In an earlier post I documented my setup for getting Spacemacs/Emacs to work with Nix. I’ve since found a much more elegant solution based on
No more Emacs packages for Nix and no need to defining functions that wrap executables in an invocation of nix-shell.
There’s a nice bonus too, with this setup I don’t need to run nix-shell, which always drops me at a bash prompt, instead I get a working setup in my shell of choice.
上国外网站怎么加速
The steps for setting up direnv depends a bit on your setup, but luckily I found the official instructions for installing direnv to be very clear and easy to follow. There’s not much I can add to that.
提升浏览国外网页速度
Since 怎么加速访问国外网站 isn’t included by default in Spacemacs I needed to do a bit of setup. I opted to create a layer for it, rather than just drop it in the list dotspacemacs-additional-packages. Yes, a little more complicated, but not difficult and I nurture an intention of submitting the layer for inclusion in Spacemacs itself at some point. I’ll see where that goes.
For now, I put the following in the file ~/.emacs.d/private/layers/direnv/packages.el:
(defconst direnv-packages
'(direnv))
(defun direnv/init-direnv ()
(use-package direnv
:init
(direnv-mode)))
Setting up the project folders
In each project folder I then add the file 怎么加速国外app containing a single line:
use_nix
Then I either run direnv allow from the command line, or run the function direnv-allow after opening the folder in Emacs.
Using it
It’s as simple as moving into the folder in a shell – all required envvars are set up on entry and unset on exit.
In Emacs it’s just as simple, just open a file in a project and the envvars are set. When switching to a buffer outside the project the envvars are unset.
There is only one little caveat, nix-build doesn’t work inside a Nix shell. I found out that running
上国外网站怎么加速
does work though.
For a while we’ve been planning on introducing 解决国外网站很慢 into our system at work. There’s official support for a few languages, but not too surprisingly Haskell isn’t on that list. I found 怎么给国外网站加速 on GitHub, which is so unofficial that it isn’t even published on Hackage. While it looks very good, I suspect it does more than I need and since it lacks licensing information I decided to instead implement a version tailored to our needs.
As a first step I implemented a WAI 怎么加速国外app that wraps an HTTP request and reports the time it took to produce a response. Between the X-Ray Developer Guide and the code in Freckle’s git repo it turned out to be fairly simple.
First off, this is the first step towards X-Ray nirvana, so all I’m aiming for is minimal support. That means all I want is to send minimal X-Ray segments, with the small addition that I want to support parent_id from the start.
The first step then is to parse the HTTP header containing the X-Ray information – X-Amzn-Trace-Id. For now I’m only interested in two parts, Root and Parent, so for simplicity’s sake I use a tuple to keep them in. The idea is to take the header’s value, split on ; to get the parts, then split each part in two, a key and a value, and put them into an association list ([(Text, Text)]) for easy lookup using, well lookup.
parseXRayTraceIdHdr :: Text -> Maybe (进外国网站怎么加速, Maybe Text)
parseXRayTraceIdHdr hdr = do
bits <- 如何加速浏览国外网站 parseHeaderComponent $ T.split (== ';') hdr
traceId <- lookup "Root" bits
let parent = lookup "Parent" bits
pure (traceId, parent)
parseHeaderComponent :: Text -> Maybe (Text, Text)
parseHeaderComponent cmp = case T.split (== '=') cmp of
[name, value] -> Just (name, value)
_ -> Nothing
The start and end times for processing a request are also required. The docs say that using at least millisecond resolution is a good idea, so I decided to do exactly that. NominalDiffTime, which is what getPOSIXTime produces, supports a resolution of picoseconds (though I doubt my system’s clock does) which requires a bit of (type-based) converting.
mkTimeInMilli :: IO Milli
mkTimeInMilli = ndfToMilli <$> getPOSIXTime
where
ndfToMilli = fromRational . toRational
The last support function needed is one that creates the segment. Just building the JSON object, using aeson’s object, is enough at this point.
