KAWIPIKO-SERVER(1) kawipiko KAWIPIKO-SERVER(1) NAME kawipiko -- blazingly fast static HTTP server - kawipiko-server >> kawipiko-server --help >> kawipiko-server --man --archive --archive-inmem (memory-loaded archive file) --archive-mmap (memory-mapped archive file) --archive-preload (preload archive in OS cache) --bind : (HTTP, only HTTP/1.1, FastHTTP) --bind-2 : (HTTP, only HTTP/1.1, Go net/http) --bind-tls : (HTTPS, only HTTP/1.1, FastHTTP) --bind-tls-2 : (HTTPS, with HTTP/2, Go net/http) --bind-quic : (HTTPS, with HTTP/3) --http1-disable --http2-disable --http3-alt-svc : --tls-bundle (TLS certificate bundle) --tls-public (TLS certificate public) --tls-private (TLS certificate private) --tls-self-rsa (use self-signed RSA) --tls-self-ed25519 (use self-signed Ed25519) --processes (of slave processes) --threads (of threads per process) --index-all --index-paths --index-data-meta --index-data-content --hosts-disable (ignore `Host` header) --security-headers-tls --security-headers-disable --limit-memory --timeout-disable --report --quiet --debug --help (show this short help) --man (show the full manual) --dummy --dummy-empty --dummy-delay --profile-cpu --profile-mem ---- FLAGS --bind , --bind-tls , --bind-2 , --bind-tls-2 , and --bind-quic The IP and port to listen for requests with: • (insecure) HTTP/1.1 for --bind, leveraging fasthttp library; • (secure) HTTP/1.1 over TLS for --bind-tls, leveraging fasthttp library; • (insecure) HTTP/1.1 for --bind-2`, leveraging Go's net/http library; (not as performant as the fasthttp powered endpoint;) • (secure) H2 or HTTP/1.1 over TLS for --bind-tls-2, leveraging Go's net/http; (not as performant as the fasthttp powered endpoint;) • (secure) H3 over QUIC for --bind-quic, leveraging github.com/lucas-clemente/quic-go library; (given that H3 is still a new protocol, this must be used with caution; also one should use the --http3-alt-svc ;) • if one uses just --bind-tls (without --bind-tls-2, and without --http2-disabled), then the TLS endpoint is split between fasthttp for HTTP/1.1 and Go's net/http for H2; --tls-bundle , --tls-public , and --tls-private (optional) If TLS is enabled, these options allows one to specify the certificate to use, either as a single file (a bundle) or separate files (the actual public certificate and the private key). If one doesn't specify any of these options, an embedded self-signed certificate will be used. In such case, one can choose between RSA (the --tls-self-rsa flag) or Ed25519 (the --tls-self-ed25519 flag); --http1-disable, --http2-disable Disables that particular protocol. (It can be used only with --bind-tls-2, given that fasthttp only supports HTTP/1.) --processes and --threads The number of processes and threads per each process to start. (Given Go's concurrency model, the threads count is somewhat a soft limit, hinting to the runtime the desired parallelism level.) It is highly recommended to use one process and as many threads as there are cores. Depending on the use-case, one can use multiple processes each with a single thread; this would reduce goroutine contention if it causes problems. (However note that if using --archive-inmem, then each process will allocate its own copy of the database in RAM; in such cases it is highly recommended to use --archive-mmap.) --archive The path of the CDB file that contains the archived static content. (It can be created with the kawipiko-archiver tool.) --archive-inmem Reads the CDB file in RAM, and thus all requests are served from RAM without touching the file-system. (The memory impact is equal to the size of the CDB archive. This can be used if enough RAM is available to avoid swapping.) --archive-mmap (recommended) The CDB file is memory mapped, thus reading its data uses the kernel's file-system cache, as opposed to issuing read syscalls. --archive-preload Before starting to serve requests, read the CDB file so that its data is buffered in the kernel's file-system cache. (This option can be used with or without --archive-mmap.) --index-all, --index-paths, --index-data-meta, and --index-data-content In order to serve a request kawipiko does the following: • given the request's path, it is used to locate the corresponding resource's metadata (i.e. response headers) and data (i.e. response body) references; by using --index-paths a RAM-based lookup table is created to eliminate a CDB read operation for this purpose; (the memory impact is proportional to the size of all resource paths combined; given that the number of resources is acceptable, say up to a couple hundred thousand, one could safely use this option;) • based on the resource's metadata reference, the actual metadata (i.e. the response headers) is located; by using --index-data-meta a RAM-based lookup table is created to eliminate a CDB read operation for this purpose; (the memory impact is proportional to the size of all resource metadata blocks combined; given that the metadata blocks are deduplicated, one could safely use this option; if one also uses --archive-mmap or --archive-inmem, then the memory impact is only proportional to the number of resource metadata blocks;) • based on the resource's data reference, the actual data (i.e. the response body) is located; by using --index-data-content a RAM-based lookup table is created to eliminate a CDB operation operation for this purpose; (the memory impact is proportional to the size of all resource data blocks combined; one can use this option to obtain the best performance; if one also uses --archive-mmap or --archive-inmem, then the memory impact is only proportional to the number of resource data blocks;) • --index-all enables all the options above; • (depending on the use-case) it is recommended to use --index-paths; if --exclude-etag was used during archival, one can also use --index-data-meta; • it is recommended to use either --archive-mmap or --archive-inmem, else (especially if data is indexed) the resulting effect is that of loading everything in RAM; --hosts-disable Disables the virtual-hosts feature by ignoring the Host header. --security-headers-tls Enables adding the following TLS related headers to the response: Strict-Transport-Security: max-age=31536000 Content-Security-Policy: upgrade-insecure-requests These instruct the browser to always use HTTPS for the served domain. (Useful even without HTTPS, when used behind a TLS terminator, load-balancer or proxy that do support HTTPS.) --security-headers-disable Disables adding a few security related headers: Referrer-Policy: strict-origin-when-cross-origin X-Content-Type-Options: nosniff X-XSS-Protection: 1; mode=block X-Frame-Options: sameorigin --report Enables periodic reporting of various metrics. Also enables reporting a selection of metrics if certain thresholds are matched (which most likely is a sign of high-load). --quiet Disables most logging messages. --debug Enables all logging messages. --dummy, --dummy-empty It starts the server in a "dummy" mode, ignoring all archive related arguments and always responding with hello world!\n (unless --dummy-empty was used) and without additional headers except the HTTP status line and Content-Length. This argument can be used to benchmark the raw performance of the underlying fasthttp, Go's net/http, or QUIC performance; this is the upper limit of the achievable performance given the underlying technologies. (From my own benchmarks kawipiko's adds only about ~15% overhead when actually serving the hello-world.cdb archive.) --dummy-delay Enables delaying each response with a certain amount (for example 1s, 1ms, etc.) It can be used to simulate the real-world network latencies, perhaps to see how a site with many resources loads in various conditions. (For example, see an experiment I made with an image made out of 1425 tiles.) --profile-cpu , and --profile-mem Enables CPU and memory profiling using Go's profiling infrastructure. volution.ro 2022-08-26 KAWIPIKO-SERVER(1)