File: //opt/alt/luajit/share/lua/syscall/types.lua
-- choose correct types for OS
-- these are either simple ffi types or ffi metatypes for the kernel types
-- plus some Lua metatables for types that cannot be sensibly done as Lua types eg arrays, integers
-- note that some types will be overridden, eg default fd type will have metamethods added
local require, error, assert, tonumber, tostring,
setmetatable, pairs, ipairs, unpack, rawget, rawset,
pcall, type, table, string, math =
require, error, assert, tonumber, tostring,
setmetatable, pairs, ipairs, unpack, rawget, rawset,
pcall, type, table, string, math
local function init(c, ostypes, bsdtypes)
local abi = require "syscall.abi"
local ffi = require "ffi"
local bit = require "syscall.bit"
local h = require "syscall.helpers"
local ptt, reviter, mktype, istype, lenfn, lenmt, getfd, newfn
= h.ptt, h.reviter, h.mktype, h.istype, h.lenfn, h.lenmt, h.getfd, h.newfn
local addtype, addtype_var, addtype_fn, addraw2 = h.addtype, h.addtype_var, h.addtype_fn, h.addraw2
local ntohl, ntohl, ntohs, htons = h.ntohl, h.ntohl, h.ntohs, h.htons
local split, trim, strflag = h.split, h.trim, h.strflag
local align = h.align
local types = {t = {}, pt = {}, s = {}, ctypes = {}}
local t, pt, s, ctypes = types.t, types.pt, types.s, types.ctypes
local sharedtypes = require "syscall.shared.types"
for k, v in pairs(sharedtypes.t) do t[k] = v end
for k, v in pairs(sharedtypes.pt) do pt[k] = v end
for k, v in pairs(sharedtypes.s) do s[k] = v end
for k, v in pairs(sharedtypes.ctypes) do ctypes[k] = v end
local mt = {} -- metatables
-- generic types
local voidp = ffi.typeof("void *")
function pt.void(x)
return ffi.cast(voidp, x)
end
local addtypes = {
size = "size_t",
ssize = "ssize_t",
mode = "mode_t",
dev = "dev_t",
off = "off_t",
uid = "uid_t",
gid = "gid_t",
pid = "pid_t",
in_port = "in_port_t",
sa_family = "sa_family_t",
socklen = "socklen_t",
id = "id_t",
daddr = "daddr_t",
time = "time_t",
clock = "clock_t",
nlink = "nlink_t",
ino = "ino_t",
nfds = "nfds_t",
}
-- note we cannot add any metatable, as may be declared in os and rump, so not even lenmt added
for k, v in pairs(addtypes) do addtype(types, k, v) end
t.socklen1 = ffi.typeof("socklen_t[1]")
t.off1 = ffi.typeof("off_t[1]")
t.uid1 = ffi.typeof("uid_t[1]")
t.gid1 = ffi.typeof("gid_t[1]")
local errsyms = {} -- reverse lookup by number
local errnames = {} -- lookup error message by number
for k, v in pairs(c.E) do
errsyms[v] = k
errnames[v] = assert(c.errornames[k], "missing error name " .. k)
end
for k, v in pairs(c.EALIAS or {}) do
c.E[k] = v
end
c.EALIAS = nil
mt.error = {
__tostring = function(e) return errnames[e.errno] end,
__index = function(e, k)
if k == 'sym' then return errsyms[e.errno] end
if k == 'lsym' then return errsyms[e.errno]:lower() end
if c.E[k] then return c.E[k] == e.errno end
error("invalid error " .. k)
end,
__new = function(tp, errno)
if not errno then errno = ffi.errno() end
return ffi.new(tp, errno)
end,
}
t.error = ffi.metatype("struct {int errno;}", mt.error)
mt.timeval = {
index = {
time = function(tv) return tonumber(tv.tv_sec) + tonumber(tv.tv_usec) / 1000000 end,
sec = function(tv) return tonumber(tv.tv_sec) end,
usec = function(tv) return tonumber(tv.tv_usec) end,
},
newindex = {
time = function(tv, v)
local i, f = math.modf(v)
tv.tv_sec, tv.tv_usec = i, math.floor(f * 1000000)
end,
sec = function(tv, v) tv.tv_sec = v end,
usec = function(tv, v) tv.tv_usec = v end,
},
__new = function(tp, v)
if not v then v = {0, 0} end
if istype(t.timespec, v) then v = {v.tv_sec, math.floor(v.tv_nsec / 1000)} end
if type(v) == "table" then
if v.tv_nsec then -- compat with timespec
v.tv_usec = math.floor(v.tv_nsec / 1000)
v.tv_nsec = 0
end
end
if type(v) ~= "number" then return ffi.new(tp, v) end
local ts = ffi.new(tp)
ts.time = v
return ts
end,
__tostring = function(tv) return tostring(tv.time) end,
}
addtype(types, "timeval", "struct timeval", mt.timeval)
mt.timespec = {
index = {
time = function(tv) return tonumber(tv.tv_sec) + tonumber(tv.tv_nsec) / 1000000000 end,
sec = function(tv) return tonumber(tv.tv_sec) end,
nsec = function(tv) return tonumber(tv.tv_nsec) end,
},
newindex = {
time = function(tv, v)
local i, f = math.modf(v)
tv.tv_sec, tv.tv_nsec = i, math.floor(f * 1000000000)
end,
sec = function(tv, v) tv.tv_sec = v end,
nsec = function(tv, v) tv.tv_nsec = v end,
},
__new = function(tp, v)
if not v then v = {0, 0} end
if istype(t.timeval, v) then v = {v.tv_sec, v.tv_usec * 1000} end
if type(v) == "table" then
if v.tv_usec then -- compat with timespec TODO add to methods, and use standard new allocation function?
