upstream/mercurial-mirror Files · contrib/chg/hgclient.c

dirstate: Remove the flat Rust DirstateMap implementation...

dirstate: Remove the flat Rust DirstateMap implementation Before this changeset we had two Rust implementations of `DirstateMap`. This removes the "flat" DirstateMap so that the "tree" DirstateMap is always used when Rust enabled. This simplifies the code a lot, and will enable (in the next changeset) further removal of a trait abstraction. This is a performance regression when: * Rust is enabled, and * The repository uses the legacy dirstate-v1 file format, and * For `hg status`, unknown files are not listed (such as with `-mard`) The regression is about 100 milliseconds for `hg status -mard` on a semi-large repository (mozilla-central), from ~320ms to ~420ms. We deem this to be small enough to be worth it. The new dirstate-v2 is still experimental at this point, but we aim to stabilize it (though not yet enable it by default for new repositories) in Mercurial 6.0. Eventually, upgrating repositories to dirsate-v2 will eliminate this regression (and enable other performance improvements). # Background The flat DirstateMap was introduced with the first Rust implementation of the status algorithm. It works similarly to the previous Python + C one, with a single `HashMap` that associates file paths to a `DirstateEntry` (where Python has a dict). We later added the tree DirstateMap where the root of the tree contains nodes for files and directories that are directly at the root of the repository, and nodes for directories can contain child nodes representing the files and directly that *they* contain directly. The shape of this tree mirrors that of the working directory in the filesystem. This enables the status algorithm to traverse this tree in tandem with traversing the filesystem tree, which in turns enables a more efficient algorithm. Furthermore, the new dirstate-v2 file format is also based on a tree of the same shape. The tree DirstateMap can access a dirstate-v2 file without parsing it: binary data in a single large (possibly memory-mapped) bytes buffer is traversed on demand. This allows `DirstateMap` creation to take `O(1)` time. (Mutation works by creating new in-memory nodes with copy-on-write semantics, and serialization is append-mostly.) The tradeoff is that for "legacy" repositories that use the dirstate-v1 file format, parsing that file into a tree DirstateMap takes more time. Profiling shows that this time is dominated by `HashMap`. For a dirstate containing `F` files with an average `D` directory depth, the flat DirstateMap does parsing in `O(F)` number of HashMap operations but the tree DirstateMap in `O(F × D)` operations, since each node has its own HashMap containing its child nodes. This slower costs ~140ms on an old snapshot of mozilla-central, and ~80ms on an old snapshot of the Netbeans repository. The status algorithm is faster, but with `-mard` (when not listing unknown files) it is typically not faster *enough* to compensate the slower parsing. Both Rust implementations are always faster than the Python + C implementation # Benchmark results All benchmarks are run on changeset 98c0408324e6, with repositories that use the dirstate-v1 file format, on a server with 4 CPU cores and 4 CPU threads (no HyperThreading). `hg status` benchmarks show wall clock times of the entire command as the average and standard deviation of serveral