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|
-- LuaJIT ffi bindings for libkres, a DNS resolver library.
-- SPDX-License-Identifier: GPL-3.0-or-later
--
-- @note Since it's statically compiled, it expects to find the symbols in the C namespace.
local kres -- the module
local kluautil = require('kluautil')
local ffi = require('ffi')
local bit = require('bit')
local bor = bit.bor
local band = bit.band
local C = ffi.C
local knot = ffi.load(libknot_SONAME)
-- Inverse table
local function itable(t, tolower)
local it = {}
for k,v in pairs(t) do it[v] = tolower and string.lower(k) or k end
return it
end
-- Byte order conversions
local function htonl(x) return x end
local htons = htonl
if ffi.abi('le') then
htonl = bit.bswap
function htons(x) return bit.rshift(htonl(x), 16) end
end
-- Basic types
local u16_p = ffi.typeof('uint16_t *')
-- Various declarations that are very stable.
ffi.cdef[[
/*
* Data structures
*/
struct sockaddr {
uint16_t sa_family;
uint8_t _stub[]; /* Do not touch */
};
struct knot_error {
int code;
};
/*
* libc APIs
*/
void * malloc(size_t size);
void free(void *ptr);
int inet_pton(int af, const char *src, void *dst);
int gettimeofday(struct timeval *tv, struct timezone *tz);
]]
require('kres-gen')
-- Error code representation
local knot_error_t = ffi.typeof('struct knot_error')
ffi.metatype(knot_error_t, {
-- Convert libknot error strings
__tostring = function(self)
return ffi.string(knot.knot_strerror(self.code))
end,
});
-- Constant tables
local const_class = {
IN = 1,
CH = 3,
NONE = 254,
ANY = 255,
}
local const_type = {
A = 1,
NS = 2,
MD = 3,
MF = 4,
CNAME = 5,
SOA = 6,
MB = 7,
MG = 8,
MR = 9,
NULL = 10,
WKS = 11,
PTR = 12,
HINFO = 13,
MINFO = 14,
MX = 15,
TXT = 16,
RP = 17,
AFSDB = 18,
X25 = 19,
ISDN = 20,
RT = 21,
NSAP = 22,
['NSAP-PTR'] = 23,
SIG = 24,
KEY = 25,
PX = 26,
GPOS = 27,
AAAA = 28,
LOC = 29,
NXT = 30,
EID = 31,
NIMLOC = 32,
SRV = 33,
ATMA = 34,
NAPTR = 35,
KX = 36,
CERT = 37,
A6 = 38,
DNAME = 39,
SINK = 40,
OPT = 41,
APL = 42,
DS = 43,
SSHFP = 44,
IPSECKEY = 45,
RRSIG = 46,
NSEC = 47,
DNSKEY = 48,
DHCID = 49,
NSEC3 = 50,
NSEC3PARAM = 51,
TLSA = 52,
SMIMEA = 53,
HIP = 55,
NINFO = 56,
RKEY = 57,
TALINK = 58,
CDS = 59,
CDNSKEY = 60,
OPENPGPKEY = 61,
CSYNC = 62,
ZONEMD = 63,
SVCB = 64,
HTTPS = 65,
SPF = 99,
UINFO = 100,
UID = 101,
GID = 102,
UNSPEC = 103,
NID = 104,
L32 = 105,
L64 = 106,
LP = 107,
EUI48 = 108,
EUI64 = 109,
TKEY = 249,
TSIG = 250,
IXFR = 251,
AXFR = 252,
MAILB = 253,
MAILA = 254,
ANY = 255,
URI = 256,
CAA = 257,
AVC = 258,
DOA = 259,
TA = 32768,
DLV = 32769,
}
local const_section = {
ANSWER = 0,
AUTHORITY = 1,
ADDITIONAL = 2,
}
local const_opcode = {
QUERY = 0,
IQUERY = 1,
STATUS = 2,
NOTIFY = 4,
UPDATE = 5,
}
local const_rcode = {
NOERROR = 0,
FORMERR = 1,
SERVFAIL = 2,
NXDOMAIN = 3,
NOTIMPL = 4,
REFUSED = 5,
YXDOMAIN = 6,
YXRRSET = 7,
NXRRSET = 8,
NOTAUTH = 9,
NOTZONE = 10,
BADVERS = 16,
BADCOOKIE = 23,
}
-- This corresponds to `enum kr_rank`, it's not possible to do this without introspection unfortunately
local const_rank = {
INITIAL = 0,
OMIT = 1,
TRY = 2,
INDET = 4,
BOGUS = 5,
MISMATCH = 6,
MISSING = 7,
INSECURE = 8,
AUTH = 16,
SECURE = 32
}
local const_extended_error = {
NONE = -1,
OTHER = 0,
DNSKEY_ALG = 1,
DS_DIGEST = 2,
STALE = 3,
FORGED = 4,
INDETERMINATE = 5,
BOGUS = 6,
SIG_EXPIRED = 7,
SIG_NOTYET = 8,
DNSKEY_MISS = 9,
RRSIG_MISS = 10,
DNSKEY_BIT = 11,
NSEC_MISS = 12,
CACHED_ERR = 13,
NOT_READY = 14,
BLOCKED = 15,
CENSORED = 16,
FILTERED = 17,
PROHIBITED = 18,
STALE_NXD = 19,
NOTAUTH = 20,
NOTSUP = 21,
NREACH_AUTH = 22,
