1dfc11533SChris Williamson /*
2dfc11533SChris Williamson * CDDL HEADER START
3dfc11533SChris Williamson *
4dfc11533SChris Williamson * This file and its contents are supplied under the terms of the
5dfc11533SChris Williamson * Common Development and Distribution License ("CDDL"), version 1.0.
6dfc11533SChris Williamson * You may only use this file in accordance with the terms of version
7dfc11533SChris Williamson * 1.0 of the CDDL.
8dfc11533SChris Williamson *
9dfc11533SChris Williamson * A full copy of the text of the CDDL should have accompanied this
10dfc11533SChris Williamson * source. A copy of the CDDL is also available via the Internet at
11dfc11533SChris Williamson * http://www.illumos.org/license/CDDL.
12dfc11533SChris Williamson *
13dfc11533SChris Williamson * CDDL HEADER END
14dfc11533SChris Williamson */
15dfc11533SChris Williamson
16dfc11533SChris Williamson /*
172840dce1SChris Williamson * Copyright (c) 2016, 2017 by Delphix. All rights reserved.
18dfc11533SChris Williamson */
19dfc11533SChris Williamson
20dfc11533SChris Williamson /*
21dfc11533SChris Williamson * ZFS Channel Programs (ZCP)
22dfc11533SChris Williamson *
23dfc11533SChris Williamson * The ZCP interface allows various ZFS commands and operations ZFS
24dfc11533SChris Williamson * administrative operations (e.g. creating and destroying snapshots, typically
25*bbf21555SRichard Lowe * performed via an ioctl to /dev/zfs by the zfs(8) command and
26dfc11533SChris Williamson * libzfs/libzfs_core) to be run * programmatically as a Lua script. A ZCP
27dfc11533SChris Williamson * script is run as a dsl_sync_task and fully executed during one transaction
28dfc11533SChris Williamson * group sync. This ensures that no other changes can be written concurrently
29dfc11533SChris Williamson * with a running Lua script. Combining multiple calls to the exposed ZFS
30dfc11533SChris Williamson * functions into one script gives a number of benefits:
31dfc11533SChris Williamson *
32dfc11533SChris Williamson * 1. Atomicity. For some compound or iterative operations, it's useful to be
33dfc11533SChris Williamson * able to guarantee that the state of a pool has not changed between calls to
34dfc11533SChris Williamson * ZFS.
35dfc11533SChris Williamson *
36dfc11533SChris Williamson * 2. Performance. If a large number of changes need to be made (e.g. deleting
37dfc11533SChris Williamson * many filesystems), there can be a significant performance penalty as a
38dfc11533SChris Williamson * result of the need to wait for a transaction group sync to pass for every
39dfc11533SChris Williamson * single operation. When expressed as a single ZCP script, all these changes
40dfc11533SChris Williamson * can be performed at once in one txg sync.
41dfc11533SChris Williamson *
42dfc11533SChris Williamson * A modified version of the Lua 5.2 interpreter is used to run channel program
43dfc11533SChris Williamson * scripts. The Lua 5.2 manual can be found at:
44dfc11533SChris Williamson *
45dfc11533SChris Williamson * http://www.lua.org/manual/5.2/
46dfc11533SChris Williamson *
47dfc11533SChris Williamson * If being run by a user (via an ioctl syscall), executing a ZCP script
48dfc11533SChris Williamson * requires root privileges in the global zone.
49dfc11533SChris Williamson *
50dfc11533SChris Williamson * Scripts are passed to zcp_eval() as a string, then run in a synctask by
51dfc11533SChris Williamson * zcp_eval_sync(). Arguments can be passed into the Lua script as an nvlist,
52dfc11533SChris Williamson * which will be converted to a Lua table. Similarly, values returned from
53dfc11533SChris Williamson * a ZCP script will be converted to an nvlist. See zcp_lua_to_nvlist_impl()
54dfc11533SChris Williamson * for details on exact allowed types and conversion.
55dfc11533SChris Williamson *
56dfc11533SChris Williamson * ZFS functionality is exposed to a ZCP script as a library of function calls.
57dfc11533SChris Williamson * These calls are sorted into submodules, such as zfs.list and zfs.sync, for
58dfc11533SChris Williamson * iterators and synctasks, respectively. Each of these submodules resides in
59dfc11533SChris Williamson * its own source file, with a zcp_*_info structure describing each library
60dfc11533SChris Williamson * call in the submodule.
61dfc11533SChris Williamson *
62dfc11533SChris Williamson * Error handling in ZCP scripts is handled by a number of different methods
63dfc11533SChris Williamson * based on severity:
64dfc11533SChris Williamson *
65dfc11533SChris Williamson * 1. Memory and time limits are in place to prevent a channel program from
66dfc11533SChris Williamson * consuming excessive system or running forever. If one of these limits is
67dfc11533SChris Williamson * hit, the channel program will be stopped immediately and return from
68dfc11533SChris Williamson * zcp_eval() with an error code. No attempt will be made to roll back or undo
69dfc11533SChris Williamson * any changes made by the channel program before the error occured.
70dfc11533SChris Williamson * Consumers invoking zcp_eval() from elsewhere in the kernel may pass a time
71dfc11533SChris Williamson * limit of 0, disabling the time limit.
72dfc11533SChris Williamson *
73dfc11533SChris Williamson * 2. Internal Lua errors can occur as a result of a syntax error, calling a
74dfc11533SChris Williamson * library function with incorrect arguments, invoking the error() function,
75dfc11533SChris Williamson * failing an assert(), or other runtime errors. In these cases the channel
76dfc11533SChris Williamson * program will stop executing and return from zcp_eval() with an error code.
77dfc11533SChris Williamson * In place of a return value, an error message will also be returned in the
78dfc11533SChris Williamson * 'result' nvlist containing information about the error. No attempt will be
79dfc11533SChris Williamson * made to roll back or undo any changes made by the channel program before the
80dfc11533SChris Williamson * error occured.
81dfc11533SChris Williamson *
82dfc11533SChris Williamson * 3. If an error occurs inside a ZFS library call which returns an error code,
83dfc11533SChris Williamson * the error is returned to the Lua script to be handled as desired.
84dfc11533SChris Williamson *
85dfc11533SChris Williamson * In the first two cases, Lua's error-throwing mechanism is used, which
86dfc11533SChris Williamson * longjumps out of the script execution with luaL_error() and returns with the
87dfc11533SChris Williamson * error.
88dfc11533SChris Williamson *
89*bbf21555SRichard Lowe * See zfs-program(8) for more information on high level usage.
90dfc11533SChris Williamson */
91dfc11533SChris Williamson
92dfc11533SChris Williamson #include "lua.h"
93dfc11533SChris Williamson #include "lualib.h"
94dfc11533SChris Williamson #include "lauxlib.h"
95dfc11533SChris Williamson
96dfc11533SChris Williamson #include <sys/dsl_prop.h>
97dfc11533SChris Williamson #include <sys/dsl_synctask.h>
98dfc11533SChris Williamson #include <sys/dsl_dataset.h>
99dfc11533SChris Williamson #include <sys/zcp.h>
100dfc11533SChris Williamson #include <sys/zcp_iter.h>
101dfc11533SChris Williamson #include <sys/zcp_prop.h>
102dfc11533SChris Williamson #include <sys/zcp_global.h>
103dfc11533SChris Williamson #include <util/sscanf.h>
104dfc11533SChris Williamson
1052840dce1SChris Williamson #define ZCP_NVLIST_MAX_DEPTH 20
1062840dce1SChris Williamson
107dfc11533SChris Williamson uint64_t zfs_lua_check_instrlimit_interval = 100;
108dfc11533SChris Williamson uint64_t zfs_lua_max_instrlimit = ZCP_MAX_INSTRLIMIT;
109dfc11533SChris Williamson uint64_t zfs_lua_max_memlimit = ZCP_MAX_MEMLIMIT;
110dfc11533SChris Williamson
1112840dce1SChris Williamson /*
1122840dce1SChris Williamson * Forward declarations for mutually recursive functions
1132840dce1SChris Williamson */
114dfc11533SChris Williamson static int zcp_nvpair_value_to_lua(lua_State *, nvpair_t *, char *, int);
115dfc11533SChris Williamson static int zcp_lua_to_nvlist_impl(lua_State *, int, nvlist_t *, const char *,
116dfc11533SChris Williamson int);
117dfc11533SChris Williamson
118dfc11533SChris Williamson /*
119dfc11533SChris Williamson * The outer-most error callback handler for use with lua_pcall(). On
120dfc11533SChris Williamson * error Lua will call this callback with a single argument that
121dfc11533SChris Williamson * represents the error value. In most cases this will be a string
122dfc11533SChris Williamson * containing an error message, but channel programs can use Lua's
123dfc11533SChris Williamson * error() function to return arbitrary objects as errors. This callback
124dfc11533SChris Williamson * returns (on the Lua stack) the original error object along with a traceback.
125dfc11533SChris Williamson *
126dfc11533SChris Williamson * Fatal Lua errors can occur while resources are held, so we also call any
127dfc11533SChris Williamson * registered cleanup function here.
128dfc11533SChris Williamson */
129dfc11533SChris Williamson static int
zcp_error_handler(lua_State * state)130dfc11533SChris Williamson zcp_error_handler(lua_State *state)
131dfc11533SChris Williamson {
132dfc11533SChris Williamson const char *msg;
133dfc11533SChris Williamson
134dfc11533SChris Williamson zcp_cleanup(state);
135dfc11533SChris Williamson
136dfc11533SChris Williamson VERIFY3U(1, ==, lua_gettop(state));
137dfc11533SChris Williamson msg = lua_tostring(state, 1);
138dfc11533SChris Williamson luaL_traceback(state, state, msg, 1);
139dfc11533SChris Williamson return (1);
140dfc11533SChris Williamson }
141dfc11533SChris Williamson
142dfc11533SChris Williamson int
zcp_argerror(lua_State * state,int narg,const char * msg,...)143dfc11533SChris Williamson zcp_argerror(lua_State *state, int narg, const char *msg, ...)
144dfc11533SChris Williamson {
145dfc11533SChris Williamson va_list alist;
146dfc11533SChris Williamson
147dfc11533SChris Williamson va_start(alist, msg);
148dfc11533SChris Williamson const char *buf = lua_pushvfstring(state, msg, alist);
149dfc11533SChris Williamson va_end(alist);
150dfc11533SChris Williamson
151dfc11533SChris Williamson return (luaL_argerror(state, narg, buf));
152dfc11533SChris Williamson }
153dfc11533SChris Williamson
154dfc11533SChris Williamson /*
155dfc11533SChris Williamson * Install a new cleanup function, which will be invoked with the given
156dfc11533SChris Williamson * opaque argument if a fatal error causes the Lua interpreter to longjump out
157dfc11533SChris Williamson * of a function call.
158dfc11533SChris Williamson *
159dfc11533SChris Williamson * If an error occurs, the cleanup function will be invoked exactly once and
160dfc11533SChris Williamson * then unreigstered.
161a3b28680SSerapheim Dimitropoulos *
162a3b28680SSerapheim Dimitropoulos * Returns the registered cleanup handler so the caller can deregister it
163a3b28680SSerapheim Dimitropoulos * if no error occurs.