runs, collected by https://github.com/sharkdp/hyperfine and reformated. Parsing benchmarks are wall clock time of the Rust function that converts a bytes buffer of the dirstate file into the `DirstateMap` data structure as used by the status algorithm. A single run each, collected by running `hg status` this environment variable: RUST_LOG=hg::dirstate::dirstate_map=trace,hg::dirstate_tree::dirstate_map=trace Benchmark 1: Rust flat DirstateMap → Rust tree DirstateMap hg status mozilla-clean 562.3 ms ± 2.0 ms → 462.5 ms ± 0.6 ms 1.22 ± 0.00 times faster mozilla-dirty 859.6 ms ± 2.2 ms → 719.5 ms ± 3.2 ms 1.19 ± 0.01 times faster mozilla-ignored 558.2 ms ± 3.0 ms → 457.9 ms ± 2.9 ms 1.22 ± 0.01 times faster mozilla-unknowns 859.4 ms ± 5.7 ms → 716.0 ms ± 4.7 ms 1.20 ± 0.01 times faster netbeans-clean 336.5 ms ± 0.9 ms → 339.5 ms ± 0.4 ms 0.99 ± 0.00 times faster netbeans-dirty 491.4 ms ± 1.6 ms → 475.1 ms ± 1.2 ms 1.03 ± 0.00 times faster netbeans-ignored 343.7 ms ± 1.0 ms → 347.8 ms ± 0.4 ms 0.99 ± 0.00 times faster netbeans-unknowns 484.3 ms ± 1.0 ms → 466.0 ms ± 1.2 ms 1.04 ± 0.00 times faster hg status -mard mozilla-clean 317.3 ms ± 0.6 ms → 422.5 ms ± 1.2 ms 0.75 ± 0.00 times faster mozilla-dirty 315.4 ms ± 0.6 ms → 417.7 ms ± 1.1 ms 0.76 ± 0.00 times faster mozilla-ignored 314.6 ms ± 0.6 ms → 417.4 ms ± 1.0 ms 0.75 ± 0.00 times faster mozilla-unknowns 312.9 ms ± 0.9 ms → 417.3 ms ± 1.6 ms 0.75 ± 0.00 times faster netbeans-clean 212.0 ms ± 0.6 ms → 283.6 ms ± 0.8 ms 0.75 ± 0.00 times faster netbeans-dirty 211.4 ms ± 1.0 ms → 283.4 ms ± 1.6 ms 0.75 ± 0.01 times faster netbeans-ignored 211.4 ms ± 0.9 ms → 283.9 ms ± 0.8 ms 0.74 ± 0.01 times faster netbeans-unknowns 211.1 ms ± 0.6 ms → 283.4 ms ± 1.0 ms 0.74 ± 0.00 times faster Parsing mozilla-clean 38.4ms → 177.6ms mozilla-dirty 38.8ms → 177.0ms mozilla-ignored 38.8ms → 178.0ms mozilla-unknowns 38.7ms → 176.9ms netbeans-clean 16.5ms → 97.3ms netbeans-dirty 16.5ms → 98.4ms netbeans-ignored 16.9ms → 97.4ms netbeans-unknowns 16.9ms → 96.3ms Benchmark 2: Python + C dirstatemap → Rust tree DirstateMap hg status mozilla-clean 1261.0 ms ± 3.6 ms → 461.1 ms ± 0.5 ms 2.73 ± 0.00 times faster mozilla-dirty 2293.4 ms ± 9.1 ms → 719.6 ms ± 3.6 ms 3.19 ± 0.01 times faster mozilla-ignored 1240.4 ms ± 2.3 ms → 457.7 ms ± 1.9 ms 2.71 ± 0.00 times faster mozilla-unknowns 2283.3 ms ± 9.0 ms → 719.7 ms ± 3.8 ms 3.17 ± 0.01 times faster netbeans-clean 879.7 ms ± 3.5 ms → 339.9 ms ± 0.5 ms 2.59 ± 0.00 times faster netbeans-dirty 1257.3 ms ± 4.7 ms → 474.6 ms ± 1.6 ms 2.65 ± 0.01 times faster netbeans-ignored 943.9 ms ± 1.9 ms → 347.3 ms ± 1.1 ms 2.72 ± 0.00 times faster netbeans-unknowns 1188.1 ms ± 5.0 ms → 465.2 ms ± 2.3 ms 2.55 ± 0.01 times faster hg status -mard mozilla-clean 903.2 ms ± 3.6 ms → 423.4 ms ± 2.2 ms 2.13 ± 0.01 times faster mozilla-dirty 884.6 ms ± 4.5 ms → 417.3 ms ± 1.4 ms 2.12 ± 0.01 times faster mozilla-ignored 881.9 ms ± 1.3 ms → 417.3 ms ± 0.8 ms 2.11 ± 0.00 times faster mozilla-unknowns 878.5 ms ± 1.9 ms → 416.4 ms ± 0.9 ms 2.11 ± 0.00 times faster netbeans-clean 434.9 ms ± 1.8 ms → 284.0 ms ± 0.8 ms 1.53 ± 0.01 times faster netbeans-dirty 434.1 ms ± 0.8 ms → 283.1 ms ± 0.8 ms 1.53 ± 0.00 times faster netbeans-ignored 431.7 ms ± 1.1 ms → 283.6 ms ± 1.8 ms 1.52 ± 0.01 times faster netbeans-unknowns 433.0 ms ± 1.3 ms → 283.5 ms ± 0.7 ms 1.53 ± 0.00 times faster Differential Revision: https://phab.mercurial-scm.org/D11516