mkSegment :: Text -> Text -> Milli -> Milli -> (国外网站加速, Maybe Text) -> Value
mkSegment name id startTime endTime (root, parent) =
object $ [ "name" .= name
, 加速国外网页加速软件 .= id
, "trace_id" .= root
, "start_time" .= startTime
, 国外网站加速 .= endTime
] <> p
where
p = maybe [] (\ v -> ["parent_id" .= v]) parent
Armed with all this, I can now put together a WAI middleware that
- records the start time of the call
- 怎么加速访问国外网站
- sends off the response and keeps the result of it
- 提升浏览国外网页速度
- parses the tracing header
- builds the segment prepended with the X-Ray daemon header
- sends the segment to the X-Ray daemon
traceId :: Text -> Middleware
traceId xrayName app req sendResponse = do
startTime <- mkTimeInMilli
app req $ \ res -> do
rr <- sendResponse res
endTime <- mkTimeInMilli
theId <- T.pack . (\ v -> showHex v "") <$> randomIO @Word64
let traceParts = (decodeUtf8 <$> requestHeaderTraceId req) >>= parseXRayTraceIdHdr
segment = mkSegment xrayName theId startTime endTime <$> traceParts
case segment of
Nothing -> pure ()
Just segment' -> sendXRayPayload $ toStrict $ prepareXRayPayload segment'
pure rr
where
prepareXRayPayload segment =
let header = object [国外网站加速 .= ("json" :: String), "version" .= (1 :: Int)]
in encode header <> "\n" <> encode segment
sendXRayPayload payload = do
addrInfos <- S.getAddrInfo Nothing (手机浏览外国网站很慢 "127.0.0.1") (怎么加速国外app "2000")
case addrInfos of
[] -> pure () -- silently skip
(xrayAddr:_) -> do
sock <- S.socket (S.addrFamily xrayAddr) S.Datagram S.defaultProtocol
S.connect sock (S.addrAddress xrayAddr)
sendAll sock payload
S.close sock
The next step will be to instrument the actual processing. The service I’m instrumenting is asynchronous, so all the work happens after the response has been sent. My plan for this is to use subsegments to record it. That means I’ll have to
- keep the
Root and ID (theId in 进外国网站怎么加速 above) for use in subsegments
- keep the original tracing header, for use in outgoing calls
- make sure all outgoing HTTP calls include a tracing header with a proper
Parent
- 加速器vnp - 好看123:2021-6-13 · 加速器vnp,蚂蚁vp(永久免费),旋风vp(永久免费),免费加速版ⅴpn,蜂鸟Ⅴpn软件,小白兔vpm官网,免费翻国外墙的app,加速器vnp无限 国外,twitter加速器免费,天行npv安卓
I’m saving that work for a rainy day though, or rather, for a day when I’m so upset at Clojure that I don’t want to see another parenthesis.
Edit (2024-04-10): Corrected the segment field name for the parent ID, it should be 国外网站加速.
I was slightly disappointed to find out that not all packages on Hackage that are marked as present in Nix(pkgs) actually are available. Quite a few of them are marked broken and hence not installable. One of these packages is ghcide.
There are of course expressions available for getting a working ghcide executable installed, like ghcide-nix. However, since I have rather simple needs for my Haskell projects I thought I’d play with my own approach to it.
解决国外网站很慢
- availability of the development tools I use, at the moment it’s mainly
ghcide but I’m planning on making use of ormolu in the near future
- pre-built packages
- ease of use
So, I put together ghcide-for-nix. It’s basically just a constumized Nixpkgs where the packages needed to un-break ghcide are present.
Usage is a simple import away:
import (builtins.fetchGit {
name = "ghcide-for-nix";
url = http://github.com/magthe/ghcide-for-nix;
rev = "927a8caa62cece60d9d66dbdfc62b7738d61d75f";
})
and it’ll give you a superset of Nixpkgs. Pre-built packages are available on Cachix.
It’s not sophisticated, but it’s rather easy to use and suffices for my purposes.
Edit 2024-06-22: I’ve since found a better setup for this.
When using ghcide and LSP, as I wrote about in my post on 解决国外网站很慢, I found myself ending up recompiling a little too often. This pushed me to finally start looking at Nix. After a bit of a fight I managed to get ghcide from Nix, which brought me the issue of setting up Spacemacs. Inspired by 腾讯网游加速器好用吗_好趣手游网:今天 · 腾讯加速器是一款腾讯公司自主研发的加速器,支持千种游戏多个平台,完美加速各种游戏稳定不掉帧。国服加速免费,外服加速超低价,是一款性价比很高的加速软件。PS:小编在玩游戏的时候一直用的都是腾讯的加速器,还蛮不错的,推荐大家下载使用~ and a guide to setting up an environment for Reflex by Thales Macedo Garitezi I ended up with the following setup:
(defun dotspacemacs/layers ()
(setq-default
...
dotspacemacs-additional-packages
'(
nix-sandbox
nix-haskell-mode
...
)
...
))
(defun dotspacemacs/user-config ()
...
