat);
lua_pushlstring(L, val, vlen);
lua_rawset(L, -3); // put key/val into sub-table
lua_pop(L, 1); // pop sub-table.
} else {
// normal stat counter.
lua_pushlstring(L, key, klen);
lua_pushlstring(L, val, vlen);
lua_rawset(L, tidx);
}
}
// reimplementation of proto_text.c:process_stat()
static int mcplib_server_stats(lua_State *L) {
int argc = lua_gettop(L);
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
lua_newtable(L); // the table to return.
struct _mcplib_statctx_s c = {
L,
};
if (argc == 0 || lua_isnil(L, 1)) {
server_stats(&_mcplib_append_stats, &c);
get_stats(NULL, 0, &_mcplib_append_stats, &c);
} else {
const char *cmd = luaL_checkstring(L, 1);
if (strcmp(cmd, "settings") == 0) {
process_stat_settings(&_mcplib_append_stats, &c);
} else if (strcmp(cmd, "conns") == 0) {
process_stats_conns(&_mcplib_append_section_stats, &c);
#ifdef EXTSTORE
} else if (strcmp(cmd, "extstore") == 0) {
process_extstore_stats(&_mcplib_append_stats, &c);
#endif
} else if (strcmp(cmd, "proxy") == 0) {
process_proxy_stats(ctx, &_mcplib_append_stats, &c);
} else if (strcmp(cmd, "proxyfuncs") == 0) {
process_proxy_funcstats(ctx, &_mcplib_append_stats, &c);
} else if (strcmp(cmd, "proxybe") == 0) {
process_proxy_bestats(ctx, &_mcplib_append_stats, &c);
} else {
if (get_stats(cmd, strlen(cmd), &_mcplib_append_section_stats, &c)) {
// all good.
} else {
// unknown command.
proxy_lua_error(L, "unknown subcommand passed to server_stats");
}
}
}
// return the table.
return 1;
}
static lua_Integer _mcplib_backend_get_waittime(lua_Number secondsf) {
lua_Integer secondsi = (lua_Integer) secondsf;
lua_Number subseconds = secondsf - secondsi;
if (subseconds >= 0.5) {
// Yes, I know this rounding is probably wrong. it's close enough.
// Rounding functions have tricky portability and whole-integer
// rounding is at least simpler to reason about.
secondsi++;
}
if (secondsi < 1) {
secondsi = 1;
}
return secondsi;
}
// take string, table as arg:
// name, { every =, rerun = false, func = f }
// repeat defaults to true
static int mcplib_register_cron(lua_State *L) {
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
const char *name = luaL_checkstring(L, 1);
luaL_checktype(L, 2, LUA_TTABLE);
// reserve an upvalue for storing the function.
mcp_cron_t *ce = lua_newuserdatauv(L, sizeof(mcp_cron_t), 1);
memset(ce, 0, sizeof(*ce));
// default repeat.
ce->repeat = true;
// sync config generation.
ce->gen = ctx->config_generation;
if (lua_getfield(L, 2, "func") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TFUNCTION);
lua_setiuservalue(L, 3, 1); // pop value
} else {
proxy_lua_error(L, "proxy cron entry missing 'func' field");
return 0;
}
if (lua_getfield(L, 2, "rerun") != LUA_TNIL) {
int rerun = lua_toboolean(L, -1);
if (!rerun) {
ce->repeat = false;
}
}
lua_pop(L, 1); // pop val or nil
// TODO: set a limit on 'every' so we don't have to worry about
// underflows. a year? a month?
if (lua_getfield(L, 2, "every") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TNUMBER);
int every = lua_tointeger(L, -1);
if (every < 1) {
proxy_lua_error(L, "proxy cron entry 'every' must be > 0");
return 0;
}
ce->every = every;
} else {
proxy_lua_error(L, "proxy cron entry missing 'every' field");
return 0;
}
lua_pop(L, 1); // pop val or nil
// schedule the next cron run
struct timespec now;
clock_gettime(CLOCK_REALTIME, &now);
ce->next = now.tv_sec + ce->every;
// we may adjust ce->next shortly, so don't update global yet.