Yuya Nishihara - - Load All Authors

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      /*

       * A command server client that uses Unix domain socket

       *

       * Copyright (c) 2011 Yuya Nishihara <yuya@tcha.org>

       *

       * This software may be used and distributed according to the terms of the

       * GNU General Public License version 2 or any later version.

       */

      #include <arpa/inet.h> /* for ntohl(), htonl() */

      #include <assert.h>

      #include <ctype.h>

      #include <errno.h>

      #include <fcntl.h>

      #include <signal.h>

      #include <stdint.h>

      #include <stdio.h>

      #include <stdlib.h>

      #include <string.h>

      #include <sys/socket.h>

      #include <sys/stat.h>

      #include <sys/un.h>

      #include <unistd.h>

      #include "hgclient.h"

      #include "procutil.h"

      #include "util.h"

      enum {

      	CAP_GETENCODING = 0x0001,

      	CAP_RUNCOMMAND = 0x0002,

      	/* cHg extension: */

      	CAP_ATTACHIO = 0x0100,

      	CAP_CHDIR = 0x0200,

      	CAP_SETENV = 0x0800,

      	CAP_SETUMASK2 = 0x1000,

      	CAP_VALIDATE = 0x2000,

      	CAP_SETPROCNAME = 0x4000,

      };

      typedef struct {

      	const char *name;

      	unsigned int flag;

      } cappair_t;

      static const cappair_t captable[] = {

          {"getencoding", CAP_GETENCODING},

          {"runcommand", CAP_RUNCOMMAND},

          {"attachio", CAP_ATTACHIO},

          {"chdir", CAP_CHDIR},

          {"setenv", CAP_SETENV},

          {"setumask2", CAP_SETUMASK2},

          {"validate", CAP_VALIDATE},

          {"setprocname", CAP_SETPROCNAME},

          {NULL, 0}, /* terminator */

      };

      typedef struct {

      	char ch;

      	char *data;

      	size_t maxdatasize;

      	size_t datasize;

      } context_t;

      struct hgclient_tag_ {

      	int sockfd;

      	pid_t pgid;

      	pid_t pid;

      	context_t ctx;

      	unsigned int capflags;

      };

      static const size_t defaultdatasize = 4096;

      static void attachio(hgclient_t *hgc);

      static void initcontext(context_t *ctx)

      {

      	ctx->ch = '\0';

      	ctx->data = malloc(defaultdatasize);

      	ctx->maxdatasize = (ctx->data) ? defaultdatasize : 0;

      	ctx->datasize = 0;

      	debugmsg("initialize context buffer with size %zu", ctx->maxdatasize);

      }

      static void enlargecontext(context_t *ctx, size_t newsize)

      {

      	if (newsize <= ctx->maxdatasize) {

      		return;

      	}

      	newsize = defaultdatasize *

      	          ((newsize + defaultdatasize - 1) / defaultdatasize);

      	ctx->data = reallocx(ctx->data, newsize);

      	ctx->maxdatasize = newsize;

      	debugmsg("enlarge context buffer to %zu", ctx->maxdatasize);

      }

      static void freecontext(context_t *ctx)

      {

      	debugmsg("free context buffer");

      	free(ctx->data);

      	ctx->data = NULL;

      	ctx->maxdatasize = 0;

      	ctx->datasize = 0;

      }

      /* Read channeled response from cmdserver */

      static void readchannel(hgclient_t *hgc)

      {

      	assert(hgc);

      	ssize_t rsize = recv(hgc->sockfd, &hgc->ctx.ch, sizeof(hgc->ctx.ch), 0);

      	if (rsize != sizeof(hgc->ctx.ch)) {

      		/* server would have exception and traceback would be printed */

      		debugmsg("failed to read channel");

      		exit(255);

      	}

      	uint32_t datasize_n;

      	rsize = recv(hgc->sockfd, &datasize_n, sizeof(datasize_n), 0);

      	if (rsize != sizeof(datasize_n)) {

      		abortmsg("failed to read data size");

      	}

      	/* datasize denotes the maximum size to write if input request */

      	hgc->ctx.datasize = ntohl(datasize_n);

      	enlargecontext(&hgc->ctx, hgc->ctx.datasize);

      	if (isupper(hgc->ctx.ch) && hgc->ctx.ch != 'S') {

      		return; /* assumes input request */

      	}

      	size_t cursize = 0;

      	while (cursize < hgc->ctx.datasize) {

      		rsize = recv(hgc->sockfd, hgc->ctx.data + cursize,

      		             hgc->ctx.datasize - cursize, 0);

      		if (rsize < 1) {

      			abortmsg("failed to read data block");

      		}

      		cursize += rsize;

      	}

      }

      static void sendall(int sockfd, const void *data, size_t datasize)

      {

      	const char *p = data;

      	const char *const endp = p + datasize;

      	while (p < endp) {

      		ssize_t r = send(sockfd, p, endp - p, 0);

      		if (r < 0) {

      			abortmsgerrno("cannot communicate");

      		}

      		p += r;

      	}

      }

      /* Write lengh-data block to cmdserver */

      static void writeblock(const hgclient_t *hgc)

      {

      	assert(hgc);

      	const uint32_t datasize_n = htonl(hgc->ctx.datasize);

      	sendall(hgc->sockfd, &datasize_n, sizeof(datasize_n));

      	sendall(hgc->sockfd, hgc->ctx.data, hgc->ctx.datasize);

      }

      static void writeblockrequest(const hgclient_t *hgc, const char *chcmd)