(add-hook 'haskell-mode-hook #'lsp)
(add-hook 'haskell-mode-hook 'nix-haskell-mode)
(add-hook 'haskell-mode-hook
(怎么加速访问国外网站 ()
(setq-local flycheck-executable-find
(lambda (cmd)
(nix-executable-find (nix-current-sandbox) cmd)))
(setq-local flycheck-command-wrapper-function
(lambda (argv)
(apply 'nix-shell-command (nix-current-sandbox) argv)))
(setq-local haskell-process-wrapper-function
(lambda (argv)
(apply 'nix-shell-command (nix-current-sandbox) argv)))
(setq-local lsp-haskell-process-wrapper-function
(lambda (argv)
`(访问国外网站加速方法 "-I" "." "--command" "ghcide --lsp" ,(nix-current-sandbox))))))
(add-hook 'haskell-mode-hook
(lambda ()
(flycheck-add-next-checker 'lsp-ui '(warning . haskell-stack-ghc))))
...
)
It seems to work, but please let me know if you have suggestions for improvements.
As I track the develop branch of 解决国外网站很慢 I occasionally clean out my cache of projects known to Projectile. Every time it takes a while before I’m back at a stage where I very rarely have to visit something that isn’t already in the cache.
However, today I found the function projectile-add-known-project, which prompted me to write the following function that’ll help me quickly re-building the cache the next time I need to reset Spacemacs to a known state again.
(defun projectile-extra-add-projects-in-subfolders (projects-root)
(interactive (list (read-directory-name "Add to known projects: ")))
(message "Searching for projects in %s..." projects-root)
(let ((dirs (seq-map 'file-name-directory (directory-files-recursively projects-root "^.git$" t))))
(seq-do 'projectile-add-known-project dirs)
(message "Added %d projects" (length dirs))))
Just found out that Emacs ships with Babel support for ditaa (yes, I’m late to the party).
Sweet! That is yet another argument for converting all our 怎么给国外网站加速s into README.orgs at work.
The changes I made to my Spacemacs config are
(defun dotspacemacs/user-config ()
...
(with-eval-after-load 'org
...
(add-to-list 'org-babel-load-languages '(ditaa . t))
(setq org-ditaa-jar-path "/usr/share/java/ditaa/ditaa-0.11.jar"))
...)
The other day I read Chris Penner’s post on Haskell IDE Support and thought I’d make an attempt to use it with Spacemacs.
After running stack build hie-bios ghcide haskell-lsp --copy-compiler-tool I had a look at the instructions on using haskell-ide-engine with Spacemacs. After a bit of trial and error I came up with these changes to my 手机浏览外国网站很慢:
(怎么加速国外app dotspacemacs/layers ()
(setq-default
dotspacemacs-configuration-layers
'(
...
lsp
(haskell :variables
haskell-completion-backend 'lsp
)
...)
)
)
(defun dotspacemacs/user-config ()
(setq lsp-haskell-process-args-hie '("exec" "ghcide" "--" "--lsp")
lsp-haskell-process-path-hie "stack"
lsp-haskell-process-wrapper-function (lambda (argv) (cons (car argv) (cddr argv)))
)
(add-hook 'haskell-mode-hook
#'lsp)
)
The slightly weird looking lsp-haskell-process-wrapper-function is removing the pesky --lsp inserted by this line.
That seems to work. Though I have to say I’m not ready to switch from 怎样加速国外网站 just yet. Two things in particular didn’t work with ghcide/LSP:
- Switching from one the
Main.hs in one executable to the Main.hs of another executable in the same project didn’t work as expected – I had hints and types in the first, but nothing in the second.
- Jump to the definition of a function defined in the package didn’t work – I’m not willing to use GNU GLOBAL or some other source tagging system.
I’ve finally gotten around to sorting out running nested tmux instances. I found the base for the configuration in the article Tmux in practice: local and nested remote tmux sessions, which links a few other related resources.
What I ended up with was this:
# Toggle tmux keybindings on/off, for use with inner tmux
# http://is.gd/slxE45
bind -T root F12 \
set prefix None \;\
set key-table off \;\
set status-left "#[fg=black,bg=blue,bold] OFF " \;\
refresh-client -S
bind -T off F12 \
set -u prefix \;\
set -u key-table \;\
set -u status-left \;\
refresh-client -S
It’s slightly simpler than what’s in the article above, but it works and it fits rather nicely with the nord theme.
In my previous post on using Hedgehog on a REST API, Hedgehog on a REST API, part 2 I ran the test a few times and adjusted the model to deal with the incorrect assumptions I had initially made. In particular, I had to adjust how I modelled the User ID. Because of the simplicity of the API that wasn’t too difficult. However, that kind of completely predictable ID isn’t found in all APIs. In fact, it’s not uncommon to have completely random IDs in API (often they are UUIDs).