NETWORK = 23,
INV_DATA = 24,
}
-- Constant tables
local const_class_str = itable(const_class)
local const_type_str = itable(const_type)
local const_rcode_str = itable(const_rcode)
local const_opcode_str = itable(const_opcode)
local const_section_str = itable(const_section)
local const_rank_str = itable(const_rank)
local const_extended_error_str = itable(const_extended_error)
-- Metatype for RR types to allow anonymous types
setmetatable(const_type, {
__index = function (t, k)
local v = rawget(t, k)
if v then return v end
-- Allow TYPE%d notation
if string.find(k, 'TYPE', 1, true) then
return tonumber(k:sub(5))
end
-- Unknown type
return
end
})
-- Metatype for RR types to allow anonymous string types
setmetatable(const_type_str, {
__index = function (t, k)
local v = rawget(t, k)
if v then return v end
return string.format('TYPE%d', k)
end
})
-- Metatype for timeval
local timeval_t = ffi.typeof('struct timeval')
-- Metatype for sockaddr
local addr_buf = ffi.new('char[16]')
local str_addr_buf = ffi.new('char[46 + 1 + 6 + 1]') -- INET6_ADDRSTRLEN + #port + \0
local str_addr_buf_len = ffi.sizeof(str_addr_buf)
local sockaddr_t = ffi.typeof('struct sockaddr')
ffi.metatype( sockaddr_t, {
__index = {
len = function(sa) return C.kr_inaddr_len(sa) end,
ip = function (sa) return C.kr_inaddr(sa) end,
family = function (sa) return C.kr_inaddr_family(sa) end,
port = function (sa) return C.kr_inaddr_port(sa) end,
},
__tostring = function(sa)
assert(ffi.istype(sockaddr_t, sa))
local len = ffi.new('size_t[1]', str_addr_buf_len)
local ret = C.kr_inaddr_str(sa, str_addr_buf, len)
if ret ~= 0 then
error('kr_inaddr_str failed: ' .. tostring(ret))
end
return ffi.string(str_addr_buf)
end,
})
-- Parametrized LRU table
local typed_lru_t = 'struct { $ value_type[1]; struct lru * lru; }'
-- Metatype for LRU
local lru_metatype = {
-- Create a new LRU with given value type
-- By default the LRU will have a capacity of 65536 elements
-- Note: At the point the parametrized type must be finalized
__new = function (ct, max_slots, alignment)
-- {0} will make sure that the value is coercible to a number
local o = ffi.new(ct, {0}, C.lru_create_impl(max_slots or 65536, alignment or 1, nil, nil))
if o.lru == nil then
return
end
return o
end,
-- Destructor to clean allocated memory
__gc = function (self)
assert(self.lru ~= nil)
C.lru_free_items_impl(self.lru)
C.free(self.lru)
self.lru = nil
end,
__index = {
-- Look up key and return reference to current
-- Note: The key will be inserted if it doesn't exist
get_ref = function (self, key, key_len, allow_insert)
local insert = allow_insert and true or false
local ptr = C.lru_get_impl(self.lru, key, key_len or #key, ffi.sizeof(self.value_type[0]), insert, nil)
if ptr ~= nil then
return ffi.cast(self.value_type, ptr)
end
end,
-- Look up key and return current value
get = function (self, key, key_len)
local ref = self:get_ref(key, key_len, false)
if ref then
return ref[0]
end
end,
-- Set value for key to given value
set = function (self, key, value, key_len)
local ref = self:get_ref(key, key_len, true)
if ref then
ref[0] = value
return true
end
end,
},
}
-- Pretty print for domain name
local function dname2str(dname)
if dname == nil then return end
local text_name = ffi.gc(C.knot_dname_to_str(nil, dname, 0), C.free)
if text_name ~= nil then
return ffi.string(text_name)
end
end
-- Convert dname pointer to wireformat string
local function dname2wire(name)
if name == nil then return nil end
return ffi.string(name, knot.knot_dname_size(name))
end
-- Parse RDATA, from presentation to wire-format.