      {

      	debugmsg("request %s, block size %zu", chcmd, hgc->ctx.datasize);

      	char buf[strlen(chcmd) + 1];

      	memcpy(buf, chcmd, sizeof(buf) - 1);

      	buf[sizeof(buf) - 1] = '\n';

      	sendall(hgc->sockfd, buf, sizeof(buf));

      	writeblock(hgc);

      }

      /* Build '\0'-separated list of args. argsize < 0 denotes that args are

       * terminated by NULL. */

      static void packcmdargs(context_t *ctx, const char *const args[],

                              ssize_t argsize)

      {

      	ctx->datasize = 0;

      	const char *const *const end = (argsize >= 0) ? args + argsize : NULL;

      	for (const char *const *it = args; it != end && *it; ++it) {

      		const size_t n = strlen(*it) + 1; /* include '\0' */

      		enlargecontext(ctx, ctx->datasize + n);

      		memcpy(ctx->data + ctx->datasize, *it, n);

      		ctx->datasize += n;

      	}

      	if (ctx->datasize > 0) {

      		--ctx->datasize; /* strip last '\0' */

      	}

      }

      /* Extract '\0'-separated list of args to new buffer, terminated by NULL */

      static const char **unpackcmdargsnul(const context_t *ctx)

      {

      	const char **args = NULL;

      	size_t nargs = 0, maxnargs = 0;

      	const char *s = ctx->data;

      	const char *e = ctx->data + ctx->datasize;

      	for (;;) {

      		if (nargs + 1 >= maxnargs) { /* including last NULL */

      			maxnargs += 256;

      			args = reallocx(args, maxnargs * sizeof(args[0]));

      		}

      		args[nargs] = s;

      		nargs++;

      		s = memchr(s, '\0', e - s);

      		if (!s) {

      			break;

      		}

      		s++;

      	}

      	args[nargs] = NULL;

      	return args;

      }

      static void handlereadrequest(hgclient_t *hgc)

      {

      	context_t *ctx = &hgc->ctx;

      	size_t r = fread(ctx->data, sizeof(ctx->data[0]), ctx->datasize, stdin);

      	ctx->datasize = r;

      	writeblock(hgc);

      }

      /* Read single-line */

      static void handlereadlinerequest(hgclient_t *hgc)

      {

      	context_t *ctx = &hgc->ctx;

      	if (!fgets(ctx->data, ctx->datasize, stdin)) {

      		ctx->data[0] = '\0';

      	}

      	ctx->datasize = strlen(ctx->data);

      	writeblock(hgc);

      }

      /* Execute the requested command and write exit code */

      static void handlesystemrequest(hgclient_t *hgc)

      {

      	context_t *ctx = &hgc->ctx;

      	enlargecontext(ctx, ctx->datasize + 1);

      	ctx->data[ctx->datasize] = '\0'; /* terminate last string */

      	const char **args = unpackcmdargsnul(ctx);

      	if (!args[0] || !args[1] || !args[2]) {

      		abortmsg("missing type or command or cwd in system request");

      	}

      	if (strcmp(args[0], "system") == 0) {

      		debugmsg("run '%s' at '%s'", args[1], args[2]);

      		int32_t r = runshellcmd(args[1], args + 3, args[2]);

      		free(args);

      		uint32_t r_n = htonl(r);

      		memcpy(ctx->data, &r_n, sizeof(r_n));

      		ctx->datasize = sizeof(r_n);

      		writeblock(hgc);

      	} else if (strcmp(args[0], "pager") == 0) {

      		setuppager(args[1], args + 3);

      		if (hgc->capflags & CAP_ATTACHIO) {

      			attachio(hgc);

      		}

      		/* unblock the server */

      		static const char emptycmd[] = "\n";

      		sendall(hgc->sockfd, emptycmd, sizeof(emptycmd) - 1);

      	} else {

      		abortmsg("unknown type in system request: %s", args[0]);

      	}

      }

      /* Read response of command execution until receiving 'r'-esult */

      static void handleresponse(hgclient_t *hgc)

      {

      	for (;;) {

      		readchannel(hgc);

      		context_t *ctx = &hgc->ctx;

      		debugmsg("response read from channel %c, size %zu", ctx->ch,

      		         ctx->datasize);

      		switch (ctx->ch) {

      		case 'o':

      			fwrite(ctx->data, sizeof(ctx->data[0]), ctx->datasize,

      			       stdout);

      			break;

      		case 'e':

      			fwrite(ctx->data, sizeof(ctx->data[0]), ctx->datasize,

      			       stderr);

      			break;

      		case 'd':

      			/* assumes last char is '\n' */

      			ctx->data[ctx->datasize - 1] = '\0';

      			debugmsg("server: %s", ctx->data);

      			break;

      		case 'r':

      			return;

      		case 'I':

      			handlereadrequest(hgc);

      			break;

      		case 'L':

      			handlereadlinerequest(hgc);

      			break;

      		case 'S':

      			handlesystemrequest(hgc);

      			break;

      		default:

      			if (isupper(ctx->ch)) {

      				abortmsg("cannot handle response (ch = %c)",

      				         ctx->ch);