// valid cron entry, now place into cron table.
lua_rawgeti(L, LUA_REGISTRYINDEX, ctx->cron_ref);
// first, check if a cron of this name already exists.
// if so and the 'every' field matches, inherit its 'next' field
// so we don't perpetually reschedule all crons.
if (lua_getfield(L, -1, name) != LUA_TNIL) {
mcp_cron_t *oldce = lua_touserdata(L, -1);
if (ce->every == oldce->every) {
ce->next = oldce->next;
}
}
lua_pop(L, 1); // drop val/nil
lua_pushvalue(L, 3); // duplicate cron entry
lua_setfield(L, -2, name); // pop duplicate cron entry
lua_pop(L, 1); // drop cron table
// update central cron sleep.
if (ctx->cron_next > ce->next) {
ctx->cron_next = ce->next;
}
return 0;
}
// just set ctx->loading = true
// called from config thread, so config_lock must be held, so it's safe to
// modify protected ctx contents.
static int mcplib_schedule_config_reload(lua_State *L) {
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
ctx->loading = true;
return 0;
}
static int mcplib_time_real_millis(lua_State *L) {
struct timespec now;
clock_gettime(CLOCK_REALTIME, &now);
lua_Integer t = now.tv_nsec / 1000000 + now.tv_sec * 1000;
lua_pushinteger(L, t);
return 1;
}
static int mcplib_time_mono_millis(lua_State *L) {
struct timespec now;
clock_gettime(CLOCK_MONOTONIC, &now);
lua_Integer t = now.tv_nsec / 1000000 + now.tv_sec * 1000;
lua_pushinteger(L, t);
return 1;
}
// end util funcs.
// NOTE: backends are global objects owned by pool objects.
// Each pool has a "proxy pool object" distributed to each worker VM.
// proxy pool objects are held at the same time as any request exists on a
// backend, in the coroutine stack during yield()
// To free a backend: All proxies for a pool are collected, then the central
// pool is collected, which releases backend references, which allows backend
// to be collected.
static int mcplib_backend_wrap_gc(lua_State *L) {
mcp_backend_wrap_t *bew = luaL_checkudata(L, -1, "mcp.backendwrap");
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
if (bew->be != NULL) {
mcp_backend_t *be = bew->be;
// TODO (v3): technically a race where a backend could be created,
// queued, but not picked up before being gc'ed again. In practice
// this is impossible but at some point we should close the loop here.
// Since we're running in the config thread it could just busy poll
// until the connection was picked up.
assert(be->transferred);
// There has to be at least one connection, and the event_thread will
// always be the same.
proxy_event_thread_t *e = be->be[0].event_thread;
pthread_mutex_lock(&e->mutex);
STAILQ_INSERT_TAIL(&e->beconn_head_in, be, beconn_next);
pthread_mutex_unlock(&e->mutex);
// Signal to check queue.
#ifdef USE_EVENTFD
uint64_t u = 1;
// TODO (v2): check result? is it ever possible to get a short write/failure
// for an eventfd?
if (write(e->be_event_fd, &u, sizeof(uint64_t)) != sizeof(uint64_t)) {
assert(1 == 0);
}
#else
if (write(e->be_notify_send_fd, "w", 1) <= 0) {
assert(1 == 0);
}
#endif
}
STAT_DECR(ctx, backend_total, 1);
return 0;
}
static int mcplib_backend_gc(lua_State *L) {
return 0; // no-op.
}
// backend label object; given to pools which then find or create backend
// objects as necessary.
// allow optionally passing a table of arguments for extended options:
// { label = "etc", "host" = "127.0.0.1", port = "11211",
// readtimeout = 0.5, connecttimeout = 1, retrytime = 3,
// failurelimit = 3, tcpkeepalive = false }
static int mcplib_backend(lua_State *L) {
size_t llen = 0;
size_t nlen = 0;
size_t plen = 0;
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
mcp_backend_label_t *be = lua_newuserdatauv(L, sizeof(mcp_backend_label_t), 0);
memset(be, 0, sizeof(*be));
const char *label;
const char *name;
const char *port;
// copy global defaults for tunables.