-- in: a table of strings, each a line describing RRTYPE+RDATA
-- out: a table of RDATA strings in wire-format
local function parse_rdata(strs, nothing)
local zonefile = require('zonefile')
if type(strs) ~= 'table' or nothing ~= nil then -- accidents like forgetting braces
error('a table of string(s) is expected', 2)
end
local res = {}
for _, line in ipairs(strs) do
if type(line) ~= 'string' then
error('table must contain strings', 2)
end
local rrs = zonefile.string('. ' .. line)
if #rrs == 0 then error('failed to parse line: ' .. line, 2) end
for _, rr in ipairs(rrs) do
table.insert(res, rr.rdata)
end
end
return res
end
-- RR sets created in Lua must have a destructor to release allocated memory
local function rrset_free(rr)
if rr._owner ~= nil then ffi.C.free(rr._owner) end
if rr:rdcount() > 0 then ffi.C.free(rr.rrs.rdata) end
end
-- Metatype for RR set. Beware, the indexing is 0-based (rdata, get, tostring).
local rrset_buflen = (64 + 1) * 1024
local rrset_buf = ffi.new('char[?]', rrset_buflen)
local knot_rrset_pt = ffi.typeof('knot_rrset_t *')
local knot_rrset_t = ffi.typeof('knot_rrset_t')
ffi.metatype( knot_rrset_t, {
-- Create a new empty RR set object with an allocated owner and a destructor
__new = function (ct, owner, rrtype, rrclass, ttl)
local rr = ffi.new(ct)
C.kr_rrset_init(rr,
owner and knot.knot_dname_copy(owner, nil),
rrtype or 0,
rrclass or const_class.IN,
ttl or 0)
return ffi.gc(rr, rrset_free)
end,
-- BEWARE: `owner` and `rdata` are typed as a plain lua strings
-- and not the real types they represent.
__tostring = function(rr)
assert(ffi.istype(knot_rrset_t, rr))
return rr:txt_dump()
end,
__index = {
owner = function(rr)
assert(ffi.istype(knot_rrset_t, rr))
return dname2wire(rr._owner)
end,
ttl = function(rr)
assert(ffi.istype(knot_rrset_t, rr))
return tonumber(rr._ttl)
end,
class = function(rr, val)
assert(ffi.istype(knot_rrset_t, rr))
if val then
rr.rclass = val
end
return tonumber(rr.rclass)
end,
rdata_pt = function(rr, i)
assert(ffi.istype(knot_rrset_t, rr) and i >= 0 and i < rr:rdcount())
return knot.knot_rdataset_at(rr.rrs, i)
end,
rdata = function(rr, i)
assert(ffi.istype(knot_rrset_t, rr))
local rd = rr:rdata_pt(i)
return ffi.string(rd.data, rd.len)
end,
get = function(rr, i)
assert(ffi.istype(knot_rrset_t, rr) and i >= 0 and i < rr:rdcount())
return {owner = rr:owner(),
ttl = rr:ttl(),
class = tonumber(rr.rclass),
type = tonumber(rr.type),
rdata = rr:rdata(i)}
end,
tostring = function(rr, i)
assert(ffi.istype(knot_rrset_t, rr)
and (i == nil or (i >= 0 and i < rr:rdcount())) )
if rr:rdcount() > 0 then
local ret
if i ~= nil then
ret = knot.knot_rrset_txt_dump_data(rr, i, rrset_buf, rrset_buflen, C.KR_DUMP_STYLE_DEFAULT)
else
ret = -1
end
return ret >= 0 and ffi.string(rrset_buf)
end
end,
-- Dump the rrset in presentation format (dig-like).