164dfc11533SChris Williamson */
165a3b28680SSerapheim Dimitropoulos zcp_cleanup_handler_t *
zcp_register_cleanup(lua_State * state,zcp_cleanup_t cleanfunc,void * cleanarg)166dfc11533SChris Williamson zcp_register_cleanup(lua_State *state, zcp_cleanup_t cleanfunc, void *cleanarg)
167dfc11533SChris Williamson {
168dfc11533SChris Williamson zcp_run_info_t *ri = zcp_run_info(state);
169dfc11533SChris Williamson
170a3b28680SSerapheim Dimitropoulos zcp_cleanup_handler_t *zch = kmem_alloc(sizeof (*zch), KM_SLEEP);
171a3b28680SSerapheim Dimitropoulos zch->zch_cleanup_func = cleanfunc;
172a3b28680SSerapheim Dimitropoulos zch->zch_cleanup_arg = cleanarg;
173a3b28680SSerapheim Dimitropoulos list_insert_head(&ri->zri_cleanup_handlers, zch);
174a3b28680SSerapheim Dimitropoulos
175a3b28680SSerapheim Dimitropoulos return (zch);
176dfc11533SChris Williamson }
177dfc11533SChris Williamson
178dfc11533SChris Williamson void
zcp_deregister_cleanup(lua_State * state,zcp_cleanup_handler_t * zch)179a3b28680SSerapheim Dimitropoulos zcp_deregister_cleanup(lua_State *state, zcp_cleanup_handler_t *zch)
180dfc11533SChris Williamson {
181dfc11533SChris Williamson zcp_run_info_t *ri = zcp_run_info(state);
182a3b28680SSerapheim Dimitropoulos list_remove(&ri->zri_cleanup_handlers, zch);
183a3b28680SSerapheim Dimitropoulos kmem_free(zch, sizeof (*zch));
184dfc11533SChris Williamson }
185dfc11533SChris Williamson
186dfc11533SChris Williamson /*
187a3b28680SSerapheim Dimitropoulos * Execute the currently registered cleanup handlers then free them and
188a3b28680SSerapheim Dimitropoulos * destroy the handler list.
189dfc11533SChris Williamson */
190dfc11533SChris Williamson void
zcp_cleanup(lua_State * state)191dfc11533SChris Williamson zcp_cleanup(lua_State *state)
192dfc11533SChris Williamson {
193dfc11533SChris Williamson zcp_run_info_t *ri = zcp_run_info(state);
194dfc11533SChris Williamson
195a3b28680SSerapheim Dimitropoulos for (zcp_cleanup_handler_t *zch =
196a3b28680SSerapheim Dimitropoulos list_remove_head(&ri->zri_cleanup_handlers); zch != NULL;
197a3b28680SSerapheim Dimitropoulos zch = list_remove_head(&ri->zri_cleanup_handlers)) {
198a3b28680SSerapheim Dimitropoulos zch->zch_cleanup_func(zch->zch_cleanup_arg);
199a3b28680SSerapheim Dimitropoulos kmem_free(zch, sizeof (*zch));
200dfc11533SChris Williamson }
201dfc11533SChris Williamson }
202dfc11533SChris Williamson
203dfc11533SChris Williamson /*
204dfc11533SChris Williamson * Convert the lua table at the given index on the Lua stack to an nvlist
205dfc11533SChris Williamson * and return it.
206dfc11533SChris Williamson *
207dfc11533SChris Williamson * If the table can not be converted for any reason, NULL is returned and
208dfc11533SChris Williamson * an error message is pushed onto the Lua stack.
209dfc11533SChris Williamson */
210dfc11533SChris Williamson static nvlist_t *
zcp_table_to_nvlist(lua_State * state,int index,int depth)211dfc11533SChris Williamson zcp_table_to_nvlist(lua_State *state, int index, int depth)
212dfc11533SChris Williamson {
213dfc11533SChris Williamson nvlist_t *nvl;
214dfc11533SChris Williamson /*
215dfc11533SChris Williamson * Converting a Lua table to an nvlist with key uniqueness checking is
216dfc11533SChris Williamson * O(n^2) in the number of keys in the nvlist, which can take a long
217dfc11533SChris Williamson * time when we return a large table from a channel program.
218dfc11533SChris Williamson * Furthermore, Lua's table interface *almost* guarantees unique keys
219dfc11533SChris Williamson * on its own (details below). Therefore, we don't use fnvlist_alloc()
220dfc11533SChris Williamson * here to avoid the built-in uniqueness checking.
221dfc11533SChris Williamson *
222dfc11533SChris Williamson * The *almost* is because it's possible to have key collisions between
223dfc11533SChris Williamson * e.g. the string "1" and the number 1, or the string "true" and the
224dfc11533SChris Williamson * boolean true, so we explicitly check that when we're looking at a
225dfc11533SChris Williamson * key which is an integer / boolean or a string that can be parsed as
226dfc11533SChris Williamson * one of those types. In the worst case this could still devolve into
227dfc11533SChris Williamson * O(n^2), so we only start doing these checks on boolean/integer keys
228dfc11533SChris Williamson * once we've seen a string key which fits this weird usage pattern.
229dfc11533SChris Williamson *
230dfc11533SChris Williamson * Ultimately, we still want callers to know that the keys in this
231dfc11533SChris Williamson * nvlist are unique, so before we return this we set the nvlist's
232dfc11533SChris Williamson * flags to reflect that.
233dfc11533SChris Williamson */
234dfc11533SChris Williamson VERIFY0(nvlist_alloc(&nvl, 0, KM_SLEEP));
235dfc11533SChris Williamson
236dfc11533SChris Williamson /*
237dfc11533SChris Williamson * Push an empty stack slot where lua_next() will store each
238dfc11533SChris Williamson * table key.
239dfc11533SChris Williamson */
240dfc11533SChris Williamson lua_pushnil(state);
241dfc11533SChris Williamson boolean_t saw_str_could_collide = B_FALSE;
242dfc11533SChris Williamson while (lua_next(state, index) != 0) {
243dfc11533SChris Williamson /*
244dfc11533SChris Williamson * The next key-value pair from the table at index is
245dfc11533SChris Williamson * now on the stack, with the key at stack slot -2 and
246dfc11533SChris Williamson * the value at slot -1.
247dfc11533SChris Williamson */
248dfc11533SChris Williamson int err = 0;
249dfc11533SChris Williamson char buf[32];
250dfc11533SChris Williamson const char *key = NULL;
251dfc11533SChris Williamson boolean_t key_could_collide = B_FALSE;
252dfc11533SChris Williamson
253dfc11533SChris Williamson switch (lua_type(state, -2)) {
254dfc11533SChris Williamson case LUA_TSTRING:
255dfc11533SChris Williamson key = lua_tostring(state, -2);
256dfc11533SChris Williamson
257dfc11533SChris Williamson /* check if this could collide with a number or bool */
258dfc11533SChris Williamson long long tmp;
259dfc11533SChris Williamson int parselen;
260dfc11533SChris Williamson if ((sscanf(key, "%lld%n", &tmp, &parselen) > 0 &&
261dfc11533SChris Williamson parselen == strlen(key)) ||
262dfc11533SChris Williamson strcmp(key, "true") == 0 ||
263dfc11533SChris Williamson strcmp(key, "false") == 0) {
264dfc11533SChris Williamson key_could_collide = B_TRUE;
265dfc11533SChris Williamson saw_str_could_collide = B_TRUE;
266dfc11533SChris Williamson }
267dfc11533SChris Williamson break;
268dfc11533SChris Williamson case LUA_TBOOLEAN:
269dfc11533SChris Williamson key = (lua_toboolean(state, -2) == B_TRUE ?
270dfc11533SChris Williamson "true" : "false");
271dfc11533SChris Williamson if (saw_str_could_collide) {
272dfc11533SChris Williamson key_could_collide = B_TRUE;
273dfc11533SChris Williamson }
274dfc11533SChris Williamson break;
275dfc11533SChris Williamson case LUA_TNUMBER:
276dfc11533SChris Williamson VERIFY3U(sizeof (buf), >,
277dfc11533SChris Williamson snprintf(buf, sizeof (buf), "%lld",
278dfc11533SChris Williamson (longlong_t)lua_tonumber(state, -2)));
279dfc11533SChris Williamson key = buf;
280dfc11533SChris Williamson if (saw_str_could_collide) {
281dfc11533SChris Williamson key_could_collide = B_TRUE;
282dfc11533SChris Williamson }
283dfc11533SChris Williamson break;
284dfc11533SChris Williamson default:
285dfc11533SChris Williamson fnvlist_free(nvl);
286dfc11533SChris Williamson (void) lua_pushfstring(state, "Invalid key "
287dfc11533SChris Williamson "type '%s' in table",
288dfc11533SChris Williamson lua_typename(state, lua_type(state, -2)));
289dfc11533SChris Williamson return (NULL);
290dfc11533SChris Williamson }
291dfc11533SChris Williamson /*
292dfc11533SChris Williamson * Check for type-mismatched key collisions, and throw an error.
293dfc11533SChris Williamson */
294dfc11533SChris Williamson if (key_could_collide && nvlist_exists(nvl, key)) {
295dfc11533SChris Williamson fnvlist_free(nvl);
296dfc11533SChris Williamson (void) lua_pushfstring(state, "Collision of "
297dfc11533SChris Williamson "key '%s' in table", key);
298dfc11533SChris Williamson return (NULL);
299dfc11533SChris Williamson }
300dfc11533SChris Williamson /*
301dfc11533SChris Williamson * Recursively convert the table value and insert into
302dfc11533SChris Williamson * the new nvlist with the parsed key. To prevent
303dfc11533SChris Williamson * stack overflow on circular or heavily nested tables,
304dfc11533SChris Williamson * we track the current nvlist depth.
305dfc11533SChris Williamson */
306dfc11533SChris Williamson if (depth >= ZCP_NVLIST_MAX_DEPTH) {
307dfc11533SChris Williamson fnvlist_free(nvl);
308dfc11533SChris Williamson (void) lua_pushfstring(state, "Maximum table "
309dfc11533SChris Williamson "depth (%d) exceeded for table",
310dfc11533SChris Williamson ZCP_NVLIST_MAX_DEPTH);
311dfc11533SChris Williamson return (NULL);
312dfc11533SChris Williamson }
313dfc11533SChris Williamson err = zcp_lua_to_nvlist_impl(state, -1, nvl, key,
314dfc11533SChris Williamson depth + 1);
315dfc11533SChris Williamson if (err != 0) {
316dfc11533SChris Williamson fnvlist_free(nvl);
317dfc11533SChris Williamson /*
318dfc11533SChris Williamson * Error message has been pushed to the lua
319dfc11533SChris Williamson * stack by the recursive call.
320dfc11533SChris Williamson */
321dfc11533SChris Williamson return (NULL);
322dfc11533SChris Williamson }
323dfc11533SChris Williamson /*
324dfc11533SChris Williamson * Pop the value pushed by lua_next().
325dfc11533SChris Williamson */
326dfc11533SChris Williamson lua_pop(state, 1);
327dfc11533SChris Williamson }
328dfc11533SChris Williamson
329dfc11533SChris Williamson /*
330dfc11533SChris Williamson * Mark the nvlist as having unique keys. This is a little ugly, but we
331dfc11533SChris Williamson * ensured above that there are no duplicate keys in the nvlist.
332dfc11533SChris Williamson */
333dfc11533SChris Williamson nvl->nvl_nvflag |= NV_UNIQUE_NAME;
334dfc11533SChris Williamson
335dfc11533SChris Williamson return (nvl);
336dfc11533SChris Williamson }
337dfc11533SChris Williamson
338dfc11533SChris Williamson /*
339dfc11533SChris Williamson * Convert a value from the given index into the lua stack to an nvpair, adding
340dfc11533SChris Williamson * it to an nvlist with the given key.
341dfc11533SChris Williamson *
342dfc11533SChris Williamson * Values are converted as follows:
343dfc11533SChris Williamson *
344dfc11533SChris Williamson * string -> string
345dfc11533SChris Williamson * number -> int64
346dfc11533SChris Williamson * boolean -> boolean
347dfc11533SChris Williamson * nil -> boolean (no value)
348dfc11533SChris Williamson *
349dfc11533SChris Williamson * Lua tables are converted to nvlists and then inserted. The table's keys
350dfc11533SChris Williamson * are converted to strings then used as keys in the nvlist to store each table
351dfc11533SChris Williamson * element. Keys are converted as follows:
352dfc11533SChris Williamson *
353dfc11533SChris Williamson * string -> no change
354dfc11533SChris Williamson * number -> "%lld"
355dfc11533SChris Williamson * boolean -> "true" | "false"
356dfc11533SChris Williamson * nil -> error
357dfc11533SChris Williamson *
358dfc11533SChris Williamson * In the case of a key collision, an error is thrown.