memcpy(&be->tunables, &ctx->tunables, sizeof(be->tunables));
be->conncount = 1; // one connection per backend as default.
if (lua_istable(L, 1)) {
// We don't pop the label/host/port strings so lua won't change them
// until after the function call.
if (lua_getfield(L, 1, "label") != LUA_TNIL) {
label = luaL_checklstring(L, -1, &llen);
} else {
proxy_lua_error(L, "backend must have a label argument");
return 0;
}
if (lua_getfield(L, 1, "host") != LUA_TNIL) {
name = luaL_checklstring(L, -1, &nlen);
} else {
proxy_lua_error(L, "backend must have a host argument");
return 0;
}
// TODO: allow a default port.
if (lua_getfield(L, 1, "port") != LUA_TNIL) {
port = luaL_checklstring(L, -1, &plen);
} else {
proxy_lua_error(L, "backend must have a port argument");
return 0;
}
if (lua_getfield(L, 1, "tcpkeepalive") != LUA_TNIL) {
be->tunables.tcp_keepalive = lua_toboolean(L, -1);
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "tls") != LUA_TNIL) {
be->tunables.use_tls = lua_toboolean(L, -1);
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "failurelimit") != LUA_TNIL) {
int limit = luaL_checkinteger(L, -1);
if (limit < 0) {
proxy_lua_error(L, "failurelimit must be >= 0");
return 0;
}
be->tunables.backend_failure_limit = limit;
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "depthlimit") != LUA_TNIL) {
int limit = luaL_checkinteger(L, -1);
if (limit < 0) {
proxy_lua_error(L, "depthlimit must be >= 0");
return 0;
}
be->tunables.backend_depth_limit = limit;
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "connecttimeout") != LUA_TNIL) {
lua_Number secondsf = luaL_checknumber(L, -1);
lua_Integer secondsi = (lua_Integer) secondsf;
lua_Number subseconds = secondsf - secondsi;
be->tunables.connect.tv_sec = secondsi;
be->tunables.connect.tv_usec = MICROSECONDS(subseconds);
}
lua_pop(L, 1);
// TODO (v2): print deprecation warning.
if (lua_getfield(L, 1, "retrytimeout") != LUA_TNIL) {
be->tunables.retry.tv_sec =
_mcplib_backend_get_waittime(luaL_checknumber(L, -1));
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "retrywaittime") != LUA_TNIL) {
be->tunables.retry.tv_sec =
_mcplib_backend_get_waittime(luaL_checknumber(L, -1));
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "retrytimeout") != LUA_TNIL) {
lua_Number secondsf = luaL_checknumber(L, -1);
lua_Integer secondsi = (lua_Integer) secondsf;
lua_Number subseconds = secondsf - secondsi;
be->tunables.retry.tv_sec = secondsi;
be->tunables.retry.tv_usec = MICROSECONDS(subseconds);
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "readtimeout") != LUA_TNIL) {
lua_Number secondsf = luaL_checknumber(L, -1);
lua_Integer secondsi = (lua_Integer) secondsf;
lua_Number subseconds = secondsf - secondsi;
be->tunables.read.tv_sec = secondsi;
be->tunables.read.tv_usec = MICROSECONDS(subseconds);
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "down") != LUA_TNIL) {
int down = lua_toboolean(L, -1);
be->tunables.down = down;
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "flaptime") != LUA_TNIL) {
lua_Number secondsf = luaL_checknumber(L, -1);
lua_Integer secondsi = (lua_Integer) secondsf;
lua_Number subseconds = secondsf - secondsi;
be->tunables.flap.tv_sec = secondsi;
be->tunables.flap.tv_usec = MICROSECONDS(subseconds);
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "flapbackofframp") != LUA_TNIL) {
float ramp = luaL_checknumber(L, -1);
if (ramp <= 1.1) {