txt_dump = function(rr, style)
assert(ffi.istype(knot_rrset_t, rr))
local bufsize = 1024
local dump = ffi.new('char *[1]', C.malloc(bufsize))
-- ^ one pointer to a string
local size = ffi.new('size_t[1]', { bufsize }) -- one size_t = bufsize
local ret = knot.knot_rrset_txt_dump(rr, dump, size,
style or C.KR_DUMP_STYLE_DEFAULT)
local result = nil
if ret >= 0 then
result = ffi.string(dump[0], ret)
end
C.free(dump[0])
return result
end,
txt_fields = function(rr, i)
assert(ffi.istype(knot_rrset_t, rr))
assert(i >= 0 and i < rr:rdcount())
local bufsize = 1024
local dump = ffi.new('char *', C.malloc(bufsize))
ffi.gc(dump, C.free)
local ret = knot.knot_rrset_txt_dump_data(rr, i, dump, 1024,
C.KR_DUMP_STYLE_DEFAULT)
if ret >= 0 then
local out = {}
out.owner = dname2str(rr:owner())
out.ttl = rr:ttl()
out.class = kres.tostring.class[rr:class()]
out.type = kres.tostring.type[rr.type]
out.rdata = ffi.string(dump, ret)
return out
else
panic('knot_rrset_txt_dump_data failure ' .. tostring(ret))
end
end,
-- Return RDATA count for this RR set
rdcount = function(rr)
assert(ffi.istype(knot_rrset_t, rr))
return tonumber(rr.rrs.count)
end,
-- Add binary RDATA to the RR set
add_rdata = function (rr, rdata, rdlen, no_ttl)
assert(ffi.istype(knot_rrset_t, rr))
assert(no_ttl == nil, 'add_rdata() can not accept TTL anymore')
local ret = knot.knot_rrset_add_rdata(rr, rdata, tonumber(rdlen), nil)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
-- Merge data from another RR set into the current one
merge_rdata = function (rr, source)
assert(ffi.istype(knot_rrset_t, rr))
assert(ffi.istype(knot_rrset_t, source))
local ret = knot.knot_rdataset_merge(rr.rrs, source.rrs, nil)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
-- Return type covered by this RRSIG
type_covered = function(rr, i)
i = i or 0
assert(ffi.istype(knot_rrset_t, rr) and i >= 0 and i < rr:rdcount())
if rr.type ~= const_type.RRSIG then return end
return tonumber(C.kr_rrsig_type_covered(knot.knot_rdataset_at(rr.rrs, i)))
end,
-- Check whether a RRSIG is covering current RR set
is_covered_by = function(rr, rrsig)
assert(ffi.istype(knot_rrset_t, rr))
assert(ffi.istype(knot_rrset_t, rrsig))
assert(rrsig.type == const_type.RRSIG)
return (rr.type == rrsig:type_covered() and rr:owner() == rrsig:owner())
end,
-- Return RR set wire size
wire_size = function(rr)
assert(ffi.istype(knot_rrset_t, rr))
return tonumber(knot.knot_rrset_size(rr))
end,
},
})
-- Destructor for packet accepts pointer to pointer
local knot_pkt_t = ffi.typeof('knot_pkt_t')
-- Helpers for reading/writing 16-bit numbers from packet wire
local function pkt_u16(pkt, off, val)
assert(ffi.istype(knot_pkt_t, pkt))
local ptr = ffi.cast(u16_p, pkt.wire + off)
if val ~= nil then ptr[0] = htons(val) end
return (htons(ptr[0]))
end
-- Helpers for reading/writing message header flags
local function pkt_bit(pkt, byteoff, bitmask, val)
-- If the value argument is passed, set/clear the desired bit
if val ~= nil then
if val then pkt.wire[byteoff] = bit.bor(pkt.wire[byteoff], bitmask)
else pkt.wire[byteoff] = bit.band(pkt.wire[byteoff], bit.bnot(bitmask)) end
return true
end
return (bit.band(pkt.wire[byteoff], bitmask) ~= 0)
end
local function knot_pkt_rr(section, i)
assert(section and ffi.istype('knot_pktsection_t', section)
and i >= 0 and i < section.count)
local ret = section.pkt.rr + section.pos + i
assert(ffi.istype(knot_rrset_pt, ret))
return ret
end
-- Metatype for packet
ffi.metatype( knot_pkt_t, {
__new = function (_, size, wire)
if size < 12 or size > 65535 then
error('packet size must be <12, 65535>')
end
local pkt = knot.knot_pkt_new(nil, size, nil)
if pkt == nil then
error(string.format('failed to allocate a packet of size %d', size))
end
if wire == nil then