359dfc11533SChris Williamson *
360dfc11533SChris Williamson * If an error is encountered, a nonzero error code is returned, and an error
361dfc11533SChris Williamson * string will be pushed onto the Lua stack.
362dfc11533SChris Williamson */
363dfc11533SChris Williamson static int
zcp_lua_to_nvlist_impl(lua_State * state,int index,nvlist_t * nvl,const char * key,int depth)364dfc11533SChris Williamson zcp_lua_to_nvlist_impl(lua_State *state, int index, nvlist_t *nvl,
365dfc11533SChris Williamson const char *key, int depth)
366dfc11533SChris Williamson {
367dfc11533SChris Williamson /*
368dfc11533SChris Williamson * Verify that we have enough remaining space in the lua stack to parse
369dfc11533SChris Williamson * a key-value pair and push an error.
370dfc11533SChris Williamson */
371dfc11533SChris Williamson if (!lua_checkstack(state, 3)) {
372dfc11533SChris Williamson (void) lua_pushstring(state, "Lua stack overflow");
373dfc11533SChris Williamson return (1);
374dfc11533SChris Williamson }
375dfc11533SChris Williamson
376dfc11533SChris Williamson index = lua_absindex(state, index);
377dfc11533SChris Williamson
378dfc11533SChris Williamson switch (lua_type(state, index)) {
379dfc11533SChris Williamson case LUA_TNIL:
380dfc11533SChris Williamson fnvlist_add_boolean(nvl, key);
381dfc11533SChris Williamson break;
382dfc11533SChris Williamson case LUA_TBOOLEAN:
383dfc11533SChris Williamson fnvlist_add_boolean_value(nvl, key,
384dfc11533SChris Williamson lua_toboolean(state, index));
385dfc11533SChris Williamson break;
386dfc11533SChris Williamson case LUA_TNUMBER:
387dfc11533SChris Williamson fnvlist_add_int64(nvl, key, lua_tonumber(state, index));
388dfc11533SChris Williamson break;
389dfc11533SChris Williamson case LUA_TSTRING:
390dfc11533SChris Williamson fnvlist_add_string(nvl, key, lua_tostring(state, index));
391dfc11533SChris Williamson break;
392dfc11533SChris Williamson case LUA_TTABLE: {
393dfc11533SChris Williamson nvlist_t *value_nvl = zcp_table_to_nvlist(state, index, depth);
394dfc11533SChris Williamson if (value_nvl == NULL)
395dfc11533SChris Williamson return (EINVAL);
396dfc11533SChris Williamson
397dfc11533SChris Williamson fnvlist_add_nvlist(nvl, key, value_nvl);
398dfc11533SChris Williamson fnvlist_free(value_nvl);
399dfc11533SChris Williamson break;
400dfc11533SChris Williamson }
401dfc11533SChris Williamson default:
402dfc11533SChris Williamson (void) lua_pushfstring(state,
403dfc11533SChris Williamson "Invalid value type '%s' for key '%s'",
404dfc11533SChris Williamson lua_typename(state, lua_type(state, index)), key);
405dfc11533SChris Williamson return (EINVAL);
406dfc11533SChris Williamson }
407dfc11533SChris Williamson
408dfc11533SChris Williamson return (0);
409dfc11533SChris Williamson }
410dfc11533SChris Williamson
411dfc11533SChris Williamson /*
412dfc11533SChris Williamson * Convert a lua value to an nvpair, adding it to an nvlist with the given key.
413dfc11533SChris Williamson */
414fe3ba4d1SMatthew Ahrens static void
zcp_lua_to_nvlist(lua_State * state,int index,nvlist_t * nvl,const char * key)415dfc11533SChris Williamson zcp_lua_to_nvlist(lua_State *state, int index, nvlist_t *nvl, const char *key)
416dfc11533SChris Williamson {
417dfc11533SChris Williamson /*
418dfc11533SChris Williamson * On error, zcp_lua_to_nvlist_impl pushes an error string onto the Lua
419dfc11533SChris Williamson * stack before returning with a nonzero error code. If an error is
420dfc11533SChris Williamson * returned, throw a fatal lua error with the given string.
421dfc11533SChris Williamson */
422dfc11533SChris Williamson if (zcp_lua_to_nvlist_impl(state, index, nvl, key, 0) != 0)
423dfc11533SChris Williamson (void) lua_error(state);
424dfc11533SChris Williamson }
425dfc11533SChris Williamson
426fe3ba4d1SMatthew Ahrens static int
zcp_lua_to_nvlist_helper(lua_State * state)427dfc11533SChris Williamson zcp_lua_to_nvlist_helper(lua_State *state)
428dfc11533SChris Williamson {
429dfc11533SChris Williamson nvlist_t *nv = (nvlist_t *)lua_touserdata(state, 2);
430dfc11533SChris Williamson const char *key = (const char *)lua_touserdata(state, 1);
431dfc11533SChris Williamson zcp_lua_to_nvlist(state, 3, nv, key);
432dfc11533SChris Williamson return (0);
433dfc11533SChris Williamson }
434dfc11533SChris Williamson
435fe3ba4d1SMatthew Ahrens static void
zcp_convert_return_values(lua_State * state,nvlist_t * nvl,const char * key,int * result)436dfc11533SChris Williamson zcp_convert_return_values(lua_State *state, nvlist_t *nvl,
437d0cb1fb9SDon Brady const char *key, int *result)
438dfc11533SChris Williamson {
439dfc11533SChris Williamson int err;
440fe3ba4d1SMatthew Ahrens VERIFY3U(1, ==, lua_gettop(state));
441dfc11533SChris Williamson lua_pushcfunction(state, zcp_lua_to_nvlist_helper);
442dfc11533SChris Williamson lua_pushlightuserdata(state, (char *)key);
443dfc11533SChris Williamson lua_pushlightuserdata(state, nvl);
444dfc11533SChris Williamson lua_pushvalue(state, 1);
445dfc11533SChris Williamson lua_remove(state, 1);
446dfc11533SChris Williamson err = lua_pcall(state, 3, 0, 0); /* zcp_lua_to_nvlist_helper */
447dfc11533SChris Williamson if (err != 0) {
448dfc11533SChris Williamson zcp_lua_to_nvlist(state, 1, nvl, ZCP_RET_ERROR);
449d0cb1fb9SDon Brady *result = SET_ERROR(ECHRNG);
450dfc11533SChris Williamson }
451dfc11533SChris Williamson }
452dfc11533SChris Williamson
453dfc11533SChris Williamson /*
454dfc11533SChris Williamson * Push a Lua table representing nvl onto the stack. If it can't be
455dfc11533SChris Williamson * converted, return EINVAL, fill in errbuf, and push nothing. errbuf may
456dfc11533SChris Williamson * be specified as NULL, in which case no error string will be output.
457dfc11533SChris Williamson *
458dfc11533SChris Williamson * Most nvlists are converted as simple key->value Lua tables, but we make
459dfc11533SChris Williamson * an exception for the case where all nvlist entries are BOOLEANs (a string
460dfc11533SChris Williamson * key without a value). In Lua, a table key pointing to a value of Nil
461dfc11533SChris Williamson * (no value) is equivalent to the key not existing, so a BOOLEAN nvlist
462dfc11533SChris Williamson * entry can't be directly converted to a Lua table entry. Nvlists of entirely
463dfc11533SChris Williamson * BOOLEAN entries are frequently used to pass around lists of datasets, so for
464dfc11533SChris Williamson * convenience we check for this case, and convert it to a simple Lua array of
465dfc11533SChris Williamson * strings.
466dfc11533SChris Williamson */
467dfc11533SChris Williamson int
zcp_nvlist_to_lua(lua_State * state,nvlist_t * nvl,char * errbuf,int errbuf_len)468dfc11533SChris Williamson zcp_nvlist_to_lua(lua_State *state, nvlist_t *nvl,
469dfc11533SChris Williamson char *errbuf, int errbuf_len)
470dfc11533SChris Williamson {
471dfc11533SChris Williamson nvpair_t *pair;
472dfc11533SChris Williamson lua_newtable(state);
473dfc11533SChris Williamson boolean_t has_values = B_FALSE;
474dfc11533SChris Williamson /*
475dfc11533SChris Williamson * If the list doesn't have any values, just convert it to a string
476dfc11533SChris Williamson * array.
477dfc11533SChris Williamson */
478dfc11533SChris Williamson for (pair = nvlist_next_nvpair(nvl, NULL);
479dfc11533SChris Williamson pair != NULL; pair = nvlist_next_nvpair(nvl, pair)) {
480dfc11533SChris Williamson if (nvpair_type(pair) != DATA_TYPE_BOOLEAN) {
481dfc11533SChris Williamson has_values = B_TRUE;
482dfc11533SChris Williamson break;
483dfc11533SChris Williamson }
484dfc11533SChris Williamson }
485dfc11533SChris Williamson if (!has_values) {
486dfc11533SChris Williamson int i = 1;
487dfc11533SChris Williamson for (pair = nvlist_next_nvpair(nvl, NULL);
488dfc11533SChris Williamson pair != NULL; pair = nvlist_next_nvpair(nvl, pair)) {
489dfc11533SChris Williamson (void) lua_pushinteger(state, i);
490dfc11533SChris Williamson (void) lua_pushstring(state, nvpair_name(pair));
491dfc11533SChris Williamson (void) lua_settable(state, -3);
492dfc11533SChris Williamson i++;
493dfc11533SChris Williamson }
494dfc11533SChris Williamson } else {
495dfc11533SChris Williamson for (pair = nvlist_next_nvpair(nvl, NULL);
496dfc11533SChris Williamson pair != NULL; pair = nvlist_next_nvpair(nvl, pair)) {
497dfc11533SChris Williamson int err = zcp_nvpair_value_to_lua(state, pair,
498dfc11533SChris Williamson errbuf, errbuf_len);
499dfc11533SChris Williamson if (err != 0) {
500dfc11533SChris Williamson lua_pop(state, 1);
501dfc11533SChris Williamson return (err);
502dfc11533SChris Williamson }
503dfc11533SChris Williamson (void) lua_setfield(state, -2, nvpair_name(pair));
504dfc11533SChris Williamson }
505dfc11533SChris Williamson }
506dfc11533SChris Williamson return (0);
507dfc11533SChris Williamson }
508dfc11533SChris Williamson
509dfc11533SChris Williamson /*
510dfc11533SChris Williamson * Push a Lua object representing the value of "pair" onto the stack.
511dfc11533SChris Williamson *
512dfc11533SChris Williamson * Only understands boolean_value, string, int64, nvlist,
513dfc11533SChris Williamson * string_array, and int64_array type values. For other
514dfc11533SChris Williamson * types, returns EINVAL, fills in errbuf, and pushes nothing.