ramp = 1.1;
}
be->tunables.flap_backoff_ramp = ramp;
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "flapbackoffmax") != LUA_TNIL) {
luaL_checknumber(L, -1);
uint32_t max = lua_tointeger(L, -1);
be->tunables.flap_backoff_max = max;
}
lua_pop(L, 1);
if (lua_getfield(L, 1, "connections") != LUA_TNIL) {
int c = luaL_checkinteger(L, -1);
if (c <= 0) {
proxy_lua_error(L, "backend connections argument must be >= 0");
return 0;
} else if (c > 8) {
proxy_lua_error(L, "backend connections argument must be <= 8");
return 0;
}
be->conncount = c;
}
lua_pop(L, 1);
} else {
label = luaL_checklstring(L, 1, &llen);
name = luaL_checklstring(L, 2, &nlen);
port = luaL_checklstring(L, 3, &plen);
}
if (llen > MAX_LABELLEN-1) {
proxy_lua_error(L, "backend label too long");
return 0;
}
if (nlen > MAX_NAMELEN-1) {
proxy_lua_error(L, "backend name too long");
return 0;
}
if (plen > MAX_PORTLEN-1) {
proxy_lua_error(L, "backend port too long");
return 0;
}
memcpy(be->label, label, llen);
be->label[llen] = '\0';
memcpy(be->name, name, nlen);
be->name[nlen] = '\0';
memcpy(be->port, port, plen);
be->port[plen] = '\0';
be->llen = llen;
if (lua_istable(L, 1)) {
lua_pop(L, 3); // drop label, name, port.
}
luaL_getmetatable(L, "mcp.backend");
lua_setmetatable(L, -2); // set metatable to userdata.
return 1; // return be object.
}
// Called with the cache label at top of the stack.
static mcp_backend_wrap_t *_mcplib_backend_checkcache(lua_State *L, mcp_backend_label_t *bel) {
// first check our reference table to compare.
// Note: The upvalue won't be found unless we're running from a function with it
// set as an upvalue.
int ret = lua_gettable(L, lua_upvalueindex(MCP_BACKEND_UPVALUE));
if (ret != LUA_TNIL) {
mcp_backend_wrap_t *be_orig = luaL_checkudata(L, -1, "mcp.backendwrap");
if (strncmp(be_orig->be->name, bel->name, MAX_NAMELEN) == 0
&& strncmp(be_orig->be->port, bel->port, MAX_PORTLEN) == 0
&& be_orig->be->conncount == bel->conncount
&& memcmp(&be_orig->be->tunables, &bel->tunables, sizeof(bel->tunables)) == 0) {
// backend is the same, return it.
return be_orig;
} else {
// backend not the same, pop from stack and make new one.
lua_pop(L, 1);
}
} else {
lua_pop(L, 1); // pop the nil.
}
return NULL;
}
static mcp_backend_wrap_t *_mcplib_make_backendconn(lua_State *L, mcp_backend_label_t *bel,
proxy_event_thread_t *e) {
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
mcp_backend_wrap_t *bew = lua_newuserdatauv(L, sizeof(mcp_backend_wrap_t), 0);
luaL_getmetatable(L, "mcp.backendwrap");
lua_setmetatable(L, -2); // set metatable to userdata.
mcp_backend_t *be = calloc(1, sizeof(mcp_backend_t) + sizeof(struct mcp_backendconn_s) * bel->conncount);
if (be == NULL) {
proxy_lua_error(L, "out of memory allocating backend connection");
return NULL;
}
bew->be = be;
strncpy(be->name, bel->name, MAX_NAMELEN+1);
strncpy(be->port, bel->port, MAX_PORTLEN+1);
strncpy(be->label, bel->label, MAX_LABELLEN+1);
memcpy(&be->tunables, &bel->tunables, sizeof(bel->tunables));
be->conncount = bel->conncount;
STAILQ_INIT(&be->io_head);
for (int x = 0; x < bel->conncount; x++) {
struct mcp_backendconn_s *bec = &be->be[x];
bec->be_parent = be;
memcpy(&bec->tunables, &bel->tunables, sizeof(bel->tunables));
STAILQ_INIT(&bec->io_head);
bec->state = mcp_backend_read;
// this leaves a permanent buffer on the backend, which is fine
// unless you have billions of backends.