      			}

      		}

      	}

      }

      static unsigned int parsecapabilities(const char *s, const char *e)

      {

      	unsigned int flags = 0;

      	while (s < e) {

      		const char *t = strchr(s, ' ');

      		if (!t || t > e) {

      			t = e;

      		}

      		const cappair_t *cap;

      		for (cap = captable; cap->flag; ++cap) {

      			size_t n = t - s;

      			if (strncmp(s, cap->name, n) == 0 &&

      			    strlen(cap->name) == n) {

      				flags |= cap->flag;

      				break;

      			}

      		}

      		s = t + 1;

      	}

      	return flags;

      }

      static void readhello(hgclient_t *hgc)

      {

      	readchannel(hgc);

      	context_t *ctx = &hgc->ctx;

      	if (ctx->ch != 'o') {

      		char ch = ctx->ch;

      		if (ch == 'e') {

      			/* write early error and will exit */

      			fwrite(ctx->data, sizeof(ctx->data[0]), ctx->datasize,

      			       stderr);

      			handleresponse(hgc);

      		}

      		abortmsg("unexpected channel of hello message (ch = %c)", ch);

      	}

      	enlargecontext(ctx, ctx->datasize + 1);

      	ctx->data[ctx->datasize] = '\0';

      	debugmsg("hello received: %s (size = %zu)", ctx->data, ctx->datasize);

      	const char *s = ctx->data;

      	const char *const dataend = ctx->data + ctx->datasize;

      	while (s < dataend) {

      		const char *t = strchr(s, ':');

      		if (!t || t[1] != ' ') {

      			break;

      		}

      		const char *u = strchr(t + 2, '\n');

      		if (!u) {

      			u = dataend;

      		}

      		if (strncmp(s, "capabilities:", t - s + 1) == 0) {

      			hgc->capflags = parsecapabilities(t + 2, u);

      		} else if (strncmp(s, "pgid:", t - s + 1) == 0) {

      			hgc->pgid = strtol(t + 2, NULL, 10);

      		} else if (strncmp(s, "pid:", t - s + 1) == 0) {

      			hgc->pid = strtol(t + 2, NULL, 10);

      		}

      		s = u + 1;

      	}

      	debugmsg("capflags=0x%04x, pid=%d", hgc->capflags, hgc->pid);

      }

      static void updateprocname(hgclient_t *hgc)

      {

      	int r = snprintf(hgc->ctx.data, hgc->ctx.maxdatasize, "chg[worker/%d]",

      	                 (int)getpid());

      	if (r < 0 || (size_t)r >= hgc->ctx.maxdatasize) {

      		abortmsg("insufficient buffer to write procname (r = %d)", r);

      	}

      	hgc->ctx.datasize = (size_t)r;

      	writeblockrequest(hgc, "setprocname");

      }

      static void attachio(hgclient_t *hgc)

      {

      	debugmsg("request attachio");

      	static const char chcmd[] = "attachio\n";

      	sendall(hgc->sockfd, chcmd, sizeof(chcmd) - 1);

      	readchannel(hgc);

      	context_t *ctx = &hgc->ctx;

      	if (ctx->ch != 'I') {

      		abortmsg("unexpected response for attachio (ch = %c)", ctx->ch);

      	}

      	static const int fds[3] = {STDIN_FILENO, STDOUT_FILENO, STDERR_FILENO};

      	struct msghdr msgh;

      	memset(&msgh, 0, sizeof(msgh));

      	struct iovec iov = {ctx->data, ctx->datasize}; /* dummy payload */

      	msgh.msg_iov = &iov;

      	msgh.msg_iovlen = 1;

      	char fdbuf[CMSG_SPACE(sizeof(fds))];

      	msgh.msg_control = fdbuf;

      	msgh.msg_controllen = sizeof(fdbuf);

      	struct cmsghdr *cmsg = CMSG_FIRSTHDR(&msgh);

      	cmsg->cmsg_level = SOL_SOCKET;

      	cmsg->cmsg_type = SCM_RIGHTS;

      	cmsg->cmsg_len = CMSG_LEN(sizeof(fds));

      	memcpy(CMSG_DATA(cmsg), fds, sizeof(fds));

      	msgh.msg_controllen = cmsg->cmsg_len;

      	ssize_t r = sendmsg(hgc->sockfd, &msgh, 0);

      	if (r < 0) {

      		abortmsgerrno("sendmsg failed");

      	}

      	handleresponse(hgc);

      	int32_t n;

      	if (ctx->datasize != sizeof(n)) {

      		abortmsg("unexpected size of attachio result");