v.tv_nsec = v.tv_usec * 1000
v.tv_usec = 0
end
end
if type(v) ~= "number" then return ffi.new(tp, v) end
local ts = ffi.new(tp)
ts.time = v
return ts
end,
__tostring = function(tv) return tostring(tv.time) end,
}
addtype(types, "timespec", "struct timespec", mt.timespec)
-- array so cannot just add metamethods
addraw2(types, "timeval2_raw", "struct timeval")
t.timeval2 = function(tv1, tv2)
if ffi.istype(t.timeval2_raw, tv1) then return tv1 end
if type(tv1) == "table" then tv1, tv2 = tv1[1], tv1[2] end
local tv = t.timeval2_raw()
if tv1 then tv[0] = t.timeval(tv1) end
if tv2 then tv[1] = t.timeval(tv2) end
return tv
end
-- array so cannot just add metamethods
addraw2(types, "timespec2_raw", "struct timespec")
t.timespec2 = function(ts1, ts2)
if ffi.istype(t.timespec2_raw, ts1) then return ts1 end
if type(ts1) == "table" then ts1, ts2 = ts1[1], ts1[2] end
local ts = t.timespec2_raw()
if ts1 then if type(ts1) == 'string' then ts[0].tv_nsec = c.UTIME[ts1] else ts[0] = t.timespec(ts1) end end
if ts2 then if type(ts2) == 'string' then ts[1].tv_nsec = c.UTIME[ts2] else ts[1] = t.timespec(ts2) end end
return ts
end
mt.groups = {
__index = function(g, k)
return g.list[k - 1]
end,
__newindex = function(g, k, v)
g.list[k - 1] = v
end,
__new = function(tp, gs)
if type(gs) == 'number' then return ffi.new(tp, gs, gs) end
return ffi.new(tp, #gs, #gs, gs)
end,
__len = function(g) return g.count end,
}
addtype_var(types, "groups", "struct {int count; gid_t list[?];}", mt.groups)
-- signal set handlers
local function sigismember(set, sig)
local d = bit.rshift(sig - 1, 5) -- always 32 bits
return bit.band(set.sig[d], bit.lshift(1, (sig - 1) % 32)) ~= 0
end
local function sigemptyset(set)
for i = 0, s.sigset / 4 - 1 do
if set.sig[i] ~= 0 then return false end
end
return true
end
local function sigaddset(set, sig)
set = t.sigset(set)
local d = bit.rshift(sig - 1, 5)
set.sig[d] = bit.bor(set.sig[d], bit.lshift(1, (sig - 1) % 32))
return set
end
local function sigdelset(set, sig)
set = t.sigset(set)
local d = bit.rshift(sig - 1, 5)
set.sig[d] = bit.band(set.sig[d], bit.bnot(bit.lshift(1, (sig - 1) % 32)))
return set
end
local function sigaddsets(set, sigs) -- allow multiple
if type(sigs) ~= "string" then return sigaddset(set, sigs) end
set = t.sigset(set)
local a = split(",", sigs)
for i, v in ipairs(a) do
local s = trim(v)
local sig = c.SIG[s]
if not sig then error("invalid signal: " .. v) end -- don't use this format if you don't want exceptions, better than silent ignore
sigaddset(set, sig)
end
return set
end
local function sigdelsets(set, sigs) -- allow multiple
if type(sigs) ~= "string" then return sigdelset(set, sigs) end
set = t.sigset(set)
local a = split(",", sigs)
for i, v in ipairs(a) do
local s = trim(v)
local sig = c.SIG[s]
if not sig then error("invalid signal: " .. v) end -- don't use this format if you don't want exceptions, better than silent ignore
sigdelset(set, sig)
end
return set
end
mt.sigset = {
__index = function(set, k)
if k == 'add' then return sigaddsets end
if k == 'del' then return sigdelsets end
if k == 'isemptyset' then return sigemptyset(set) end
local sig = c.SIG[k]
if sig then return sigismember(set, sig) end
error("invalid index " .. k)
end,
__new = function(tp, str)
if ffi.istype(tp, str) then return str end
if not str then return ffi.new(tp) end
local f = ffi.new(tp)
local a = split(",", str)