// we can later optimize for pulling buffers from idle backends.
bec->rbuf = malloc(READ_BUFFER_SIZE);
if (bec->rbuf == NULL) {
proxy_lua_error(L, "out of memory allocating backend");
return NULL;
}
// initialize the client
bec->client = malloc(mcmc_size(MCMC_OPTION_BLANK));
if (bec->client == NULL) {
proxy_lua_error(L, "out of memory allocating backend");
return NULL;
}
// TODO (v2): no way to change the TCP_KEEPALIVE state post-construction.
// This is a trivial fix if we ensure a backend's owning event thread is
// set before it can be used in the proxy, as it would have access to the
// tunables structure. _reset_bad_backend() may not have its event thread
// set 100% of the time and I don't want to introduce a crash right now,
// so I'm writing this overly long comment. :)
int flags = MCMC_OPTION_NONBLOCK;
STAT_L(ctx);
if (ctx->tunables.tcp_keepalive) {
flags |= MCMC_OPTION_TCP_KEEPALIVE;
}
STAT_UL(ctx);
bec->connect_flags = flags;
// FIXME: remove ifdef via an initialized checker? or
// mcp_tls_backend_init response code?
#ifdef PROXY_TLS
if (be->tunables.use_tls && !ctx->tls_ctx) {
proxy_lua_error(L, "TLS requested but not initialized: call mcp.init_tls()");
return NULL;
}
#endif
mcp_tls_backend_init(ctx, bec);
bec->event_thread = e;
}
pthread_mutex_lock(&e->mutex);
STAILQ_INSERT_TAIL(&e->beconn_head_in, be, beconn_next);
pthread_mutex_unlock(&e->mutex);
// Signal to check queue.
#ifdef USE_EVENTFD
uint64_t u = 1;
// TODO (v2): check result? is it ever possible to get a short write/failure
// for an eventfd?
if (write(e->be_event_fd, &u, sizeof(uint64_t)) != sizeof(uint64_t)) {
assert(1 == 0);
}
#else
if (write(e->be_notify_send_fd, "w", 1) <= 0) {
assert(1 == 0);
}
#endif
lua_pushvalue(L, -2); // push the label string back to the top.
// Add this new backend connection to the object cache.
lua_pushvalue(L, -2); // copy the backend reference to the top.
// set our new backend wrapper object into the reference table.
lua_settable(L, lua_upvalueindex(MCP_BACKEND_UPVALUE));
// stack is back to having backend on the top.
STAT_INCR(ctx, backend_total, 1);
return bew;
}
static int mcplib_pool_gc(lua_State *L) {
mcp_pool_t *p = luaL_checkudata(L, -1, "mcp.pool");
mcp_gobj_finalize(&p->g);
luaL_unref(L, LUA_REGISTRYINDEX, p->phc_ref);
for (int x = 0; x < p->pool_be_total; x++) {
if (p->pool[x].ref) {
luaL_unref(L, LUA_REGISTRYINDEX, p->pool[x].ref);
}
}
return 0;
}
// Looks for a short string in a key to separate which part gets hashed vs
// sent to the backend node.
// ie: "foo:bar|#|restofkey" - only "foo:bar" gets hashed.
static const char *mcp_key_hash_filter_stop(const char *conf, const char *key, size_t klen, size_t *newlen) {
char temp[KEY_MAX_LENGTH+1];
*newlen = klen;
if (klen > KEY_MAX_LENGTH) {
// Hedging against potential bugs.
return key;
}
memcpy(temp, key, klen);
temp[klen+1] = '\0';
// TODO (v2): memmem would avoid the temp key and memcpy here, but it's
// not technically portable. An easy improvement would be to detect
// memmem() in `configure` and only use strstr/copy as a fallback.
// Since keys are short it's unlikely this would be a major performance
// win.
char *found = strstr(temp, conf);
if (found) {
*newlen = found - temp;
}
// hash stop can't change where keys start.
return key;
}
// Takes a two character "tag", ie; "{}", or "$$", searches string for the
// first then second character. Only hashes the portion within these tags.