C.kr_rnd_buffered(pkt.wire, 2) -- randomize the query ID
else
assert(size <= #wire)
ffi.copy(pkt.wire, wire, size)
pkt.size = size
pkt.parsed = 0
end
return ffi.gc(pkt[0], knot.knot_pkt_free)
end,
__tostring = function(pkt)
return pkt:tostring()
end,
__len = function(pkt)
assert(ffi.istype(knot_pkt_t, pkt))
return tonumber(pkt.size)
end,
__ipairs = function(self)
return ipairs(self:section(const_section.ANSWER))
end,
__index = {
-- Header
id = function(pkt, val) return pkt_u16(pkt, 0, val) end,
qdcount = function(pkt, val) return pkt_u16(pkt, 4, val) end,
ancount = function(pkt, val) return pkt_u16(pkt, 6, val) end,
nscount = function(pkt, val) return pkt_u16(pkt, 8, val) end,
arcount = function(pkt, val) return pkt_u16(pkt, 10, val) end,
opcode = function (pkt, val)
assert(ffi.istype(knot_pkt_t, pkt))
pkt.wire[2] = (val) and bit.bor(bit.band(pkt.wire[2], 0x78), 8 * val) or pkt.wire[2]
return (bit.band(pkt.wire[2], 0x78) / 8)
end,
rcode = function (pkt, val)
assert(ffi.istype(knot_pkt_t, pkt))
pkt.wire[3] = (val) and bor(band(pkt.wire[3], 0xf0), val) or pkt.wire[3]
return band(pkt.wire[3], 0x0f)
end,
rd = function (pkt, val) return pkt_bit(pkt, 2, 0x01, val) end,
tc = function (pkt, val) return pkt_bit(pkt, 2, 0x02, val) end,
aa = function (pkt, val) return pkt_bit(pkt, 2, 0x04, val) end,
qr = function (pkt, val) return pkt_bit(pkt, 2, 0x80, val) end,
cd = function (pkt, val) return pkt_bit(pkt, 3, 0x10, val) end,
ad = function (pkt, val) return pkt_bit(pkt, 3, 0x20, val) end,
ra = function (pkt, val) return pkt_bit(pkt, 3, 0x80, val) end,
-- "do" is a reserved word in Lua; only getter
dobit = function(pkt, val)
assert(val == nil, 'dobit is getter only')
assert(ffi.istype(knot_pkt_t, pkt))
return C.kr_pkt_has_dnssec(pkt)
end,
-- Question
qname = function(pkt)
assert(ffi.istype(knot_pkt_t, pkt))
-- inlined knot_pkt_qname(), basically but not lower-cased
if pkt == nil or pkt.qname_size == 0 then return nil end
return ffi.string(pkt.wire + 12, pkt.qname_size)
end,
qclass = function(pkt)
assert(ffi.istype(knot_pkt_t, pkt))
return C.kr_pkt_qclass(pkt)
end,
qtype = function(pkt)
assert(ffi.istype(knot_pkt_t, pkt))
return C.kr_pkt_qtype(pkt)
end,
rrsets = function (pkt, section_id)
assert(ffi.istype(knot_pkt_t, pkt))
local records = {}
local section = pkt.sections + section_id
for i = 1, section.count do
local rrset = knot_pkt_rr(section, i - 1)
table.insert(records, rrset)
end
return records
end,
section = function (pkt, section_id)
assert(ffi.istype(knot_pkt_t, pkt))
local records = {}
local section = pkt.sections + section_id
for i = 1, section.count do
local rrset = knot_pkt_rr(section, i - 1)
for k = 1, rrset:rdcount() do
table.insert(records, rrset:get(k - 1))
end
end
return records
end,
begin = function (pkt, section)
assert(ffi.istype(knot_pkt_t, pkt))
assert(section >= pkt.current, 'cannot rewind to already written section')
assert(const_section_str[section], string.format('invalid section: %s', section))
local ret = knot.knot_pkt_begin(pkt, section)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
put = function (pkt, owner, ttl, rclass, rtype, rdata)
assert(ffi.istype(knot_pkt_t, pkt))
local ret = C.kr_pkt_put(pkt, owner, ttl, rclass, rtype, rdata, #rdata)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
-- Put an RR set in the packet
-- Note: the packet doesn't take ownership of the RR set
put_rr = function (pkt, rr, rotate, flags)
assert(ffi.istype(knot_pkt_t, pkt))
assert(ffi.istype(knot_rrset_t, rr))
local ret = C.knot_pkt_put_rotate(pkt, 0, rr, rotate or 0, flags or 0)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
-- Checks whether the packet has a wire, i.e. the .size is not
-- equal to KR_PKT_SIZE_NOWIRE
has_wire = function (pkt)