for i, v in ipairs(a) do
local st = trim(v)
local sig = c.SIG[st]
if not sig then error("invalid signal: " .. v) end -- don't use this format if you don't want exceptions, better than silent ignore
local d = bit.rshift(sig - 1, 5) -- always 32 bits
f.sig[d] = bit.bor(f.sig[d], bit.lshift(1, (sig - 1) % 32))
end
return f
end,
}
addtype(types, "sigset", "sigset_t", mt.sigset)
mt.sigval = {
index = {
int = function(self) return self.sival_int end,
ptr = function(self) return self.sival_ptr end,
},
newindex = {
int = function(self, v) self.sival_int = v end,
ptr = function(self, v) self.sival_ptr = v end,
},
__new = function(tp, v)
if not v or type(v) == "table" then return newfn(tp, v) end
local siv = ffi.new(tp)
if type(v) == "number" then siv.int = v else siv.ptr = v end
return siv
end,
}
addtype(types, "sigval", "union sigval", mt.sigval) -- not always called sigval_t
-- cmsg functions, try to hide some of this nasty stuff from the user
local cmsgtype = "struct cmsghdr"
if abi.rumpfn then cmsgtype = abi.rumpfn(cmsgtype) end
local cmsg_hdrsize = ffi.sizeof(ffi.typeof(cmsgtype), 0)
local voidalign = ffi.alignof(ffi.typeof("void *"))
local function cmsg_align(len) return align(len, voidalign) end -- TODO double check this is correct for all OSs
local cmsg_ahdr = cmsg_align(cmsg_hdrsize)
--local function cmsg_space(len) return cmsg_ahdr + cmsg_align(len) end
local function cmsg_len(len) return cmsg_ahdr + len end
-- TODO move this to sockopt file, like set/getsockopt as very similar mapping
local typemap = {
[c.SOL.SOCKET] = c.SCM,
}
-- TODO add the othes here, they differ by OS
if c.SOL.IP then typemap[c.SOL.IP] = c.IP end
mt.cmsghdr = {
__index = {
len = function(self) return tonumber(self.cmsg_len) end,
data = function(self) return self.cmsg_data end,
datalen = function(self) return self:len() - cmsg_ahdr end,
hdrsize = function(self) return cmsg_hdrsize end, -- constant, but better to have it here
align = function(self) return cmsg_align(self:len()) end,
fds = function(self)
if self.cmsg_level == c.SOL.SOCKET and self.cmsg_type == c.SCM.RIGHTS then
local fda = pt.int(self:data())
local fdc = bit.rshift(self:datalen(), 2) -- shift by int size
local i = 0
return function()
if i < fdc then
local fd = t.fd(fda[i])
i = i + 1
return fd
end
end
else
return function() end
end
end,
credentials = function(self) -- TODO Linux only, NetBSD uses SCM_CREDS
if self.cmsg_level == c.SOL.SOCKET and self.cmsg_type == c.SCM.CREDENTIALS then
local cred = pt.ucred(self:data())
return cred.pid, cred.uid, cred.gid
else
return nil, "cmsg does not contain credentials"
end
end,
setdata = function(self, data, datalen)
ffi.copy(self:data(), data, datalen or #data)
end,
setfd = function(self, fd) -- single fd
local int = pt.int(self:data())
int[0] = getfd(fd)
end,
setfds = function(self, fds) -- general case, note does not check size
if type(fds) == "number" or fds.getfd then return self:setfd(fds) end
local int = pt.int(self:data())
local off = 0
for _, v in ipairs(fds) do
int[off] = getfd(v)
off = off + 1
end
end,
},
__new = function (tp, level, scm, data, data_size)
if not data then data_size = data_size or 0 end
level = c.SOL[level]
if typemap[level] then scm = typemap[level][scm] end
if level == c.SOL.SOCKET and scm == c.SCM.RIGHTS then
if type(data) == "number" then -- slightly odd but useful interfaces for fds - TODO document
data_size = data * s.int