515dfc11533SChris Williamson */
516dfc11533SChris Williamson static int
zcp_nvpair_value_to_lua(lua_State * state,nvpair_t * pair,char * errbuf,int errbuf_len)517dfc11533SChris Williamson zcp_nvpair_value_to_lua(lua_State *state, nvpair_t *pair,
518dfc11533SChris Williamson char *errbuf, int errbuf_len)
519dfc11533SChris Williamson {
520dfc11533SChris Williamson int err = 0;
521dfc11533SChris Williamson
522dfc11533SChris Williamson if (pair == NULL) {
523dfc11533SChris Williamson lua_pushnil(state);
524dfc11533SChris Williamson return (0);
525dfc11533SChris Williamson }
526dfc11533SChris Williamson
527dfc11533SChris Williamson switch (nvpair_type(pair)) {
528dfc11533SChris Williamson case DATA_TYPE_BOOLEAN_VALUE:
529dfc11533SChris Williamson (void) lua_pushboolean(state,
530dfc11533SChris Williamson fnvpair_value_boolean_value(pair));
531dfc11533SChris Williamson break;
532dfc11533SChris Williamson case DATA_TYPE_STRING:
533dfc11533SChris Williamson (void) lua_pushstring(state, fnvpair_value_string(pair));
534dfc11533SChris Williamson break;
535dfc11533SChris Williamson case DATA_TYPE_INT64:
536dfc11533SChris Williamson (void) lua_pushinteger(state, fnvpair_value_int64(pair));
537dfc11533SChris Williamson break;
538dfc11533SChris Williamson case DATA_TYPE_NVLIST:
539dfc11533SChris Williamson err = zcp_nvlist_to_lua(state,
540dfc11533SChris Williamson fnvpair_value_nvlist(pair), errbuf, errbuf_len);
541dfc11533SChris Williamson break;
542dfc11533SChris Williamson case DATA_TYPE_STRING_ARRAY: {
543dfc11533SChris Williamson char **strarr;
544dfc11533SChris Williamson uint_t nelem;
545dfc11533SChris Williamson (void) nvpair_value_string_array(pair, &strarr, &nelem);
546dfc11533SChris Williamson lua_newtable(state);
547dfc11533SChris Williamson for (int i = 0; i < nelem; i++) {
548dfc11533SChris Williamson (void) lua_pushinteger(state, i + 1);
549dfc11533SChris Williamson (void) lua_pushstring(state, strarr[i]);
550dfc11533SChris Williamson (void) lua_settable(state, -3);
551dfc11533SChris Williamson }
552dfc11533SChris Williamson break;
553dfc11533SChris Williamson }
554dfc11533SChris Williamson case DATA_TYPE_UINT64_ARRAY: {
555dfc11533SChris Williamson uint64_t *intarr;
556dfc11533SChris Williamson uint_t nelem;
557dfc11533SChris Williamson (void) nvpair_value_uint64_array(pair, &intarr, &nelem);
558dfc11533SChris Williamson lua_newtable(state);
559dfc11533SChris Williamson for (int i = 0; i < nelem; i++) {
560dfc11533SChris Williamson (void) lua_pushinteger(state, i + 1);
561dfc11533SChris Williamson (void) lua_pushinteger(state, intarr[i]);
562dfc11533SChris Williamson (void) lua_settable(state, -3);
563dfc11533SChris Williamson }
564dfc11533SChris Williamson break;
565dfc11533SChris Williamson }
566dfc11533SChris Williamson case DATA_TYPE_INT64_ARRAY: {
567dfc11533SChris Williamson int64_t *intarr;
568dfc11533SChris Williamson uint_t nelem;
569dfc11533SChris Williamson (void) nvpair_value_int64_array(pair, &intarr, &nelem);
570dfc11533SChris Williamson lua_newtable(state);
571dfc11533SChris Williamson for (int i = 0; i < nelem; i++) {
572dfc11533SChris Williamson (void) lua_pushinteger(state, i + 1);
573dfc11533SChris Williamson (void) lua_pushinteger(state, intarr[i]);
574dfc11533SChris Williamson (void) lua_settable(state, -3);
575dfc11533SChris Williamson }
576dfc11533SChris Williamson break;
577dfc11533SChris Williamson }
578dfc11533SChris Williamson default: {
579dfc11533SChris Williamson if (errbuf != NULL) {
580dfc11533SChris Williamson (void) snprintf(errbuf, errbuf_len,
581dfc11533SChris Williamson "Unhandled nvpair type %d for key '%s'",
582dfc11533SChris Williamson nvpair_type(pair), nvpair_name(pair));
583dfc11533SChris Williamson }
584dfc11533SChris Williamson return (EINVAL);
585dfc11533SChris Williamson }
586dfc11533SChris Williamson }
587dfc11533SChris Williamson return (err);
588dfc11533SChris Williamson }
589dfc11533SChris Williamson
590dfc11533SChris Williamson int
zcp_dataset_hold_error(lua_State * state,dsl_pool_t * dp,const char * dsname,int error)591dfc11533SChris Williamson zcp_dataset_hold_error(lua_State *state, dsl_pool_t *dp, const char *dsname,
592dfc11533SChris Williamson int error)
593dfc11533SChris Williamson {
594dfc11533SChris Williamson if (error == ENOENT) {
595dfc11533SChris Williamson (void) zcp_argerror(state, 1, "no such dataset '%s'", dsname);
596dd328bf6SToomas Soome return (0); /* not reached; zcp_argerror will longjmp */
597dfc11533SChris Williamson } else if (error == EXDEV) {
598dfc11533SChris Williamson (void) zcp_argerror(state, 1,
599dfc11533SChris Williamson "dataset '%s' is not in the target pool '%s'",
600dfc11533SChris Williamson dsname, spa_name(dp->dp_spa));
601dd328bf6SToomas Soome return (0); /* not reached; zcp_argerror will longjmp */
602dfc11533SChris Williamson } else if (error == EIO) {
603dfc11533SChris Williamson (void) luaL_error(state,
604dfc11533SChris Williamson "I/O error while accessing dataset '%s'", dsname);
605dd328bf6SToomas Soome return (0); /* not reached; luaL_error will longjmp */
606dfc11533SChris Williamson } else if (error != 0) {
607dfc11533SChris Williamson (void) luaL_error(state,
608dfc11533SChris Williamson "unexpected error %d while accessing dataset '%s'",
609dfc11533SChris Williamson error, dsname);
610dd328bf6SToomas Soome return (0); /* not reached; luaL_error will longjmp */
611dfc11533SChris Williamson }
612dd328bf6SToomas Soome return (0);
613dfc11533SChris Williamson }
614dfc11533SChris Williamson
615dfc11533SChris Williamson /*
616dfc11533SChris Williamson * Note: will longjmp (via lua_error()) on error.
617dfc11533SChris Williamson * Assumes that the dsname is argument #1 (for error reporting purposes).
618dfc11533SChris Williamson */
619dfc11533SChris Williamson dsl_dataset_t *
zcp_dataset_hold(lua_State * state,dsl_pool_t * dp,const char * dsname,void * tag)620dfc11533SChris Williamson zcp_dataset_hold(lua_State *state, dsl_pool_t *dp, const char *dsname,
621dfc11533SChris Williamson void *tag)
622dfc11533SChris Williamson {
623dfc11533SChris Williamson dsl_dataset_t *ds;
624dfc11533SChris Williamson int error = dsl_dataset_hold(dp, dsname, tag, &ds);
625dfc11533SChris Williamson (void) zcp_dataset_hold_error(state, dp, dsname, error);
626dfc11533SChris Williamson return (ds);
627dfc11533SChris Williamson }
628dfc11533SChris Williamson
629dfc11533SChris Williamson static int zcp_debug(lua_State *);
630dfc11533SChris Williamson static zcp_lib_info_t zcp_debug_info = {
631dfc11533SChris Williamson .name = "debug",
632dfc11533SChris Williamson .func = zcp_debug,
633dfc11533SChris Williamson .pargs = {
634dfc11533SChris Williamson { .za_name = "debug string", .za_lua_type = LUA_TSTRING},
635dd328bf6SToomas Soome {NULL, 0}
636dfc11533SChris Williamson },
637dfc11533SChris Williamson .kwargs = {
638dd328bf6SToomas Soome {NULL, 0}
639dfc11533SChris Williamson }
640dfc11533SChris Williamson };
641dfc11533SChris Williamson
642dfc11533SChris Williamson static int
zcp_debug(lua_State * state)643dfc11533SChris Williamson zcp_debug(lua_State *state)
644dfc11533SChris Williamson {
645dfc11533SChris Williamson const char *dbgstring;
646dfc11533SChris Williamson zcp_run_info_t *ri = zcp_run_info(state);
647dfc11533SChris Williamson zcp_lib_info_t *libinfo = &zcp_debug_info;
648dfc11533SChris Williamson
649dfc11533SChris Williamson zcp_parse_args(state, libinfo->name, libinfo->pargs, libinfo->kwargs);
650dfc11533SChris Williamson
651dfc11533SChris Williamson dbgstring = lua_tostring(state, 1);
652dfc11533SChris Williamson
653dfc11533SChris Williamson zfs_dbgmsg("txg %lld ZCP: %s", ri->zri_tx->tx_txg, dbgstring);
654dfc11533SChris Williamson
655dfc11533SChris Williamson return (0);
656dfc11533SChris Williamson }
657dfc11533SChris Williamson
658dfc11533SChris Williamson static int zcp_exists(lua_State *);
659dfc11533SChris Williamson static zcp_lib_info_t zcp_exists_info = {
660dfc11533SChris Williamson .name = "exists",
661dfc11533SChris Williamson .func = zcp_exists,
662dfc11533SChris Williamson .pargs = {
663dfc11533SChris Williamson { .za_name = "dataset", .za_lua_type = LUA_TSTRING},
664dd328bf6SToomas Soome {NULL, 0}
665dfc11533SChris Williamson },
666dfc11533SChris Williamson .kwargs = {
667dd328bf6SToomas Soome {NULL, 0}
668dfc11533SChris Williamson }
669dfc11533SChris Williamson };
670dfc11533SChris Williamson
671dfc11533SChris Williamson static int
zcp_exists(lua_State * state)672dfc11533SChris Williamson zcp_exists(lua_State *state)
673dfc11533SChris Williamson {
674dfc11533SChris Williamson zcp_run_info_t *ri = zcp_run_info(state);
675dfc11533SChris Williamson dsl_pool_t *dp = ri->zri_pool;
676dfc11533SChris Williamson zcp_lib_info_t *libinfo = &zcp_exists_info;
677dfc11533SChris Williamson
678dfc11533SChris Williamson zcp_parse_args(state, libinfo->name, libinfo->pargs, libinfo->kwargs);
679dfc11533SChris Williamson
680dfc11533SChris Williamson const char *dsname = lua_tostring(state, 1);
681dfc11533SChris Williamson
682dfc11533SChris Williamson dsl_dataset_t *ds;
683dfc11533SChris Williamson int error = dsl_dataset_hold(dp, dsname, FTAG, &ds);
684dfc11533SChris Williamson if (error == 0) {
685dfc11533SChris Williamson dsl_dataset_rele(ds, FTAG);
686dfc11533SChris Williamson lua_pushboolean(state, B_TRUE);
687dfc11533SChris Williamson } else if (error == ENOENT) {
688dfc11533SChris Williamson lua_pushboolean(state, B_FALSE);
689dfc11533SChris Williamson } else if (error == EXDEV) {
690dfc11533SChris Williamson return (luaL_error(state, "dataset '%s' is not in the "
691dfc11533SChris Williamson "target pool", dsname));
692dfc11533SChris Williamson } else if (error == EIO) {
693dfc11533SChris Williamson return (luaL_error(state, "I/O error opening dataset '%s'",
694dfc11533SChris Williamson dsname));
695dfc11533SChris Williamson } else if (error != 0) {
696dfc11533SChris Williamson return (luaL_error(state, "unexpected error %d", error));
697dfc11533SChris Williamson }
698dfc11533SChris Williamson
6995f39f884SChris Williamson return (1);
700dfc11533SChris Williamson }
701dfc11533SChris Williamson
702dfc11533SChris Williamson /*
703dfc11533SChris Williamson * Allocate/realloc/free a buffer for the lua interpreter.
704dfc11533SChris Williamson *
705dfc11533SChris Williamson * When nsize is 0, behaves as free() and returns NULL.
706dfc11533SChris Williamson *
707dfc11533SChris Williamson * If ptr is NULL, behaves as malloc() and returns an allocated buffer of size
708dfc11533SChris Williamson * at least nsize.
709dfc11533SChris Williamson *
710dfc11533SChris Williamson * Otherwise, behaves as realloc(), changing the allocation from osize to nsize.
711dfc11533SChris Williamson * Shrinking the buffer size never fails.
712dfc11533SChris Williamson *
713dfc11533SChris Williamson * The original allocated buffer size is stored as a uint64 at the beginning of
714dfc11533SChris Williamson * the buffer to avoid actually reallocating when shrinking a buffer, since lua
715dfc11533SChris Williamson * requires that this operation never fail.