assert(ffi.istype(knot_pkt_t, pkt))
return C.kr_pkt_has_wire(pkt)
end,
recycle = function (pkt)
assert(ffi.istype(knot_pkt_t, pkt))
local ret = C.kr_pkt_recycle(pkt)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
clear_payload = function (pkt)
assert(ffi.istype(knot_pkt_t, pkt))
local ret = C.kr_pkt_clear_payload(pkt)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
question = function(pkt, qname, qclass, qtype)
assert(ffi.istype(knot_pkt_t, pkt))
assert(qclass ~= nil, string.format('invalid class: %s', qclass))
assert(qtype ~= nil, string.format('invalid type: %s', qtype))
local ret = C.knot_pkt_put_question(pkt, qname, qclass, qtype)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
towire = function (pkt)
assert(ffi.istype(knot_pkt_t, pkt))
return ffi.string(pkt.wire, pkt.size)
end,
tostring = function(pkt)
assert(ffi.istype(knot_pkt_t, pkt))
return ffi.string(ffi.gc(C.kr_pkt_text(pkt), C.free))
end,
-- Return number of remaining empty bytes in the packet
-- This is generally useful to check if there's enough space
remaining_bytes = function (pkt)
assert(ffi.istype(knot_pkt_t, pkt))
local occupied = pkt.size + pkt.reserved
assert(pkt.max_size >= occupied)
return tonumber(pkt.max_size - occupied)
end,
-- Packet manipulation
parse = function (pkt)
assert(ffi.istype(knot_pkt_t, pkt))
local ret = knot.knot_pkt_parse(pkt, 0)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
-- Resize packet wire to a new size
resize = function (pkt, new_size)
assert(ffi.istype(knot_pkt_t, pkt))
local ptr = C.mm_realloc(pkt.mm, pkt.wire, new_size, pkt.max_size)
if ptr == nil then return end
pkt.wire = ptr
pkt.max_size = new_size
return true
end,
},
})
-- Metatype for query
local kr_query_t = ffi.typeof('struct kr_query')
ffi.metatype( kr_query_t, {
__index = {
-- Return query domain name
name = function(qry)
assert(ffi.istype(kr_query_t, qry))
return dname2wire(qry.sname)
end,
-- Write this query into packet
write = function(qry, pkt)
assert(ffi.istype(kr_query_t, qry))
assert(ffi.istype(knot_pkt_t, pkt))
local ret = C.kr_make_query(qry, pkt)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
},
})
-- helper for trace_chain_callbacks
-- ignores return values from successful calls but logs tracebacks for throws
local function void_xpcall_log_tb(func, req, msg)
local ok, err = xpcall(func, debug.traceback, req, msg)
if not ok then
log_error(ffi.C.LOG_GRP_SYSTEM, 'callback %s req %s msg %s stack traceback:\n%s', func, req, msg, err)
end
end
local function void_xpcall_finish_tb(func, req)
local ok, err = xpcall(func, debug.traceback, req)
if not ok then
log_error(ffi.C.LOG_GRP_SYSTEM, 'callback %s req %s stack traceback:\n%s', func, req, err)
end
end
-- Metatype for request
local kr_request_t = ffi.typeof('struct kr_request')
ffi.metatype( kr_request_t, {
__index = {
-- makes sense only when request is finished
all_from_cache = function(req)
assert(ffi.istype(kr_request_t, req))
local rplan = ffi.C.kr_resolve_plan(req)
if tonumber(rplan.pending.len) > 0 then
-- an unresolved query,
-- i.e. something is missing from the cache
return false
end
for idx=0, tonumber(rplan.resolved.len) - 1 do
if not rplan.resolved.at[idx].flags.CACHED then
return false
end
end
return true
end,
current = function(req)
assert(ffi.istype(kr_request_t, req))
if req.current_query == nil then return nil end
return req.current_query
end,
-- returns the initial query that started the request
initial = function(req)
assert(ffi.istype(kr_request_t, req))
local rplan = C.kr_resolve_plan(req)
if rplan.initial == nil then return nil end
return rplan.initial
end,
-- Return last query on the resolution plan
last = function(req)
assert(ffi.istype(kr_request_t, req))
local query = C.kr_rplan_last(C.kr_resolve_plan(req))