// *conf _must_ be two characters.
static const char *mcp_key_hash_filter_tag(const char *conf, const char *key, size_t klen, size_t *newlen) {
*newlen = klen;
const char *t1 = memchr(key, conf[0], klen);
if (t1) {
size_t remain = klen - (t1 - key);
// must be at least one character inbetween the tags to hash.
if (remain > 1) {
const char *t2 = memchr(t1, conf[1], remain);
if (t2) {
*newlen = t2 - t1 - 1;
return t1+1;
}
}
}
return key;
}
static void _mcplib_pool_dist(lua_State *L, mcp_pool_t *p) {
luaL_checktype(L, -1, LUA_TTABLE);
if (lua_getfield(L, -1, "new") != LUA_TFUNCTION) {
proxy_lua_error(L, "key distribution object missing 'new' function");
return;
}
// - now create the copy pool table
lua_createtable(L, p->pool_size, 0); // give the new pool table a sizing hint.
for (int x = 1; x <= p->pool_size; x++) {
mcp_backend_t *be = p->pool[x-1].be;
lua_createtable(L, 0, 4);
// stack = [p, h, f, optN, newpool, backend]
// the key should be fine for id? maybe don't need to duplicate
// this?
lua_pushinteger(L, x);
lua_setfield(L, -2, "id");
// we don't use the hostname for ketama hashing
// so passing ip for hostname is fine
lua_pushstring(L, be->name);
lua_setfield(L, -2, "addr");
lua_pushstring(L, be->port);
lua_setfield(L, -2, "port");
// set the backend table into the new pool table.
lua_rawseti(L, -2, x);
}
// we can either use lua_insert() or possibly _rotate to shift
// things into the right place, but simplest is to just copy the
// option arg to the end of the stack.
lua_pushvalue(L, 2);
// - stack should be: pool, opts, func, pooltable, opts
// call the dist new function.
int res = lua_pcall(L, 2, 2, 0);
if (res != LUA_OK) {
lua_error(L); // error should be on the stack already.
return;
}
// -1 is lightuserdata ptr to the struct (which must be owned by the
// userdata), which is later used for internal calls.
struct proxy_hash_caller *phc;
luaL_checktype(L, -1, LUA_TLIGHTUSERDATA);
luaL_checktype(L, -2, LUA_TUSERDATA);
phc = lua_touserdata(L, -1);
memcpy(&p->phc, phc, sizeof(*phc));
lua_pop(L, 1);
// -2 was userdata we need to hold a reference to
p->phc_ref = luaL_ref(L, LUA_REGISTRYINDEX);
// UD now popped from stack.
}
// in the proxy object, we can alias a ptr to the pool to where it needs to be
// based on worker number or io_thread right?
static void _mcplib_pool_make_be_loop(lua_State *L, mcp_pool_t *p, int offset, proxy_event_thread_t *t) {
// remember lua arrays are 1 indexed.
for (int x = 1; x <= p->pool_size; x++) {
mcp_pool_be_t *s = &p->pool[x-1 + (offset * p->pool_size)];
lua_geti(L, 1, x); // get next server into the stack.
// If we bail here, the pool _gc() should handle releasing any backend
// references we made so far.
mcp_backend_label_t *bel = luaL_checkudata(L, -1, "mcp.backend");
// check label for pre-existing backend conn/wrapper
// TODO (v2): there're native ways of "from C make lua strings"
int toconcat = 1;
if (p->beprefix[0] != '\0') {
lua_pushstring(L, p->beprefix);
toconcat++;
}
if (p->use_iothread) {
lua_pushstring(L, ":io:");
toconcat++;
} else {
lua_pushstring(L, ":w");
lua_pushinteger(L, offset);
lua_pushstring(L, ":");
toconcat += 3;
}
lua_pushlstring(L, bel->label, bel->llen);
lua_concat(L, toconcat);
lua_pushvalue(L, -1); // copy the label string for the create method.
mcp_backend_wrap_t *bew = _mcplib_backend_checkcache(L, bel);
if (bew == NULL) {
bew = _mcplib_make_backendconn(L, bel, t);
}
s->be = bew->be; // unwrap the backend connection for direct ref.
bew->be->use_io_thread = p->use_iothread;
// If found from cache or made above, the backend wrapper is on the
// top of the stack, so we can now take its reference.