716dfc11533SChris Williamson */
717dfc11533SChris Williamson static void *
zcp_lua_alloc(void * ud,void * ptr,size_t osize,size_t nsize)718dfc11533SChris Williamson zcp_lua_alloc(void *ud, void *ptr, size_t osize, size_t nsize)
719dfc11533SChris Williamson {
720dfc11533SChris Williamson zcp_alloc_arg_t *allocargs = ud;
721ca783257SDan McDonald int flags = (allocargs->aa_must_succeed) ? KM_SLEEP : KM_NOSLEEP_LAZY;
722dfc11533SChris Williamson
723dfc11533SChris Williamson if (nsize == 0) {
724dfc11533SChris Williamson if (ptr != NULL) {
725dfc11533SChris Williamson int64_t *allocbuf = (int64_t *)ptr - 1;
726dfc11533SChris Williamson int64_t allocsize = *allocbuf;
727dfc11533SChris Williamson ASSERT3S(allocsize, >, 0);
728dfc11533SChris Williamson ASSERT3S(allocargs->aa_alloc_remaining + allocsize, <=,
729dfc11533SChris Williamson allocargs->aa_alloc_limit);
730dfc11533SChris Williamson allocargs->aa_alloc_remaining += allocsize;
731dfc11533SChris Williamson kmem_free(allocbuf, allocsize);
732dfc11533SChris Williamson }
733dfc11533SChris Williamson return (NULL);
734dfc11533SChris Williamson } else if (ptr == NULL) {
735dfc11533SChris Williamson int64_t *allocbuf;
736dfc11533SChris Williamson int64_t allocsize = nsize + sizeof (int64_t);
737dfc11533SChris Williamson
738dfc11533SChris Williamson if (!allocargs->aa_must_succeed &&
739dfc11533SChris Williamson (allocsize <= 0 ||
740dfc11533SChris Williamson allocsize > allocargs->aa_alloc_remaining)) {
741dfc11533SChris Williamson return (NULL);
742dfc11533SChris Williamson }
743dfc11533SChris Williamson
744dfc11533SChris Williamson allocbuf = kmem_alloc(allocsize, flags);
745dfc11533SChris Williamson if (allocbuf == NULL) {
746dfc11533SChris Williamson return (NULL);
747dfc11533SChris Williamson }
748dfc11533SChris Williamson allocargs->aa_alloc_remaining -= allocsize;
749dfc11533SChris Williamson
750dfc11533SChris Williamson *allocbuf = allocsize;
751dfc11533SChris Williamson return (allocbuf + 1);
752dfc11533SChris Williamson } else if (nsize <= osize) {
753dfc11533SChris Williamson /*
754dfc11533SChris Williamson * If shrinking the buffer, lua requires that the reallocation
755dfc11533SChris Williamson * never fail.
756dfc11533SChris Williamson */
757dfc11533SChris Williamson return (ptr);
758dfc11533SChris Williamson } else {
759dfc11533SChris Williamson ASSERT3U(nsize, >, osize);
760dfc11533SChris Williamson
761dfc11533SChris Williamson uint64_t *luabuf = zcp_lua_alloc(ud, NULL, 0, nsize);
762dfc11533SChris Williamson if (luabuf == NULL) {
763dfc11533SChris Williamson return (NULL);
764dfc11533SChris Williamson }
765dfc11533SChris Williamson (void) memcpy(luabuf, ptr, osize);
766dfc11533SChris Williamson VERIFY3P(zcp_lua_alloc(ud, ptr, osize, 0), ==, NULL);
767dfc11533SChris Williamson return (luabuf);
768dfc11533SChris Williamson }
769dfc11533SChris Williamson }
770dfc11533SChris Williamson
771dfc11533SChris Williamson /* ARGSUSED */
772dfc11533SChris Williamson static void
zcp_lua_counthook(lua_State * state,lua_Debug * ar)773dfc11533SChris Williamson zcp_lua_counthook(lua_State *state, lua_Debug *ar)
774dfc11533SChris Williamson {
775dfc11533SChris Williamson lua_getfield(state, LUA_REGISTRYINDEX, ZCP_RUN_INFO_KEY);
776dfc11533SChris Williamson zcp_run_info_t *ri = lua_touserdata(state, -1);
777dfc11533SChris Williamson
778d0cb1fb9SDon Brady /*
779d0cb1fb9SDon Brady * Check if we were canceled while waiting for the
780d0cb1fb9SDon Brady * txg to sync or from our open context thread
781d0cb1fb9SDon Brady */
782d0cb1fb9SDon Brady if (ri->zri_canceled ||
783d0cb1fb9SDon Brady (!ri->zri_sync && issig(JUSTLOOKING) && issig(FORREAL))) {
784d0cb1fb9SDon Brady ri->zri_canceled = B_TRUE;
785d0cb1fb9SDon Brady (void) lua_pushstring(state, "Channel program was canceled.");
786d0cb1fb9SDon Brady (void) lua_error(state);
787d0cb1fb9SDon Brady }
788d0cb1fb9SDon Brady
789d0cb1fb9SDon Brady /*
790d0cb1fb9SDon Brady * Check how many instructions the channel program has
791d0cb1fb9SDon Brady * executed so far, and compare against the limit.
792d0cb1fb9SDon Brady */
793dfc11533SChris Williamson ri->zri_curinstrs += zfs_lua_check_instrlimit_interval;
794dfc11533SChris Williamson if (ri->zri_maxinstrs != 0 && ri->zri_curinstrs > ri->zri_maxinstrs) {
795dfc11533SChris Williamson ri->zri_timed_out = B_TRUE;
796dfc11533SChris Williamson (void) lua_pushstring(state,
797dfc11533SChris Williamson "Channel program timed out.");
798dfc11533SChris Williamson (void) lua_error(state);
799dfc11533SChris Williamson }
800dfc11533SChris Williamson }
801dfc11533SChris Williamson
802dfc11533SChris Williamson static int
zcp_panic_cb(lua_State * state)803dfc11533SChris Williamson zcp_panic_cb(lua_State *state)
804dfc11533SChris Williamson {
805dfc11533SChris Williamson panic("unprotected error in call to Lua API (%s)\n",
806dfc11533SChris Williamson lua_tostring(state, -1));
807dfc11533SChris Williamson return (0);
808dfc11533SChris Williamson }
809dfc11533SChris Williamson
810dfc11533SChris Williamson static void
zcp_eval_impl(dmu_tx_t * tx,zcp_run_info_t * ri)811d0cb1fb9SDon Brady zcp_eval_impl(dmu_tx_t *tx, zcp_run_info_t *ri)
812dfc11533SChris Williamson {
813dfc11533SChris Williamson int err;
814d0cb1fb9SDon Brady lua_State *state = ri->zri_state;
815dfc11533SChris Williamson
816dfc11533SChris Williamson VERIFY3U(3, ==, lua_gettop(state));
817dfc11533SChris Williamson
818d0cb1fb9SDon Brady /* finish initializing our runtime state */
819d0cb1fb9SDon Brady ri->zri_pool = dmu_tx_pool(tx);
820d0cb1fb9SDon Brady ri->zri_tx = tx;
821d0cb1fb9SDon Brady list_create(&ri->zri_cleanup_handlers, sizeof (zcp_cleanup_handler_t),
822d0cb1fb9SDon Brady offsetof(zcp_cleanup_handler_t, zch_node));
823d0cb1fb9SDon Brady
824dfc11533SChris Williamson /*
825dfc11533SChris Williamson * Store the zcp_run_info_t struct for this run in the Lua registry.
826dfc11533SChris Williamson * Registry entries are not directly accessible by the Lua scripts but
827dfc11533SChris Williamson * can be accessed by our callbacks.
828dfc11533SChris Williamson */
829d0cb1fb9SDon Brady lua_pushlightuserdata(state, ri);
830dfc11533SChris Williamson lua_setfield(state, LUA_REGISTRYINDEX, ZCP_RUN_INFO_KEY);
831dfc11533SChris Williamson VERIFY3U(3, ==, lua_gettop(state));
832dfc11533SChris Williamson
833dfc11533SChris Williamson /*
834dfc11533SChris Williamson * Tell the Lua interpreter to call our handler every count
835dfc11533SChris Williamson * instructions. Channel programs that execute too many instructions
836dfc11533SChris Williamson * should die with ETIME.
837dfc11533SChris Williamson */
838dfc11533SChris Williamson (void) lua_sethook(state, zcp_lua_counthook, LUA_MASKCOUNT,
839dfc11533SChris Williamson zfs_lua_check_instrlimit_interval);
840dfc11533SChris Williamson
841dfc11533SChris Williamson /*
842dfc11533SChris Williamson * Tell the Lua memory allocator to stop using KM_SLEEP before handing
843dfc11533SChris Williamson * off control to the channel program. Channel programs that use too
844dfc11533SChris Williamson * much memory should die with ENOSPC.
845dfc11533SChris Williamson */
846d0cb1fb9SDon Brady ri->zri_allocargs->aa_must_succeed = B_FALSE;
847dfc11533SChris Williamson
848dfc11533SChris Williamson /*
849dfc11533SChris Williamson * Call the Lua function that open-context passed us. This pops the
850dfc11533SChris Williamson * function and its input from the stack and pushes any return
851dfc11533SChris Williamson * or error values.
852dfc11533SChris Williamson */
853dfc11533SChris Williamson err = lua_pcall(state, 1, LUA_MULTRET, 1);
854dfc11533SChris Williamson
855dfc11533SChris Williamson /*
856dfc11533SChris Williamson * Let Lua use KM_SLEEP while we interpret the return values.
857dfc11533SChris Williamson */
858d0cb1fb9SDon Brady ri->zri_allocargs->aa_must_succeed = B_TRUE;
859dfc11533SChris Williamson
860dfc11533SChris Williamson /*
861dfc11533SChris Williamson * Remove the error handler callback from the stack. At this point,
862a3b28680SSerapheim Dimitropoulos * there shouldn't be any cleanup handler registered in the handler
863a3b28680SSerapheim Dimitropoulos * list (zri_cleanup_handlers), regardless of whether it ran or not.
864dfc11533SChris Williamson */
865d0cb1fb9SDon Brady list_destroy(&ri->zri_cleanup_handlers);
866dfc11533SChris Williamson lua_remove(state, 1);
867dfc11533SChris Williamson
868dfc11533SChris Williamson switch (err) {
869dfc11533SChris Williamson case LUA_OK: {
870dfc11533SChris Williamson /*
871dfc11533SChris Williamson * Lua supports returning multiple values in a single return
872dfc11533SChris Williamson * statement. Return values will have been pushed onto the
873dfc11533SChris Williamson * stack:
874dfc11533SChris Williamson * 1: Return value 1
875dfc11533SChris Williamson * 2: Return value 2
876dfc11533SChris Williamson * 3: etc...
877dfc11533SChris Williamson * To simplify the process of retrieving a return value from a
878dfc11533SChris Williamson * channel program, we disallow returning more than one value
879dfc11533SChris Williamson * to ZFS from the Lua script, yielding a singleton return
880dfc11533SChris Williamson * nvlist of the form { "return": Return value 1 }.