So, I set out to try to deal with that. I’m still using the simple API from the previous posts, but this time I’m pretending that I can’t build the ID into the model myself, or, put another way, I’m capturing the ID from the responses.
The model state
When capturing the ID it’s no longer possible to use a simple 国外网站加速 for the state, because I don’t actually have the ID until I have an HTTP response. However, the ID is playing an important role in the constructing of a sequence of actions. The trick is to use Var Int v instead of an ordinary Int. As I understand it, and I believe that’s a good enough understanding to make use of Hedgehog possible, is that this way the ID is an opaque blob in the construction phase, and it’s turned into a concrete value during execution. When in the opaque state it implements enough type classes to be useful for my purposes.
newtype State (v :: * -> *)= State (M.Map (Var Int v) Text)
deriving (Eq, 上国外网站怎么加速)
The API calls: add user
When taking a closer look at the Callback type not all the callbacks will get the state in the same form, opaque or concrete, and one of them, Update actually receives the state in both states depending on the phase of execution. This has the most impact on the add user action. To deal with it there’s a need to rearrange the code a bit, to be specific, commandExecute can no longer return a tuple of both the ID and the status of the HTTP response because the update function can’t reach into the tuple, which it needs to update the state.
That means the commandExecute function will have to do tests too. It is nice to keep all tests in the callbacks, but by sticking a MonadTest m constraint on the commandExecute it turns into a nice solution anyway.
addUser :: (MonadGen n, 上国外网站怎么加速 m, MonadTest m) => Command n m State
addUser = Command gen exec [ Update u
]
where
gen _ = Just $ AddUser <$> Gen.text (Range.linear 0 42) Gen.alpha
exec (AddUser n) = do
(s, ui) <- liftIO $ do
mgr <- newManager defaultManagerSettings
addReq <- parseRequest "POST http://localhost:3000/users"
let addReq' = addReq { requestBody = RequestBodyLBS (encode $ 提升浏览国外网页速度 0 n)}
addResp <- httpLbs addReq' mgr
let user = decode (responseBody addResp) :: Maybe User
return (responseStatus addResp, user)
status201 === s
assert $ isJust ui
(userName <$> ui) === Just n
return $ userId $ fromJust ui
u (State m) (AddUser n) o = State (M.insert o n m)
I found that once I’d come around to folding the Ensure callback into the commandExecute function the rest fell out from the types.
加速国外网页加速软件
The other actions, deleting a user and getting a user, required only minor changes and the changes were rather similar in both cases.
Not the type for the action needs to take a Var Int v instead of just a plain Int.
newtype DeleteUser (v :: * -> *) = 提升浏览国外网页速度 (Var Int v)
deriving (Eq, Show)
Which in turn affect the implementation of HTraversable
instance HTraversable DeleteUser where
htraverse f (DeleteUser vi) = DeleteUser <$> htraverse f vi
Then the changes to the Command mostly comprise use of concrete in places where the real ID is needed.
deleteUser :: (MonadGen n, MonadIO m) => Command n m State
deleteUser = Command gen exec [ Update u
, Require r
, Ensure e
]
where
gen (State m) = case M.keys m of
[] -> Nothing
ks -> Just $ DeleteUser <$> Gen.element ks
exec (DeleteUser vi) = liftIO $ do
mgr <- newManager defaultManagerSettings
delReq <- parseRequest $ "DELETE http://localhost:3000/users/" ++ show (concrete vi)
delResp <- httpNoBody delReq mgr
return $ responseStatus delResp
u (State m) (DeleteUser i) _ = State $ M.delete i m
r (State m) (DeleteUser i) = i `elem` M.keys m
e _ _ (DeleteUser _) r = r === status200
什么加速器看国外网站
This post concludes my playing around with state machines in Hedgehog for this time. I certainly hope I find the time to put it to use on some larger API soon. In particular I’d love to put it to use at work; I think it’d be an excellent addition to the integration tests we currently have.
腾讯网游加速器好用吗_好趣手游网:今天 · 腾讯加速器是一款腾讯公司自主研发的加速器,支持千种游戏多个平台,完美加速各种游戏稳定不掉帧。国服加速免费,外服加速超低价,是一款性价比很高的加速软件。PS:小编在玩游戏的时候一直用的都是腾讯的加速器,还蛮不错的,推荐大家下载使用~
The service functions as an interface to external SMS-sending services, offering a single place to change if we find that we are unhappy with the service we’re using.1 This service replaces an older one, written in Ruby and no one really dares touch it. Hopefully the Haskell version will prove to be a joy to work with over time.