// The wrapper abstraction allows the be memory to be owned by its
// destination thread (IO thread/etc).
s->ref = luaL_ref(L, LUA_REGISTRYINDEX); // references and pops object.
lua_pop(L, 1); // pop the mcp.backend label object.
lua_pop(L, 1); // drop extra label copy.
}
}
// call with table of backends in 1
static void _mcplib_pool_make_be(lua_State *L, mcp_pool_t *p) {
if (p->use_iothread) {
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
_mcplib_pool_make_be_loop(L, p, 0, ctx->proxy_io_thread);
} else {
// TODO (v3) globals.
for (int n = 0; n < settings.num_threads; n++) {
LIBEVENT_THREAD *t = get_worker_thread(n);
_mcplib_pool_make_be_loop(L, p, t->thread_baseid, t->proxy_event_thread);
}
}
}
// p = mcp.pool(backends, { dist = f, hashfilter = f, seed = "a", hash = f })
static int mcplib_pool(lua_State *L) {
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
int argc = lua_gettop(L);
luaL_checktype(L, 1, LUA_TTABLE);
int n = luaL_len(L, 1); // get length of array table
int workers = settings.num_threads; // TODO (v3): globals usage.
size_t plen = sizeof(mcp_pool_t) + (sizeof(mcp_pool_be_t) * n * workers);
mcp_pool_t *p = lua_newuserdatauv(L, plen, 0);
// Zero the memory before use, so we can realibly use __gc to clean up
memset(p, 0, plen);
p->pool_size = n;
p->pool_be_total = n * workers;
p->use_iothread = ctx->tunables.use_iothread;
// TODO (v2): Nicer if this is fetched from mcp.default_key_hash
p->key_hasher = XXH3_64bits_withSeed;
pthread_mutex_init(&p->g.lock, NULL);
p->ctx = PROXY_GET_CTX(L);
luaL_setmetatable(L, "mcp.pool");
// Allow passing an ignored nil as a second argument. Makes the lua easier
int type = lua_type(L, 2);
if (argc == 1 || type == LUA_TNIL) {
_mcplib_pool_make_be(L, p);
lua_getglobal(L, "mcp");
// TODO (v2): decide on a mcp.default_dist and use that instead
if (lua_getfield(L, -1, "dist_jump_hash") != LUA_TNIL) {
_mcplib_pool_dist(L, p);
lua_pop(L, 1); // pop "dist_jump_hash" value.
} else {
lua_pop(L, 1);
}
lua_pop(L, 1); // pop "mcp"
return 1;
}
// Supplied with an options table. We inspect this table to decorate the
// pool, then pass it along to the a constructor if necessary.
luaL_checktype(L, 2, LUA_TTABLE);
if (lua_getfield(L, 2, "iothread") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TBOOLEAN);
int use_iothread = lua_toboolean(L, -1);
if (use_iothread) {
p->use_iothread = true;
} else {
p->use_iothread = false;
}
lua_pop(L, 1); // remove value.
} else {
lua_pop(L, 1); // pop the nil.
}
if (lua_getfield(L, 2, "beprefix") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TSTRING);
size_t len = 0;
const char *bepfx = lua_tolstring(L, -1, &len);
memcpy(p->beprefix, bepfx, len);
p->beprefix[len+1] = '\0';
lua_pop(L, 1); // pop beprefix string.
} else {
lua_pop(L, 1); // pop the nil.
}
_mcplib_pool_make_be(L, p);
// stack: backends, options, mcp.pool
if (lua_getfield(L, 2, "dist") != LUA_TNIL) {
// overriding the distribution function.
_mcplib_pool_dist(L, p);
lua_pop(L, 1); // remove the dist table from stack.
} else {
lua_pop(L, 1); // pop the nil.
// use the default dist if not specified with an override table.
lua_getglobal(L, "mcp");
// TODO (v2): decide on a mcp.default_dist and use that instead
if (lua_getfield(L, -1, "dist_jump_hash") != LUA_TNIL) {
_mcplib_pool_dist(L, p);
lua_pop(L, 1); // pop "dist_jump_hash" value.