      	}

      	memcpy(&n, ctx->data, sizeof(n));

      	n = ntohl(n);

      	if (n != sizeof(fds) / sizeof(fds[0])) {

      		abortmsg("failed to send fds (n = %d)", n);

      	}

      }

      static void chdirtocwd(hgclient_t *hgc)

      {

      	if (!getcwd(hgc->ctx.data, hgc->ctx.maxdatasize)) {

      		abortmsgerrno("failed to getcwd");

      	}

      	hgc->ctx.datasize = strlen(hgc->ctx.data);

      	writeblockrequest(hgc, "chdir");

      }

      static void forwardumask(hgclient_t *hgc)

      {

      	mode_t mask = umask(0);

      	umask(mask);

      	uint32_t data = htonl(mask);

      	enlargecontext(&hgc->ctx, sizeof(data));

      	memcpy(hgc->ctx.data, &data, sizeof(data));

      	hgc->ctx.datasize = sizeof(data);

      	writeblockrequest(hgc, "setumask2");

      }

      /*!

       * Open connection to per-user cmdserver

       *

       * If no background server running, returns NULL.

       */

      hgclient_t *hgc_open(const char *sockname)

      {

      	int fd = socket(AF_UNIX, SOCK_STREAM, 0);

      	if (fd < 0) {

      		abortmsgerrno("cannot create socket");

      	}

      	/* don't keep fd on fork(), so that it can be closed when the parent

      	 * process get terminated. */

      	fsetcloexec(fd);

      	struct sockaddr_un addr;

      	addr.sun_family = AF_UNIX;

      	/* use chdir to workaround small sizeof(sun_path) */

      	int bakfd = -1;

      	const char *basename = sockname;

      	{

      		const char *split = strrchr(sockname, '/');

      		if (split && split != sockname) {

      			if (split[1] == '\0') {

      				abortmsg("sockname cannot end with a slash");

      			}

      			size_t len = split - sockname;

      			char sockdir[len + 1];

      			memcpy(sockdir, sockname, len);

      			sockdir[len] = '\0';

      			bakfd = open(".", O_DIRECTORY);

      			if (bakfd == -1) {

      				abortmsgerrno("cannot open cwd");

      			}

      			int r = chdir(sockdir);

      			if (r != 0) {

      				abortmsgerrno("cannot chdir %s", sockdir);

      			}

      			basename = split + 1;

      		}

      	}

      	if (strlen(basename) >= sizeof(addr.sun_path)) {

      		abortmsg("sockname is too long: %s", basename);

      	}

      	strncpy(addr.sun_path, basename, sizeof(addr.sun_path));

      	addr.sun_path[sizeof(addr.sun_path) - 1] = '\0';

      	/* real connect */

      	int r = connect(fd, (struct sockaddr *)&addr, sizeof(addr));

      	if (r < 0) {

      		if (errno != ENOENT && errno != ECONNREFUSED) {

      			abortmsgerrno("cannot connect to %s", sockname);

      		}

      	}

      	if (bakfd != -1) {

      		fchdirx(bakfd);

      		close(bakfd);

      	}

      	if (r < 0) {

      		close(fd);

      		return NULL;

      	}

      	debugmsg("connected to %s", addr.sun_path);

      	hgclient_t *hgc = mallocx(sizeof(hgclient_t));

      	memset(hgc, 0, sizeof(*hgc));

      	hgc->sockfd = fd;

      	initcontext(&hgc->ctx);

      	readhello(hgc);

      	if (!(hgc->capflags & CAP_RUNCOMMAND)) {

      		abortmsg("insufficient capability: runcommand");

      	}

      	if (hgc->capflags & CAP_SETPROCNAME) {

      		updateprocname(hgc);

      	}

      	if (hgc->capflags & CAP_ATTACHIO) {

      		attachio(hgc);

      	}

      	if (hgc->capflags & CAP_CHDIR) {

      		chdirtocwd(hgc);

      	}

      	if (hgc->capflags & CAP_SETUMASK2) {

      		forwardumask(hgc);

      	}

      	return hgc;

      }

      /*!

       * Close connection and free allocated memory

       */

      void hgc_close(hgclient_t *hgc)

      {

      	assert(hgc);

      	freecontext(&hgc->ctx);

      	close(hgc->sockfd);

      	free(hgc);

      }

      pid_t hgc_peerpgid(const hgclient_t *hgc)

      {

      	assert(hgc);

      	return hgc->pgid;

      }

      pid_t hgc_peerpid(const hgclient_t *hgc)

      {

      	assert(hgc);

      	return hgc->pid;

      }

      /*!

       * Send command line arguments to let the server load the repo config and check

       * whether it can process our request directly or not.

       * Make sure hgc_setenv is called before calling this.