881dfc11533SChris Williamson */
882dfc11533SChris Williamson int return_count = lua_gettop(state);
883dfc11533SChris Williamson
884dfc11533SChris Williamson if (return_count == 1) {
885d0cb1fb9SDon Brady ri->zri_result = 0;
886d0cb1fb9SDon Brady zcp_convert_return_values(state, ri->zri_outnvl,
887d0cb1fb9SDon Brady ZCP_RET_RETURN, &ri->zri_result);
888dfc11533SChris Williamson } else if (return_count > 1) {
889d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ECHRNG);
890fe3ba4d1SMatthew Ahrens lua_settop(state, 0);
891dfc11533SChris Williamson (void) lua_pushfstring(state, "Multiple return "
892dfc11533SChris Williamson "values not supported");
893d0cb1fb9SDon Brady zcp_convert_return_values(state, ri->zri_outnvl,
894d0cb1fb9SDon Brady ZCP_RET_ERROR, &ri->zri_result);
895dfc11533SChris Williamson }
896dfc11533SChris Williamson break;
897dfc11533SChris Williamson }
898dfc11533SChris Williamson case LUA_ERRRUN:
899dfc11533SChris Williamson case LUA_ERRGCMM: {
900dfc11533SChris Williamson /*
901dfc11533SChris Williamson * The channel program encountered a fatal error within the
902dfc11533SChris Williamson * script, such as failing an assertion, or calling a function
903dfc11533SChris Williamson * with incompatible arguments. The error value and the
904dfc11533SChris Williamson * traceback generated by zcp_error_handler() should be on the
905dfc11533SChris Williamson * stack.
906dfc11533SChris Williamson */
907dfc11533SChris Williamson VERIFY3U(1, ==, lua_gettop(state));
908d0cb1fb9SDon Brady if (ri->zri_timed_out) {
909d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ETIME);
910d0cb1fb9SDon Brady } else if (ri->zri_canceled) {
911d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(EINTR);
912dfc11533SChris Williamson } else {
913d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ECHRNG);
914dfc11533SChris Williamson }
915dfc11533SChris Williamson
916d0cb1fb9SDon Brady zcp_convert_return_values(state, ri->zri_outnvl,
917d0cb1fb9SDon Brady ZCP_RET_ERROR, &ri->zri_result);
918dfc11533SChris Williamson break;
919dfc11533SChris Williamson }
920dfc11533SChris Williamson case LUA_ERRERR: {
921dfc11533SChris Williamson /*
922dfc11533SChris Williamson * The channel program encountered a fatal error within the
923dfc11533SChris Williamson * script, and we encountered another error while trying to
924dfc11533SChris Williamson * compute the traceback in zcp_error_handler(). We can only
925dfc11533SChris Williamson * return the error message.
926dfc11533SChris Williamson */
927dfc11533SChris Williamson VERIFY3U(1, ==, lua_gettop(state));
928d0cb1fb9SDon Brady if (ri->zri_timed_out) {
929d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ETIME);
930d0cb1fb9SDon Brady } else if (ri->zri_canceled) {
931d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(EINTR);
932dfc11533SChris Williamson } else {
933d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ECHRNG);
934dfc11533SChris Williamson }
935dfc11533SChris Williamson
936d0cb1fb9SDon Brady zcp_convert_return_values(state, ri->zri_outnvl,
937d0cb1fb9SDon Brady ZCP_RET_ERROR, &ri->zri_result);
938dfc11533SChris Williamson break;
939dfc11533SChris Williamson }
940dfc11533SChris Williamson case LUA_ERRMEM:
941dfc11533SChris Williamson /*
942dfc11533SChris Williamson * Lua ran out of memory while running the channel program.
943dfc11533SChris Williamson * There's not much we can do.
944dfc11533SChris Williamson */
945d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ENOSPC);
946dfc11533SChris Williamson break;
947dfc11533SChris Williamson default:
948dfc11533SChris Williamson VERIFY0(err);
949dfc11533SChris Williamson }
950dfc11533SChris Williamson }
951dfc11533SChris Williamson
952a3b28680SSerapheim Dimitropoulos static void
zcp_pool_error(zcp_run_info_t * ri,const char * poolname)953d0cb1fb9SDon Brady zcp_pool_error(zcp_run_info_t *ri, const char *poolname)
954a3b28680SSerapheim Dimitropoulos {
955d0cb1fb9SDon Brady ri->zri_result = SET_ERROR(ECHRNG);
956d0cb1fb9SDon Brady lua_settop(ri->zri_state, 0);
957d0cb1fb9SDon Brady (void) lua_pushfstring(ri->zri_state, "Could not open pool: %s",
958a3b28680SSerapheim Dimitropoulos poolname);
959d0cb1fb9SDon Brady zcp_convert_return_values(ri->zri_state, ri->zri_outnvl,
960d0cb1fb9SDon Brady ZCP_RET_ERROR, &ri->zri_result);
961d0cb1fb9SDon Brady
962d0cb1fb9SDon Brady }
963d0cb1fb9SDon Brady
964d0cb1fb9SDon Brady /*
965d0cb1fb9SDon Brady * This callback is called when txg_wait_synced_sig encountered a signal.
966d0cb1fb9SDon Brady * The txg_wait_synced_sig will continue to wait for the txg to complete
967d0cb1fb9SDon Brady * after calling this callback.
968d0cb1fb9SDon Brady */
969d0cb1fb9SDon Brady /* ARGSUSED */
970d0cb1fb9SDon Brady static void
zcp_eval_sig(void * arg,dmu_tx_t * tx)971d0cb1fb9SDon Brady zcp_eval_sig(void *arg, dmu_tx_t *tx)
972d0cb1fb9SDon Brady {
973d0cb1fb9SDon Brady zcp_run_info_t *ri = arg;
974a3b28680SSerapheim Dimitropoulos
975d0cb1fb9SDon Brady ri->zri_canceled = B_TRUE;
976a3b28680SSerapheim Dimitropoulos }
977a3b28680SSerapheim Dimitropoulos
978a3b28680SSerapheim Dimitropoulos static void
zcp_eval_sync(void * arg,dmu_tx_t * tx)979a3b28680SSerapheim Dimitropoulos zcp_eval_sync(void *arg, dmu_tx_t *tx)
980a3b28680SSerapheim Dimitropoulos {
981d0cb1fb9SDon Brady zcp_run_info_t *ri = arg;
982a3b28680SSerapheim Dimitropoulos
983a3b28680SSerapheim Dimitropoulos /*
984a3b28680SSerapheim Dimitropoulos * Open context should have setup the stack to contain:
985a3b28680SSerapheim Dimitropoulos * 1: Error handler callback
986a3b28680SSerapheim Dimitropoulos * 2: Script to run (converted to a Lua function)
987a3b28680SSerapheim Dimitropoulos * 3: nvlist input to function (converted to Lua table or nil)
988a3b28680SSerapheim Dimitropoulos */
989d0cb1fb9SDon Brady VERIFY3U(3, ==, lua_gettop(ri->zri_state));
990a3b28680SSerapheim Dimitropoulos
991d0cb1fb9SDon Brady zcp_eval_impl(tx, ri);
992a3b28680SSerapheim Dimitropoulos }
993a3b28680SSerapheim Dimitropoulos
994a3b28680SSerapheim Dimitropoulos static void
zcp_eval_open(zcp_run_info_t * ri,const char * poolname)995d0cb1fb9SDon Brady zcp_eval_open(zcp_run_info_t *ri, const char *poolname)
996a3b28680SSerapheim Dimitropoulos {
997a3b28680SSerapheim Dimitropoulos int error;
998a3b28680SSerapheim Dimitropoulos dsl_pool_t *dp;
999a3b28680SSerapheim Dimitropoulos dmu_tx_t *tx;
1000a3b28680SSerapheim Dimitropoulos
1001a3b28680SSerapheim Dimitropoulos /*
1002a3b28680SSerapheim Dimitropoulos * See comment from the same assertion in zcp_eval_sync().
1003a3b28680SSerapheim Dimitropoulos */
1004d0cb1fb9SDon Brady VERIFY3U(3, ==, lua_gettop(ri->zri_state));
1005a3b28680SSerapheim Dimitropoulos
1006a3b28680SSerapheim Dimitropoulos error = dsl_pool_hold(poolname, FTAG, &dp);
1007a3b28680SSerapheim Dimitropoulos if (error != 0) {
1008d0cb1fb9SDon Brady zcp_pool_error(ri, poolname);
1009a3b28680SSerapheim Dimitropoulos return;
1010a3b28680SSerapheim Dimitropoulos }
1011a3b28680SSerapheim Dimitropoulos
1012a3b28680SSerapheim Dimitropoulos /*
1013a3b28680SSerapheim Dimitropoulos * As we are running in open-context, we have no transaction associated
1014a3b28680SSerapheim Dimitropoulos * with the channel program. At the same time, functions from the
1015a3b28680SSerapheim Dimitropoulos * zfs.check submodule need to be associated with a transaction as
1016a3b28680SSerapheim Dimitropoulos * they are basically dry-runs of their counterparts in the zfs.sync
1017a3b28680SSerapheim Dimitropoulos * submodule. These functions should be able to run in open-context.
1018a3b28680SSerapheim Dimitropoulos * Therefore we create a new transaction that we later abort once
1019a3b28680SSerapheim Dimitropoulos * the channel program has been evaluated.
1020a3b28680SSerapheim Dimitropoulos */
1021a3b28680SSerapheim Dimitropoulos tx = dmu_tx_create_dd(dp->dp_mos_dir);
1022a3b28680SSerapheim Dimitropoulos
1023d0cb1fb9SDon Brady zcp_eval_impl(tx, ri);
1024a3b28680SSerapheim Dimitropoulos
1025a3b28680SSerapheim Dimitropoulos dmu_tx_abort(tx);
1026a3b28680SSerapheim Dimitropoulos
1027a3b28680SSerapheim Dimitropoulos dsl_pool_rele(dp, FTAG);
1028a3b28680SSerapheim Dimitropoulos }
1029a3b28680SSerapheim Dimitropoulos
1030dfc11533SChris Williamson int
zcp_eval(const char * poolname,const char * program,boolean_t sync,uint64_t instrlimit,uint64_t memlimit,nvpair_t * nvarg,nvlist_t * outnvl)1031a3b28680SSerapheim Dimitropoulos zcp_eval(const char *poolname, const char *program, boolean_t sync,
1032a3b28680SSerapheim Dimitropoulos uint64_t instrlimit, uint64_t memlimit, nvpair_t *nvarg, nvlist_t *outnvl)
1033dfc11533SChris Williamson {
1034dfc11533SChris Williamson int err;
1035dfc11533SChris Williamson lua_State *state;
1036d0cb1fb9SDon Brady zcp_run_info_t runinfo;
1037dfc11533SChris Williamson
1038dfc11533SChris Williamson if (instrlimit > zfs_lua_max_instrlimit)
1039dfc11533SChris Williamson return (SET_ERROR(EINVAL));
1040dfc11533SChris Williamson if (memlimit == 0 || memlimit > zfs_lua_max_memlimit)
1041dfc11533SChris Williamson return (SET_ERROR(EINVAL));
1042dfc11533SChris Williamson
1043dfc11533SChris Williamson zcp_alloc_arg_t allocargs = {
1044dfc11533SChris Williamson .aa_must_succeed = B_TRUE,
1045dfc11533SChris Williamson .aa_alloc_remaining = (int64_t)memlimit,
1046dfc11533SChris Williamson .aa_alloc_limit = (int64_t)memlimit,
1047dfc11533SChris Williamson };
1048dfc11533SChris Williamson
1049dfc11533SChris Williamson /*
1050dfc11533SChris Williamson * Creates a Lua state with a memory allocator that uses KM_SLEEP.
1051dfc11533SChris Williamson * This should never fail.
1052dfc11533SChris Williamson */
1053dfc11533SChris Williamson state = lua_newstate(zcp_lua_alloc, &allocargs);
1054dfc11533SChris Williamson VERIFY(state != NULL);
1055dfc11533SChris Williamson (void) lua_atpanic(state, zcp_panic_cb);
1056dfc11533SChris Williamson
1057dfc11533SChris Williamson /*
1058dfc11533SChris Williamson * Load core Lua libraries we want access to.