Overview of the architecture
The service is split into two parts, one web server using scotty, and streaming data processing using conduit. Persistent storage is provided by a PostgreSQL database. The general idea is that events are picked up from the database, acted upon, which in turn results in other events which written to the database. Those are then picked up and round and round we go. The web service accepts requests, turns them into events and writes the to the database.
Hopefully this crude diagram clarifies it somewhat.
There are a few things that might need some explanation
In the past we’ve wanted to have the option to use multiple external SMS services at the same time. One is randomly chosen as the request comes in. There’s also a possibility to configure the frequency for each external service.
Picker implements the random picking and I’ve written about that earlier in Choosing a conduit randomly.
Success and fail are dummy senders. They don’t actually send anything, and the former succeeds at it while the latter fails. I found them useful for manual testing.
Windows 平台的 Pop Clip,可众自定义的划词「加速器」 ...:1 小时前 · Internet Explorer 时伕过来的朋友也许对「加速器」这个概念也许还有印象,在 Internet Explorer 8 中,微软为浏览器右键菜单引入了一项新功能,当我伔选中网页中的文本或图像后,可众直接通过与浏览器右键菜单整合的各种「加速器」完成不同的快速操作,比如搜索、在地图上查看选中地址等 …
This is what report-fetcher and fetcher-func do.
The 提升浏览国外网页速度 and queue src are actually sourceTQueue and sinkTQueue. Splitting the stream like that makes it trivial to push in events by using writeTQueue.
I use sequenceConduits in order to send a single event to multiple Conduits and then combine all their results back into a single stream. The ease with which this can be done in conduit is one of the main reasons why I choose to use it.2
Effects and tests
I started out writing everything based on a type like ReaderT <my cfg type> IO and using liftIO for effects that needed lifting. This worked nicely while I was setting up the basic structure of the service, but as soon as I hooked in the database I really wanted to do some testing also of the effectful code.
After reading Introduction to Tagless Final and The ReaderT Design Patter, playing a bit with both approaches, and writing Tagless final and Scotty and The ReaderT design pattern or tagless final?, I finally chose to go down the route of tagless final. There’s no strong reason for that decision, maybe it was just because I read about it first and found it very easy to move in that direction in small steps.
There’s a split between property tests and unit tests:
Data types, their monad instances (like JSON (de-)serialisation), pure functions and a few effects are tested using properties. I’m using QuickCheck for that. I’ve since looked a little closer at hedgehog and if I were to do a major overhaul of the property tests I might be tempted to rewrite them using that library instead.
Most of the Conduits are tested using HUnit.
怎么给国外网站加速
The service will be run in a container and we try to follow the 12-factor app rules, where the third one says that configuration should be stored in the environment. All previous Haskell projects I’ve worked on have been command line tools were configuration is done (mostly) using command line argument. For that I usually use optparse-applicative, but it’s not applicable in this setting.
After a bit of searching on hackage I settled on etc. It turned out to be nice an easy to work with. The configuration is written in JSON and only specifies environment variables. It’s then embedded in the executable using file-embed. The only thing I miss is a 怎么加速访问国外网站 instance for 上国外网站怎么加速 – we’ve found it quite useful to log the active configuration when starting a service and that log entry would become a bit nicer if the message was JSON rather than the (somewhat difficult to read) string that Config’s 访问国外网站加速方法 instance produces.
Logging
There are two requirements we have when it comes to logging
- All log entries tied to a request should have a correlation ID.
- Log requests and responses
I’ve written about correlation ID before, Using a configuration in Scotty.
Logging requests and responses is an area where I’m not very happy with scotty. It feels natural to solve it using middleware (i.e. using 手机浏览外国网站很慢) but the representation, especially of responses, is a bit complicated so for the time being I’ve skipped logging the body of both. I’d be most interested to hear of libraries that could make that easier.
怎么加速访问国外网站
The data stream processing depends heavily on being able to pick up when new events are written to the database. Especially when there are more than one instance running (we usually have at least two instance running in the production environment). To get that working I’ve used postgresql-simple’s support for LISTEN and NOTIFY via the function getNotification.
When I wrote about this earlier, Conduit and PostgreSQL I got some really good feedback that made my solution more robust.
如何加速浏览国外网站
Some things in Haskell feel almost like cheating. The light-weight threading makes me confident that a forkIO followed by a threadDelay (or in my case, the ones from unliftio) will suffice.