       *

       * @return - NULL, the server believes it can handle our request, or does not

       *           support "validate" command.

       *         - a list of strings, the server probably cannot handle our request

       *           and it sent instructions telling us what to do next. See

       *           chgserver.py for possible instruction formats.

       *           the list should be freed by the caller.

       *           the last string is guaranteed to be NULL.

       */

      const char **hgc_validate(hgclient_t *hgc, const char *const args[],

                                size_t argsize)

      {

      	assert(hgc);

      	if (!(hgc->capflags & CAP_VALIDATE)) {

      		return NULL;

      	}

      	packcmdargs(&hgc->ctx, args, argsize);

      	writeblockrequest(hgc, "validate");

      	handleresponse(hgc);

      	/* the server returns '\0' if it can handle our request */

      	if (hgc->ctx.datasize <= 1) {

      		return NULL;

      	}

      	/* make sure the buffer is '\0' terminated */

      	enlargecontext(&hgc->ctx, hgc->ctx.datasize + 1);

      	hgc->ctx.data[hgc->ctx.datasize] = '\0';

      	return unpackcmdargsnul(&hgc->ctx);

      }

      /*!

       * Execute the specified Mercurial command

       *

       * @return result code

       */

      int hgc_runcommand(hgclient_t *hgc, const char *const args[], size_t argsize)

      {

      	assert(hgc);

      	packcmdargs(&hgc->ctx, args, argsize);

      	writeblockrequest(hgc, "runcommand");

      	handleresponse(hgc);

      	int32_t exitcode_n;

      	if (hgc->ctx.datasize != sizeof(exitcode_n)) {

      		abortmsg("unexpected size of exitcode");

      	}

      	memcpy(&exitcode_n, hgc->ctx.data, sizeof(exitcode_n));

      	return ntohl(exitcode_n);

      }

      /*!

       * (Re-)send client's stdio channels so that the server can access to tty

       */

      void hgc_attachio(hgclient_t *hgc)

      {

      	assert(hgc);

      	if (!(hgc->capflags & CAP_ATTACHIO)) {

      		return;

      	}

      	attachio(hgc);

      }

      /*!

       * Update server's environment variables

       *

       * @param envp  list of environment variables in "NAME=VALUE" format,

       *              terminated by NULL.

       */

      void hgc_setenv(hgclient_t *hgc, const char *const envp[])

      {

      	assert(hgc && envp);

      	if (!(hgc->capflags & CAP_SETENV)) {

      		return;

      	}

      	packcmdargs(&hgc->ctx, envp, /*argsize*/ -1);

      	writeblockrequest(hgc, "setenv");

      }

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				/*
				* A command server client that uses Unix domain socket
				*
				* Copyright (c) 2011 Yuya Nishihara <yuya@tcha.org>
				*
				* This software may be used and distributed according to the terms of the
				* GNU General Public License version 2 or any later version.
				*/

				#include <arpa/inet.h> /* for ntohl(), htonl() */
				#include <assert.h>
				#include <ctype.h>
				#include <errno.h>
				#include <fcntl.h>
				#include <signal.h>
				#include <stdint.h>
				#include <stdio.h>
				#include <stdlib.h>
				#include <string.h>
				#include <sys/socket.h>
				#include <sys/stat.h>
				#include <sys/un.h>
				#include <unistd.h>

				#include "hgclient.h"
				#include "procutil.h"
				#include "util.h"

				enum {
				CAP_GETENCODING = 0x0001,
				CAP_RUNCOMMAND = 0x0002,
				/* cHg extension: */
				CAP_ATTACHIO = 0x0100,
				CAP_CHDIR = 0x0200,
				CAP_SETENV = 0x0800,
				CAP_SETUMASK2 = 0x1000,
				CAP_VALIDATE = 0x2000,
				CAP_SETPROCNAME = 0x4000,
				};

				typedef struct {
				const char *name;
				unsigned int flag;
				} cappair_t;

				static const cappair_t captable[] = {
				{"getencoding", CAP_GETENCODING},
				{"runcommand", CAP_RUNCOMMAND},
				{"attachio", CAP_ATTACHIO},
				{"chdir", CAP_CHDIR},
				{"setenv", CAP_SETENV},
				{"setumask2", CAP_SETUMASK2},
				{"validate", CAP_VALIDATE},
				{"setprocname", CAP_SETPROCNAME},
				{NULL, 0}, /* terminator */
				};

				typedef struct {
				char ch;
				char *data;
				size_t maxdatasize;
				size_t datasize;
				} context_t;

				struct hgclient_tag_ {
				int sockfd;
				pid_t pgid;
				pid_t pid;
				context_t ctx;
				unsigned int capflags;
				};

				static const size_t defaultdatasize = 4096;