1059dfc11533SChris Williamson */
1060dfc11533SChris Williamson VERIFY3U(1, ==, luaopen_base(state));
1061dfc11533SChris Williamson lua_pop(state, 1);
1062dfc11533SChris Williamson VERIFY3U(1, ==, luaopen_coroutine(state));
1063dfc11533SChris Williamson lua_setglobal(state, LUA_COLIBNAME);
1064dfc11533SChris Williamson VERIFY0(lua_gettop(state));
1065dfc11533SChris Williamson VERIFY3U(1, ==, luaopen_string(state));
1066dfc11533SChris Williamson lua_setglobal(state, LUA_STRLIBNAME);
1067dfc11533SChris Williamson VERIFY0(lua_gettop(state));
1068dfc11533SChris Williamson VERIFY3U(1, ==, luaopen_table(state));
1069dfc11533SChris Williamson lua_setglobal(state, LUA_TABLIBNAME);
1070dfc11533SChris Williamson VERIFY0(lua_gettop(state));
1071dfc11533SChris Williamson
1072dfc11533SChris Williamson /*
1073dfc11533SChris Williamson * Load globally visible variables such as errno aliases.
1074dfc11533SChris Williamson */
1075dfc11533SChris Williamson zcp_load_globals(state);
1076dfc11533SChris Williamson VERIFY0(lua_gettop(state));
1077dfc11533SChris Williamson
1078dfc11533SChris Williamson /*
1079dfc11533SChris Williamson * Load ZFS-specific modules.
1080dfc11533SChris Williamson */
1081dfc11533SChris Williamson lua_newtable(state);
1082dfc11533SChris Williamson VERIFY3U(1, ==, zcp_load_list_lib(state));
1083dfc11533SChris Williamson lua_setfield(state, -2, "list");
1084dfc11533SChris Williamson VERIFY3U(1, ==, zcp_load_synctask_lib(state, B_FALSE));
1085dfc11533SChris Williamson lua_setfield(state, -2, "check");
1086dfc11533SChris Williamson VERIFY3U(1, ==, zcp_load_synctask_lib(state, B_TRUE));
1087dfc11533SChris Williamson lua_setfield(state, -2, "sync");
1088dfc11533SChris Williamson VERIFY3U(1, ==, zcp_load_get_lib(state));
1089dfc11533SChris Williamson lua_pushcclosure(state, zcp_debug_info.func, 0);
1090dfc11533SChris Williamson lua_setfield(state, -2, zcp_debug_info.name);
1091dfc11533SChris Williamson lua_pushcclosure(state, zcp_exists_info.func, 0);
1092dfc11533SChris Williamson lua_setfield(state, -2, zcp_exists_info.name);
1093dfc11533SChris Williamson lua_setglobal(state, "zfs");
1094dfc11533SChris Williamson VERIFY0(lua_gettop(state));
1095dfc11533SChris Williamson
1096dfc11533SChris Williamson /*
1097dfc11533SChris Williamson * Push the error-callback that calculates Lua stack traces on
1098dfc11533SChris Williamson * unexpected failures.
1099dfc11533SChris Williamson */
1100dfc11533SChris Williamson lua_pushcfunction(state, zcp_error_handler);
1101dfc11533SChris Williamson VERIFY3U(1, ==, lua_gettop(state));
1102dfc11533SChris Williamson
1103dfc11533SChris Williamson /*
1104dfc11533SChris Williamson * Load the actual script as a function onto the stack as text ("t").
1105dfc11533SChris Williamson * The only valid error condition is a syntax error in the script.
1106dfc11533SChris Williamson * ERRMEM should not be possible because our allocator is using
1107dfc11533SChris Williamson * KM_SLEEP. ERRGCMM should not be possible because we have not added
1108dfc11533SChris Williamson * any objects with __gc metamethods to the interpreter that could
1109dfc11533SChris Williamson * fail.
1110dfc11533SChris Williamson */
1111dfc11533SChris Williamson err = luaL_loadbufferx(state, program, strlen(program),
1112dfc11533SChris Williamson "channel program", "t");
1113dfc11533SChris Williamson if (err == LUA_ERRSYNTAX) {
1114dfc11533SChris Williamson fnvlist_add_string(outnvl, ZCP_RET_ERROR,
1115dfc11533SChris Williamson lua_tostring(state, -1));
1116dfc11533SChris Williamson lua_close(state);
1117dfc11533SChris Williamson return (SET_ERROR(EINVAL));
1118dfc11533SChris Williamson }
1119dfc11533SChris Williamson VERIFY0(err);
1120dfc11533SChris Williamson VERIFY3U(2, ==, lua_gettop(state));
1121dfc11533SChris Williamson
1122dfc11533SChris Williamson /*
1123dfc11533SChris Williamson * Convert the input nvlist to a Lua object and put it on top of the
1124dfc11533SChris Williamson * stack.
1125dfc11533SChris Williamson */
1126dfc11533SChris Williamson char errmsg[128];
1127dfc11533SChris Williamson err = zcp_nvpair_value_to_lua(state, nvarg,
1128dfc11533SChris Williamson errmsg, sizeof (errmsg));
1129dfc11533SChris Williamson if (err != 0) {
1130dfc11533SChris Williamson fnvlist_add_string(outnvl, ZCP_RET_ERROR, errmsg);
1131dfc11533SChris Williamson lua_close(state);
1132dfc11533SChris Williamson return (SET_ERROR(EINVAL));
1133dfc11533SChris Williamson }
1134dfc11533SChris Williamson VERIFY3U(3, ==, lua_gettop(state));
1135dfc11533SChris Williamson
1136d0cb1fb9SDon Brady runinfo.zri_state = state;
1137d0cb1fb9SDon Brady runinfo.zri_allocargs = &allocargs;
1138d0cb1fb9SDon Brady runinfo.zri_outnvl = outnvl;
1139d0cb1fb9SDon Brady runinfo.zri_result = 0;
1140d0cb1fb9SDon Brady runinfo.zri_cred = CRED();
1141d0cb1fb9SDon Brady runinfo.zri_timed_out = B_FALSE;
1142d0cb1fb9SDon Brady runinfo.zri_canceled = B_FALSE;
1143d0cb1fb9SDon Brady runinfo.zri_sync = sync;
1144d0cb1fb9SDon Brady runinfo.zri_space_used = 0;
1145d0cb1fb9SDon Brady runinfo.zri_curinstrs = 0;
1146d0cb1fb9SDon Brady runinfo.zri_maxinstrs = instrlimit;
1147dfc11533SChris Williamson
1148a3b28680SSerapheim Dimitropoulos if (sync) {
1149d0cb1fb9SDon Brady err = dsl_sync_task_sig(poolname, NULL, zcp_eval_sync,
1150d0cb1fb9SDon Brady zcp_eval_sig, &runinfo, 0, ZFS_SPACE_CHECK_ZCP_EVAL);
1151a3b28680SSerapheim Dimitropoulos if (err != 0)
1152d0cb1fb9SDon Brady zcp_pool_error(&runinfo, poolname);
1153a3b28680SSerapheim Dimitropoulos } else {
1154d0cb1fb9SDon Brady zcp_eval_open(&runinfo, poolname);
1155a3b28680SSerapheim Dimitropoulos }
1156dfc11533SChris Williamson lua_close(state);
1157dfc11533SChris Williamson
1158d0cb1fb9SDon Brady return (runinfo.zri_result);
1159dfc11533SChris Williamson }
1160dfc11533SChris Williamson
1161dfc11533SChris Williamson /*
1162dfc11533SChris Williamson * Retrieve metadata about the currently running channel program.
1163dfc11533SChris Williamson */
1164dfc11533SChris Williamson zcp_run_info_t *
zcp_run_info(lua_State * state)1165dfc11533SChris Williamson zcp_run_info(lua_State *state)
1166dfc11533SChris Williamson {
1167dfc11533SChris Williamson zcp_run_info_t *ri;
1168dfc11533SChris Williamson
1169dfc11533SChris Williamson lua_getfield(state, LUA_REGISTRYINDEX, ZCP_RUN_INFO_KEY);
1170dfc11533SChris Williamson ri = lua_touserdata(state, -1);
1171dfc11533SChris Williamson lua_pop(state, 1);
1172dfc11533SChris Williamson return (ri);
1173dfc11533SChris Williamson }
1174dfc11533SChris Williamson
1175dfc11533SChris Williamson /*
1176dfc11533SChris Williamson * Argument Parsing
1177dfc11533SChris Williamson * ================
1178dfc11533SChris Williamson *
1179dfc11533SChris Williamson * The Lua language allows methods to be called with any number
1180dfc11533SChris Williamson * of arguments of any type. When calling back into ZFS we need to sanitize
1181dfc11533SChris Williamson * arguments from channel programs to make sure unexpected arguments or
1182dfc11533SChris Williamson * arguments of the wrong type result in clear error messages. To do this
1183dfc11533SChris Williamson * in a uniform way all callbacks from channel programs should use the
1184dfc11533SChris Williamson * zcp_parse_args() function to interpret inputs.
1185dfc11533SChris Williamson *
1186dfc11533SChris Williamson * Positional vs Keyword Arguments
1187dfc11533SChris Williamson * ===============================
1188dfc11533SChris Williamson *
1189dfc11533SChris Williamson * Every callback function takes a fixed set of required positional arguments
1190dfc11533SChris Williamson * and optional keyword arguments. For example, the destroy function takes
1191dfc11533SChris Williamson * a single positional string argument (the name of the dataset to destroy)
1192dfc11533SChris Williamson * and an optional "defer" keyword boolean argument. When calling lua functions
1193dfc11533SChris Williamson * with parentheses, only positional arguments can be used:
1194dfc11533SChris Williamson *
1195dfc11533SChris Williamson * zfs.sync.snapshot("rpool@snap")
1196dfc11533SChris Williamson *
1197dfc11533SChris Williamson * To use keyword arguments functions should be called with a single argument
1198dfc11533SChris Williamson * that is a lua table containing mappings of integer -> positional arguments
1199dfc11533SChris Williamson * and string -> keyword arguments:
1200dfc11533SChris Williamson *
1201dfc11533SChris Williamson * zfs.sync.snapshot({1="rpool@snap", defer=true})
1202dfc11533SChris Williamson *
1203dfc11533SChris Williamson * The lua language allows curly braces to be used in place of parenthesis as
1204dfc11533SChris Williamson * syntactic sugar for this calling convention:
1205dfc11533SChris Williamson *
1206dfc11533SChris Williamson * zfs.sync.snapshot{"rpool@snap", defer=true}
1207dfc11533SChris Williamson */
1208dfc11533SChris Williamson
1209dfc11533SChris Williamson /*
1210dfc11533SChris Williamson * Throw an error and print the given arguments. If there are too many
1211dfc11533SChris Williamson * arguments to fit in the output buffer, only the error format string is
1212dfc11533SChris Williamson * output.
1213dfc11533SChris Williamson */
1214dfc11533SChris Williamson static void
zcp_args_error(lua_State * state,const char * fname,const zcp_arg_t * pargs,const zcp_arg_t * kwargs,const char * fmt,...)1215dfc11533SChris Williamson zcp_args_error(lua_State *state, const char *fname, const zcp_arg_t *pargs,
1216dfc11533SChris Williamson const zcp_arg_t *kwargs, const char *fmt, ...)
1217dfc11533SChris Williamson {
1218dfc11533SChris Williamson int i;
1219dfc11533SChris Williamson char errmsg[512];
1220dfc11533SChris Williamson size_t len = sizeof (errmsg);
1221dfc11533SChris Williamson size_t msglen = 0;
1222dfc11533SChris Williamson va_list argp;
1223dfc11533SChris Williamson
1224dfc11533SChris Williamson va_start(argp, fmt);
1225dfc11533SChris Williamson VERIFY3U(len, >, vsnprintf(errmsg, len, fmt, argp));
1226dfc11533SChris Williamson va_end(argp);
1227dfc11533SChris Williamson
1228dfc11533SChris Williamson /*
1229dfc11533SChris Williamson * Calculate the total length of the final string, including extra
1230dfc11533SChris Williamson * formatting characters. If the argument dump would be too large,
1231dfc11533SChris Williamson * only print the error string.