data = nil
elseif type(data) == "table" then data_size = #data * s.int end
end
data_size = data_size or #data
local self = ffi.new(tp, data_size, {
cmsg_len = cmsg_len(data_size),
cmsg_level = level,
cmsg_type = scm,
})
if data and (level == c.SOL.SOCKET and scm == c.SCM.RIGHTS) then
self:setfds(data)
elseif data then
self:setdata(data, data_size)
end
return self
end,
}
addtype_var(types, "cmsghdr", "struct cmsghdr", mt.cmsghdr)
-- msg_control is a bunch of cmsg structs, but these are all different lengths, as they have variable size arrays
-- these functions also take and return a raw char pointer to msg_control, to make life easier, as well as the cast cmsg
local function cmsg_firsthdr(msg)
local mc = msg.msg_control
local cmsg = pt.cmsghdr(mc)
if tonumber(msg.msg_controllen) < cmsg:hdrsize() then return nil end -- hdrsize is a constant, so does not matter if invalid struct
return mc, cmsg
end
local function cmsg_nxthdr(msg, buf, cmsg)
if tonumber(cmsg.cmsg_len) < cmsg:hdrsize() then return nil end -- invalid cmsg
buf = pt.char(buf)
local msg_control = pt.char(msg.msg_control)
buf = buf + cmsg:align() -- find next cmsg
if buf + cmsg:hdrsize() > msg_control + msg.msg_controllen then return nil end -- header would not fit
cmsg = pt.cmsghdr(buf)
if buf + cmsg:align() > msg_control + msg.msg_controllen then return nil end -- whole cmsg would not fit
return buf, cmsg
end
local function cmsg_iter(msg, last_msg_control)
local msg_control
if last_msg_control == nil then -- First iteration
msg_control = pt.char(msg.msg_control)
else
local last_cmsg = pt.cmsghdr(last_msg_control)
msg_control = last_msg_control + last_cmsg:align() -- find next cmsg
end
local end_offset = pt.char(msg.msg_control) + msg.msg_controllen
local cmsg = pt.cmsghdr(msg_control)
if msg_control + cmsg:hdrsize() > end_offset then return nil end -- header would not fit
if msg_control + cmsg:align() > end_offset then return nil end -- whole cmsg would not fit
return msg_control, cmsg
end
local function cmsg_headers(msg)
return cmsg_iter, msg, nil
end
mt.msghdr = {
__index = {
cmsg_firsthdr = cmsg_firsthdr,
cmsg_nxthdr = cmsg_nxthdr,
cmsgs = cmsg_headers,
-- TODO add iov
},
newindex = {
name = function(m, n)
m.msg_name, m.msg_namelen = n, #n
end,
iov = function(m, io)
if ffi.istype(t.iovec, io) then -- single iovec
m.msg_iov, m.msg_iovlen = io, 1
else -- iovecs
m.msg_iov, m.msg_iovlen = io.iov, #io
end
end,
control = function(m, buf)
if buf then m.msg_control, m.msg_controllen = buf, #buf else m.msg_control, m.msg_controllen = nil, 0 end
end,
},
__new = newfn,
}
addtype(types, "msghdr", "struct msghdr", mt.msghdr)
mt.pollfd = {
index = {
getfd = function(pfd) return pfd.fd end,
}
}
for k, v in pairs(c.POLL) do mt.pollfd.index[k] = function(pfd) return bit.band(pfd.revents, v) ~= 0 end end
addtype(types, "pollfd", "struct pollfd", mt.pollfd)
mt.pollfds = {
__len = function(p) return p.count end,
__new = function(tp, ps)
if type(ps) == 'number' then return ffi.new(tp, ps, ps) end
local count = #ps
local fds = ffi.new(tp, count, count)
for n = 1, count do -- TODO ideally we use ipairs on both arrays/tables
fds.pfd[n - 1].fd = ps[n].fd:getfd()
fds.pfd[n - 1].events = c.POLL[ps[n].events]
fds.pfd[n - 1].revents = 0
end
return fds
end,
__ipairs = function(p) return reviter, p.pfd, p.count end
}
addtype_var(types, "pollfds", "struct {int count; struct pollfd pfd[?];}", mt.pollfds)