if query == nil then return end
return query
end,
resolved = function(req)
assert(ffi.istype(kr_request_t, req))
local qry = C.kr_rplan_resolved(C.kr_resolve_plan(req))
if qry == nil then return nil end
return qry
end,
-- returns first resolved sub query for a request
first_resolved = function(req)
assert(ffi.istype(kr_request_t, req))
local rplan = C.kr_resolve_plan(req)
if not rplan or rplan.resolved.len < 1 then return nil end
return rplan.resolved.at[0]
end,
push = function(req, qname, qtype, qclass, flags, parent)
assert(ffi.istype(kr_request_t, req))
flags = kres.mk_qflags(flags) -- compatibility
local rplan = C.kr_resolve_plan(req)
local qry = C.kr_rplan_push(rplan, parent, qname, qclass, qtype)
if qry ~= nil and flags ~= nil then
C.kr_qflags_set(qry.flags, flags)
end
return qry
end,
pop = function(req, qry)
assert(ffi.istype(kr_request_t, req))
return C.kr_rplan_pop(C.kr_resolve_plan(req), qry)
end,
selected_tostring = function(req)
assert(ffi.istype(kr_request_t, req))
local buf = {}
if #req.answ_selected ~= 0 then
table.insert(buf, ';; selected from ANSWER sections:\n')
table.insert(buf, tostring(req.answ_selected))
end
if #req.auth_selected ~= 0 then
table.insert(buf, ';; selected from AUTHORITY sections:\n')
table.insert(buf, tostring(req.auth_selected))
end
if #req.add_selected ~= 0 then
table.insert(buf, ';; selected from ADDITIONAL sections:\n')
table.insert(buf, tostring(req.add_selected))
end
return table.concat(buf, '')
end,
set_extended_error = function(req, code, msg)
assert(ffi.istype(kr_request_t, req))
msg = kluautil.kr_string2c(msg, req.pool)
ffi.C.kr_request_set_extended_error(req, code, msg)
end,
-- chain new callbacks after the old ones
-- creates new wrapper functions as necessary
-- note: callbacks are FFI cdata pointers so tests must
-- use explicit "cb == nil", just "if cb" does not work
--
trace_chain_callbacks = function (req, new_log, new_finish)
local log_wrapper
if req.trace_log == nil then
req.trace_log = new_log
else
local old_log = req.trace_log
log_wrapper = ffi.cast('trace_log_f',
function(cbreq, msg)
jit.off(true, true) -- JIT for (C -> lua)^2 nesting isn't allowed
void_xpcall_log_tb(old_log, cbreq, msg)
void_xpcall_log_tb(new_log, cbreq, msg)
end)
req.trace_log = log_wrapper
end
local old_finish = req.trace_finish
if not (log_wrapper ~= nil or old_finish ~= nil) then
req.trace_finish = new_finish
else
local fin_wrapper
fin_wrapper = ffi.cast('trace_callback_f',
function(cbreq)
jit.off(true, true) -- JIT for (C -> lua)^2 nesting isn't allowed
if old_finish ~= nil then
void_xpcall_finish_tb(old_finish, cbreq)
end
if new_finish ~= nil then
void_xpcall_finish_tb(new_finish, cbreq)
end
-- beware: finish callbacks can call log callback
if log_wrapper ~= nil then
log_wrapper:free()
end
fin_wrapper:free()
end)
req.trace_finish = fin_wrapper
end
end,
-- Return per-request variable table
-- The request can store anything in this Lua table and it will be freed
-- when the request is closed, it doesn't have to worry about contents.
vars = function (req)
assert(ffi.istype(kr_request_t, req))
-- Return variable if it's already stored
local var = worker.vars[req.vars_ref]
if var then
return var
end
-- Either take a slot number from freelist
-- or find a first free slot (expand the table)
local ref = worker.vars[0]
if ref then
worker.vars[0] = worker.vars[ref]
else
ref = #worker.vars + 1
end
-- Create new variables table
var = {}
worker.vars[ref] = var
-- Save reference in the request
req.vars_ref = ref
return var
end,
-- Ensure that answer has EDNS if needed; can't fail.
ensure_edns = function (req)
assert(ffi.istype(kr_request_t, req))
return C.kr_request_ensure_edns(req)
end,
-- Ensure that answer exists and return it; can't fail.