1232dfc11533SChris Williamson */
1233dfc11533SChris Williamson msglen = strlen(errmsg);
1234dfc11533SChris Williamson msglen += strlen(fname) + 4; /* : + {} + null terminator */
1235dfc11533SChris Williamson for (i = 0; pargs[i].za_name != NULL; i++) {
1236dfc11533SChris Williamson msglen += strlen(pargs[i].za_name);
1237dfc11533SChris Williamson msglen += strlen(lua_typename(state, pargs[i].za_lua_type));
1238dfc11533SChris Williamson if (pargs[i + 1].za_name != NULL || kwargs[0].za_name != NULL)
1239dfc11533SChris Williamson msglen += 5; /* < + ( + )> + , */
1240dfc11533SChris Williamson else
1241dfc11533SChris Williamson msglen += 4; /* < + ( + )> */
1242dfc11533SChris Williamson }
1243dfc11533SChris Williamson for (i = 0; kwargs[i].za_name != NULL; i++) {
1244dfc11533SChris Williamson msglen += strlen(kwargs[i].za_name);
1245dfc11533SChris Williamson msglen += strlen(lua_typename(state, kwargs[i].za_lua_type));
1246dfc11533SChris Williamson if (kwargs[i + 1].za_name != NULL)
1247dfc11533SChris Williamson msglen += 4; /* =( + ) + , */
1248dfc11533SChris Williamson else
1249dfc11533SChris Williamson msglen += 3; /* =( + ) */
1250dfc11533SChris Williamson }
1251dfc11533SChris Williamson
1252dfc11533SChris Williamson if (msglen >= len)
1253dfc11533SChris Williamson (void) luaL_error(state, errmsg);
1254dfc11533SChris Williamson
1255dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, ": ", len));
1256dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, fname, len));
1257dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, "{", len));
1258dfc11533SChris Williamson for (i = 0; pargs[i].za_name != NULL; i++) {
1259dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, "<", len));
1260dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, pargs[i].za_name, len));
1261dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, "(", len));
1262dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg,
1263dfc11533SChris Williamson lua_typename(state, pargs[i].za_lua_type), len));
1264dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, ")>", len));
1265dfc11533SChris Williamson if (pargs[i + 1].za_name != NULL || kwargs[0].za_name != NULL) {
1266dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, ", ", len));
1267dfc11533SChris Williamson }
1268dfc11533SChris Williamson }
1269dfc11533SChris Williamson for (i = 0; kwargs[i].za_name != NULL; i++) {
1270dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, kwargs[i].za_name, len));
1271dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, "=(", len));
1272dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg,
1273dfc11533SChris Williamson lua_typename(state, kwargs[i].za_lua_type), len));
1274dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, ")", len));
1275dfc11533SChris Williamson if (kwargs[i + 1].za_name != NULL) {
1276dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, ", ", len));
1277dfc11533SChris Williamson }
1278dfc11533SChris Williamson }
1279dfc11533SChris Williamson VERIFY3U(len, >, strlcat(errmsg, "}", len));
1280dfc11533SChris Williamson
1281dfc11533SChris Williamson (void) luaL_error(state, errmsg);
1282dfc11533SChris Williamson panic("unreachable code");
1283dfc11533SChris Williamson }
1284dfc11533SChris Williamson
1285dfc11533SChris Williamson static void
zcp_parse_table_args(lua_State * state,const char * fname,const zcp_arg_t * pargs,const zcp_arg_t * kwargs)1286dfc11533SChris Williamson zcp_parse_table_args(lua_State *state, const char *fname,
1287dfc11533SChris Williamson const zcp_arg_t *pargs, const zcp_arg_t *kwargs)
1288dfc11533SChris Williamson {
1289dfc11533SChris Williamson int i;
1290dfc11533SChris Williamson int type;
1291dfc11533SChris Williamson
1292dfc11533SChris Williamson for (i = 0; pargs[i].za_name != NULL; i++) {
1293dfc11533SChris Williamson /*
1294dfc11533SChris Williamson * Check the table for this positional argument, leaving it
1295dfc11533SChris Williamson * on the top of the stack once we finish validating it.
1296dfc11533SChris Williamson */
1297dfc11533SChris Williamson lua_pushinteger(state, i + 1);
1298dfc11533SChris Williamson lua_gettable(state, 1);
1299dfc11533SChris Williamson
1300dfc11533SChris Williamson type = lua_type(state, -1);
1301dfc11533SChris Williamson if (type == LUA_TNIL) {
1302dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1303dfc11533SChris Williamson "too few arguments");
1304dfc11533SChris Williamson panic("unreachable code");
1305dfc11533SChris Williamson } else if (type != pargs[i].za_lua_type) {
1306dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1307dfc11533SChris Williamson "arg %d wrong type (is '%s', expected '%s')",
1308dfc11533SChris Williamson i + 1, lua_typename(state, type),
1309dfc11533SChris Williamson lua_typename(state, pargs[i].za_lua_type));
1310dfc11533SChris Williamson panic("unreachable code");
1311dfc11533SChris Williamson }
1312dfc11533SChris Williamson
1313dfc11533SChris Williamson /*
1314dfc11533SChris Williamson * Remove the positional argument from the table.
1315dfc11533SChris Williamson */
1316dfc11533SChris Williamson lua_pushinteger(state, i + 1);
1317dfc11533SChris Williamson lua_pushnil(state);
1318dfc11533SChris Williamson lua_settable(state, 1);
1319dfc11533SChris Williamson }
1320dfc11533SChris Williamson
1321dfc11533SChris Williamson for (i = 0; kwargs[i].za_name != NULL; i++) {
1322dfc11533SChris Williamson /*
1323dfc11533SChris Williamson * Check the table for this keyword argument, which may be
1324dfc11533SChris Williamson * nil if it was omitted. Leave the value on the top of
1325dfc11533SChris Williamson * the stack after validating it.
1326dfc11533SChris Williamson */
1327dfc11533SChris Williamson lua_getfield(state, 1, kwargs[i].za_name);
1328dfc11533SChris Williamson
1329dfc11533SChris Williamson type = lua_type(state, -1);
1330dfc11533SChris Williamson if (type != LUA_TNIL && type != kwargs[i].za_lua_type) {
1331dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1332dfc11533SChris Williamson "kwarg '%s' wrong type (is '%s', expected '%s')",
1333dfc11533SChris Williamson kwargs[i].za_name, lua_typename(state, type),
1334dfc11533SChris Williamson lua_typename(state, kwargs[i].za_lua_type));
1335dfc11533SChris Williamson panic("unreachable code");
1336dfc11533SChris Williamson }
1337dfc11533SChris Williamson
1338dfc11533SChris Williamson /*
1339dfc11533SChris Williamson * Remove the keyword argument from the table.
1340dfc11533SChris Williamson */
1341dfc11533SChris Williamson lua_pushnil(state);
1342dfc11533SChris Williamson lua_setfield(state, 1, kwargs[i].za_name);
1343dfc11533SChris Williamson }
1344dfc11533SChris Williamson
1345dfc11533SChris Williamson /*
1346dfc11533SChris Williamson * Any entries remaining in the table are invalid inputs, print
1347dfc11533SChris Williamson * an error message based on what the entry is.
1348dfc11533SChris Williamson */
1349dfc11533SChris Williamson lua_pushnil(state);
1350dfc11533SChris Williamson if (lua_next(state, 1)) {
1351dfc11533SChris Williamson if (lua_isnumber(state, -2) && lua_tointeger(state, -2) > 0) {
1352dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1353dfc11533SChris Williamson "too many positional arguments");
1354dfc11533SChris Williamson } else if (lua_isstring(state, -2)) {
1355dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1356dfc11533SChris Williamson "invalid kwarg '%s'", lua_tostring(state, -2));
1357dfc11533SChris Williamson } else {
1358dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1359dfc11533SChris Williamson "kwarg keys must be strings");
1360dfc11533SChris Williamson }
1361dfc11533SChris Williamson panic("unreachable code");
1362dfc11533SChris Williamson }
1363dfc11533SChris Williamson
1364dfc11533SChris Williamson lua_remove(state, 1);
1365dfc11533SChris Williamson }
1366dfc11533SChris Williamson
1367dfc11533SChris Williamson static void
zcp_parse_pos_args(lua_State * state,const char * fname,const zcp_arg_t * pargs,const zcp_arg_t * kwargs)1368dfc11533SChris Williamson zcp_parse_pos_args(lua_State *state, const char *fname, const zcp_arg_t *pargs,
1369dfc11533SChris Williamson const zcp_arg_t *kwargs)
1370dfc11533SChris Williamson {
1371dfc11533SChris Williamson int i;
1372dfc11533SChris Williamson int type;
1373dfc11533SChris Williamson
1374dfc11533SChris Williamson for (i = 0; pargs[i].za_name != NULL; i++) {
1375dfc11533SChris Williamson type = lua_type(state, i + 1);
1376dfc11533SChris Williamson if (type == LUA_TNONE) {
1377dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1378dfc11533SChris Williamson "too few arguments");
1379dfc11533SChris Williamson panic("unreachable code");
1380dfc11533SChris Williamson } else if (type != pargs[i].za_lua_type) {
1381dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1382dfc11533SChris Williamson "arg %d wrong type (is '%s', expected '%s')",
1383dfc11533SChris Williamson i + 1, lua_typename(state, type),
1384dfc11533SChris Williamson lua_typename(state, pargs[i].za_lua_type));
1385dfc11533SChris Williamson panic("unreachable code");
1386dfc11533SChris Williamson }
1387dfc11533SChris Williamson }
1388dfc11533SChris Williamson if (lua_gettop(state) != i) {
1389dfc11533SChris Williamson zcp_args_error(state, fname, pargs, kwargs,
1390dfc11533SChris Williamson "too many positional arguments");
1391dfc11533SChris Williamson panic("unreachable code");
1392dfc11533SChris Williamson }
1393dfc11533SChris Williamson
1394dfc11533SChris Williamson for (i = 0; kwargs[i].za_name != NULL; i++) {
1395dfc11533SChris Williamson lua_pushnil(state);
1396dfc11533SChris Williamson }
1397dfc11533SChris Williamson }
1398dfc11533SChris Williamson
1399dfc11533SChris Williamson /*
1400dfc11533SChris Williamson * Checks the current Lua stack against an expected set of positional and
1401dfc11533SChris Williamson * keyword arguments. If the stack does not match the expected arguments
1402dfc11533SChris Williamson * aborts the current channel program with a useful error message, otherwise
1403dfc11533SChris Williamson * it re-arranges the stack so that it contains the positional arguments
1404dfc11533SChris Williamson * followed by the keyword argument values in declaration order. Any missing
1405dfc11533SChris Williamson * keyword argument will be represented by a nil value on the stack.
1406dfc11533SChris Williamson *
1407dfc11533SChris Williamson * If the stack contains exactly one argument of type LUA_TTABLE the curly
1408dfc11533SChris Williamson * braces calling convention is assumed, otherwise the stack is parsed for
1409dfc11533SChris Williamson * positional arguments only.
1410dfc11533SChris Williamson *
1411dfc11533SChris Williamson * This function should be used by every function callback. It should be called
1412dfc11533SChris Williamson * before the callback manipulates the Lua stack as it assumes the stack
1413dfc11533SChris Williamson * represents the function arguments.
1414dfc11533SChris Williamson */
1415dfc11533SChris Williamson void
zcp_parse_args(lua_State * state,const char * fname,const zcp_arg_t * pargs,const zcp_arg_t * kwargs)1416dfc11533SChris Williamson zcp_parse_args(lua_State *state, const char *fname, const zcp_arg_t *pargs,
1417dfc11533SChris Williamson const zcp_arg_t *kwargs)
1418dfc11533SChris Williamson {
1419dfc11533SChris Williamson if (lua_gettop(state) == 1 && lua_istable(state, 1)) {
1420dfc11533SChris Williamson zcp_parse_table_args(state, fname, pargs, kwargs);
1421dfc11533SChris Williamson } else {
1422dfc11533SChris Williamson zcp_parse_pos_args(state, fname, pargs, kwargs);
1423dfc11533SChris Williamson }
1424dfc11533SChris Williamson }
1425