mt.rusage = {
index = {
utime = function(ru) return ru.ru_utime end,
stime = function(ru) return ru.ru_stime end,
maxrss = function(ru) return tonumber(ru.ru_maxrss) end,
ixrss = function(ru) return tonumber(ru.ru_ixrss) end,
idrss = function(ru) return tonumber(ru.ru_idrss) end,
isrss = function(ru) return tonumber(ru.ru_isrss) end,
minflt = function(ru) return tonumber(ru.ru_minflt) end,
majflt = function(ru) return tonumber(ru.ru_majflt) end,
nswap = function(ru) return tonumber(ru.ru_nswap) end,
inblock = function(ru) return tonumber(ru.ru_inblock) end,
oublock = function(ru) return tonumber(ru.ru_oublock) end,
msgsnd = function(ru) return tonumber(ru.ru_msgsnd) end,
msgrcv = function(ru) return tonumber(ru.ru_msgrcv) end,
nsignals = function(ru) return tonumber(ru.ru_nsignals) end,
nvcsw = function(ru) return tonumber(ru.ru_nvcsw) end,
nivcsw = function(ru) return tonumber(ru.ru_nivcsw) end,
},
print = {"utime", "stime", "maxrss", "ixrss", "idrss", "isrss", "minflt", "majflt", "nswap",
"inblock", "oublock", "msgsnd", "msgrcv", "nsignals", "nvcsw", "nivcsw"},
}
addtype(types, "rusage", "struct rusage", mt.rusage)
local function itnormal(v)
if not v then v = {{0, 0}, {0, 0}} end
if v.interval then
v.it_interval = v.interval
v.interval = nil
end
if v.value then
v.it_value = v.value
v.value = nil
end
if not v.it_interval then
v.it_interval = v[1]
v[1] = nil
end
if not v.it_value then
v.it_value = v[2]
v[2] = nil
end
return v
end
mt.itimerspec = {
index = {
interval = function(it) return it.it_interval end,
value = function(it) return it.it_value end,
},
__new = function(tp, v)
v = itnormal(v)
v.it_interval = istype(t.timespec, v.it_interval) or t.timespec(v.it_interval)
v.it_value = istype(t.timespec, v.it_value) or t.timespec(v.it_value)
return ffi.new(tp, v)
end,
}
addtype(types, "itimerspec", "struct itimerspec", mt.itimerspec)
mt.itimerval = {
index = {
interval = function(it) return it.it_interval end,
value = function(it) return it.it_value end,
},
__new = function(tp, v)
v = itnormal(v)
v.it_interval = istype(t.timeval, v.it_interval) or t.timeval(v.it_interval)
v.it_value = istype(t.timeval, v.it_value) or t.timeval(v.it_value)
return ffi.new(tp, v)
end,
}
addtype(types, "itimerval", "struct itimerval", mt.itimerval)
mt.macaddr = {
__tostring = function(m)
local hex = {}
for i = 1, 6 do
hex[i] = string.format("%02x", m.mac_addr[i - 1])
end
return table.concat(hex, ":")
end,
__new = function(tp, str)
local mac = ffi.new(tp)
if str then
for i = 1, 6 do
local n = tonumber(str:sub(i * 3 - 2, i * 3 - 1), 16) -- TODO more checks on syntax
mac.mac_addr[i - 1] = n
end
end
return mac
end,
}
addtype(types, "macaddr", "struct {uint8_t mac_addr[6];}", mt.macaddr)
-- include OS specific types
types = ostypes.init(types)
if bsdtypes then types = bsdtypes.init(c, types) end
-- define dents type if dirent is defined
if t.dirent then
t.dirents = function(buf, size) -- buf should be char*
local d, i = nil, 0
return function() -- TODO work out if possible to make stateless
if size > 0 and not d then
d = pt.dirent(buf)
i = i + d.d_reclen
return d
end
while i < size do
d = pt.dirent(pt.char(d) + d.d_reclen)
i = i + d.d_reclen
if d.ino ~= 0 then return d end -- some systems use ino = 0 for deleted files before removed eg OSX; it is never valid
end
return nil
end
end
end
return types
end
return {init = init}