ensure_answer = function (req)
assert(ffi.istype(kr_request_t, req))
return C.kr_request_ensure_answer(req)
end,
},
})
-- C array iterator
local function c_array_iter(t, i)
i = i + 1
if i >= t.len then return end
return i, t.at[i][0]
end
-- Metatype for a single ranked record array entry (one RRset)
local function rank_tostring(rank)
local names = {}
for name, value in pairs(const_rank) do
if ffi.C.kr_rank_test(rank, value) then
table.insert(names, string.lower(name))
end
end
table.sort(names) -- pairs() above doesn't give a stable ordering
return string.format('0%.2o (%s)', rank, table.concat(names, ' '))
end
local ranked_rr_array_entry_t = ffi.typeof('ranked_rr_array_entry_t')
ffi.metatype(ranked_rr_array_entry_t, {
__tostring = function(self)
return string.format('; ranked rrset to_wire %s, rank %s, cached %s, qry_uid %s, revalidations %s\n%s',
self.to_wire, rank_tostring(self.rank), self.cached, self.qry_uid,
self.revalidation_cnt, string.format('%s', self.rr))
end
})
-- Metatype for ranked record array (array of RRsets)
local ranked_rr_array_t = ffi.typeof('ranked_rr_array_t')
ffi.metatype(ranked_rr_array_t, {
__len = function(self)
return tonumber(self.len)
end,
__ipairs = function (self)
return c_array_iter, self, -1
end,
__index = {
get = function (self, i)
if i < 0 or i > self.len then return nil end
return self.at[i][0]
end,
},
__tostring = function(self)
local buf = {}
for _, rrset in ipairs(self) do
table.insert(buf, tostring(rrset))
end
return table.concat(buf, '')
end
})
-- Cache metatype
local kr_cache_t = ffi.typeof('struct kr_cache')
ffi.metatype( kr_cache_t, {
__index = {
insert = function (self, rr, rrsig, rank, timestamp)
assert(ffi.istype(kr_cache_t, self))
assert(ffi.istype(knot_rrset_t, rr), 'RR must be a rrset type')
assert(not rrsig or ffi.istype(knot_rrset_t, rrsig), 'RRSIG must be nil or of the rrset type')
-- Get current timestamp
if not timestamp then
local now = timeval_t()
C.gettimeofday(now, nil)
timestamp = tonumber(now.tv_sec)
end
-- Insert record into cache
local ret = C.kr_cache_insert_rr(self, rr, rrsig, tonumber(rank or 0),
timestamp, true)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
commit = function (self)
assert(ffi.istype(kr_cache_t, self))
local ret = C.kr_cache_commit(self)
if ret ~= 0 then return nil, knot_error_t(ret) end
return true
end,
},
})
-- Pretty-print a single RR (which is a table with .owner .ttl .type .rdata)
-- Extension: append .comment if exists.
local function rr2str(rr, style)
-- Construct a single-RR temporary set while minimizing copying.
local ret
do
local rrs = knot_rrset_t(rr.owner, rr.type, kres.class.IN, rr.ttl)
rrs:add_rdata(rr.rdata, #rr.rdata)
ret = rrs:txt_dump(style)
end
-- Trim the newline and append comment (optionally).
if ret then
if ret:byte(-1) == string.byte('\n', -1) then
ret = ret:sub(1, -2)
end
if rr.comment then
ret = ret .. ' ;' .. rr.comment
end
end
return ret
end
-- Module API
kres = {
-- Constants
class = const_class,
type = const_type,
section = const_section,
rcode = const_rcode,
opcode = const_opcode,
rank = const_rank,
extended_error = const_extended_error,
-- Constants to strings
tostring = {
class = const_class_str,
type = const_type_str,
section = const_section_str,
rcode = const_rcode_str,
opcode = const_opcode_str,
rank = const_rank_str,
extended_eror = const_extended_error_str,
},
-- Create a struct kr_qflags from a single flag name or a list of names.
mk_qflags = function (names)
local kr_qflags = ffi.typeof('struct kr_qflags')
if names == 0 or names == nil then -- compatibility: nil is common in lua
names = {}
elseif type(names) == 'string' then
names = {names}
elseif ffi.istype(kr_qflags, names) then
return names
end
local fs = ffi.new(kr_qflags)
for _, name in pairs(names) do
fs[name] = true
end
return fs
end,
CONSUME = 1, PRODUCE = 2, DONE = 4, FAIL = 8, YIELD = 16,
-- Export types
rrset = knot_rrset_t,
packet = knot_pkt_t,
lru = function (max_size, value_type)
value_type = value_type or ffi.typeof('uint64_t')
local ct = ffi.typeof(typed_lru_t, value_type)
return ffi.metatype(ct, lru_metatype)(max_size, ffi.alignof(value_type))
end,
-- Metatypes. Beware that any pointer will be cast silently...
pkt_t = function (udata) return ffi.cast('knot_pkt_t *', udata) end,
request_t = function (udata) return ffi.cast('struct kr_request *', udata) end,
sockaddr_t = function (udata) return ffi.cast('struct sockaddr *', udata) end,
-- Global API functions
-- Convert a lua string to a lower-case wire format (inside GC-ed ffi.string).
str2dname = function(name)
if type(name) ~= 'string' then return end
local dname = ffi.gc(C.knot_dname_from_str(nil, name, 0), C.free)
if dname == nil then return nil end
ffi.C.knot_dname_to_lower(dname);
return dname2wire(dname)
end,
dname2str = dname2str,
dname2wire = dname2wire,
parse_rdata = parse_rdata,
rr2str = rr2str,
str2ip = function (ip)
local family = C.kr_straddr_family(ip)
local ret = C.inet_pton(family, ip, addr_buf)
if ret ~= 1 then return nil end
return ffi.string(addr_buf, C.kr_family_len(family))
end,
context = function () return ffi.C.the_worker.engine.resolver end,
knot_pkt_rr = knot_pkt_rr,
}
return kres
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