} else {
lua_pop(L, 1);
}
lua_pop(L, 1); // pop "mcp"
}
if (lua_getfield(L, 2, "filter") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TSTRING);
const char *f_type = lua_tostring(L, -1);
if (strcmp(f_type, "stop") == 0) {
p->key_filter = mcp_key_hash_filter_stop;
} else if (strcmp(f_type, "tags") == 0) {
p->key_filter = mcp_key_hash_filter_tag;
} else {
proxy_lua_ferror(L, "unknown hash filter specified: %s\n", f_type);
}
lua_pop(L, 1); // pops "filter" value.
if (lua_getfield(L, 2, "filter_conf") == LUA_TSTRING) {
size_t len = 0;
const char *conf = lua_tolstring(L, -1, &len);
if (len < 2 || len > KEY_HASH_FILTER_MAX) {
proxy_lua_ferror(L, "hash filter conf must be between 2 and %d characters", KEY_HASH_FILTER_MAX);
}
memcpy(p->key_filter_conf, conf, len);
p->key_filter_conf[len+1] = '\0';
} else {
proxy_lua_error(L, "hash filter requires 'filter_conf' string");
}
lua_pop(L, 1); // pops "filter_conf" value.
} else {
lua_pop(L, 1); // pop the nil.
}
if (lua_getfield(L, 2, "hash") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TLIGHTUSERDATA);
struct proxy_hash_func *phf = lua_touserdata(L, -1);
p->key_hasher = phf->func;
lua_pop(L, 1);
} else {
lua_pop(L, 1); // pop the nil.
}
if (lua_getfield(L, 2, "seed") != LUA_TNIL) {
luaL_checktype(L, -1, LUA_TSTRING);
size_t seedlen;
const char *seedstr = lua_tolstring(L, -1, &seedlen);
// Note: the custom hasher for a dist may be "weird" in some cases, so
// we use a standard hash method for the seed here.
// I'm open to changing this (ie; mcp.pool_seed_hasher = etc)
p->hash_seed = XXH3_64bits(seedstr, seedlen);
lua_pop(L, 1);
} else {
lua_pop(L, 1); // pop the nil.
}
if (p->phc.selector_func == NULL) {
proxy_lua_error(L, "cannot create pool missing 'dist' argument");
}
return 1;
}
static int mcplib_pool_proxy_gc(lua_State *L) {
mcp_pool_proxy_t *pp = luaL_checkudata(L, -1, "mcp.pool_proxy");
mcp_pool_t *p = pp->main;
pthread_mutex_lock(&p->g.lock);
p->g.refcount--;
if (p->g.refcount == 0) {
proxy_ctx_t *ctx = p->ctx;
pthread_mutex_lock(&ctx->manager_lock);
STAILQ_INSERT_TAIL(&ctx->manager_head, &p->g, next);
pthread_cond_signal(&ctx->manager_cond);
pthread_mutex_unlock(&ctx->manager_lock);
}
pthread_mutex_unlock(&p->g.lock);
return 0;
}
mcp_backend_t *mcplib_pool_proxy_call_helper(mcp_pool_proxy_t *pp, const char *key, size_t len) {
mcp_pool_t *p = pp->main;
if (p->key_filter) {
key = p->key_filter(p->key_filter_conf, key, len, &len);
P_DEBUG("%s: filtered key for hashing (%.*s)\n", __func__, (int)len, key);
}
uint64_t hash = p->key_hasher(key, len, p->hash_seed);
uint32_t lookup = p->phc.selector_func(hash, p->phc.ctx);
assert(p->phc.ctx != NULL);
if (lookup >= p->pool_size) {
return NULL;
}
return pp->pool[lookup].be;
}
static int mcplib_backend_use_iothread(lua_State *L) {
luaL_checktype(L, -1, LUA_TBOOLEAN);
int state = lua_toboolean(L, -1);
proxy_ctx_t *ctx = PROXY_GET_CTX(L);
STAT_L(ctx);
ctx->tunables.use_iothread = state;
STAT_UL(ctx);
return 0;
}
static int mcplib_backend_use_tls(lua_State *L) {