				static void attachio(hgclient_t *hgc);

				static void initcontext(context_t *ctx)
				{
				ctx->ch = '\0';
				ctx->data = malloc(defaultdatasize);
				ctx->maxdatasize = (ctx->data) ? defaultdatasize : 0;
				ctx->datasize = 0;
				debugmsg("initialize context buffer with size %zu", ctx->maxdatasize);
				}

				static void enlargecontext(context_t *ctx, size_t newsize)
				{
				if (newsize <= ctx->maxdatasize) {
				return;
				}

				newsize = defaultdatasize *
				((newsize + defaultdatasize - 1) / defaultdatasize);
				ctx->data = reallocx(ctx->data, newsize);
				ctx->maxdatasize = newsize;
				debugmsg("enlarge context buffer to %zu", ctx->maxdatasize);
				}

				static void freecontext(context_t *ctx)
				{
				debugmsg("free context buffer");
				free(ctx->data);
				ctx->data = NULL;
				ctx->maxdatasize = 0;
				ctx->datasize = 0;
				}

				/* Read channeled response from cmdserver */
				static void readchannel(hgclient_t *hgc)
				{
				assert(hgc);

				ssize_t rsize = recv(hgc->sockfd, &hgc->ctx.ch, sizeof(hgc->ctx.ch), 0);
				if (rsize != sizeof(hgc->ctx.ch)) {
				/* server would have exception and traceback would be printed */
				debugmsg("failed to read channel");
				exit(255);
				}

				uint32_t datasize_n;
				rsize = recv(hgc->sockfd, &datasize_n, sizeof(datasize_n), 0);
				if (rsize != sizeof(datasize_n)) {
				abortmsg("failed to read data size");
				}

				/* datasize denotes the maximum size to write if input request */
				hgc->ctx.datasize = ntohl(datasize_n);
				enlargecontext(&hgc->ctx, hgc->ctx.datasize);

				if (isupper(hgc->ctx.ch) && hgc->ctx.ch != 'S') {
				return; /* assumes input request */
				}

				size_t cursize = 0;
				while (cursize < hgc->ctx.datasize) {
				rsize = recv(hgc->sockfd, hgc->ctx.data + cursize,
				hgc->ctx.datasize - cursize, 0);
				if (rsize < 1) {
				abortmsg("failed to read data block");
				}
				cursize += rsize;
				}
				}

				static void sendall(int sockfd, const void *data, size_t datasize)
				{
				const char *p = data;
				const char *const endp = p + datasize;
				while (p < endp) {
				ssize_t r = send(sockfd, p, endp - p, 0);
				if (r < 0) {
				abortmsgerrno("cannot communicate");
				}
				p += r;
				}
				}

				/* Write lengh-data block to cmdserver */
				static void writeblock(const hgclient_t *hgc)
				{
				assert(hgc);

				const uint32_t datasize_n = htonl(hgc->ctx.datasize);
				sendall(hgc->sockfd, &datasize_n, sizeof(datasize_n));

				sendall(hgc->sockfd, hgc->ctx.data, hgc->ctx.datasize);
				}

				static void writeblockrequest(const hgclient_t hgc, const char chcmd)
				{
				debugmsg("request %s, block size %zu", chcmd, hgc->ctx.datasize);

				char buf[strlen(chcmd) + 1];
				memcpy(buf, chcmd, sizeof(buf) - 1);
				buf[sizeof(buf) - 1] = '\n';
				sendall(hgc->sockfd, buf, sizeof(buf));

				writeblock(hgc);
				}

				/* Build '\0'-separated list of args. argsize < 0 denotes that args are
				* terminated by NULL. */
				static void packcmdargs(context_t ctx, const char const args[],
				ssize_t argsize)
				{
				ctx->datasize = 0;
				const char const const end = (argsize >= 0) ? args + argsize : NULL;
				for (const char const it = args; it != end && *it; ++it) {
				const size_t n = strlen(it) + 1; / include '\0' */
				enlargecontext(ctx, ctx->datasize + n);
				memcpy(ctx->data + ctx->datasize, *it, n);
				ctx->datasize += n;
				}

				if (ctx->datasize > 0) {
				--ctx->datasize; /* strip last '\0' */
				}
				}

				/* Extract '\0'-separated list of args to new buffer, terminated by NULL */
				static const char *unpackcmdargsnul(const context_t ctx)
				{
				const char **args = NULL;
				size_t nargs = 0, maxnargs = 0;
				const char *s = ctx->data;
				const char *e = ctx->data + ctx->datasize;
				for (;;) {
				if (nargs + 1 >= maxnargs) { /* including last NULL */
				maxnargs += 256;
				args = reallocx(args, maxnargs * sizeof(args[0]));
				}
				args[nargs] = s;
				nargs++;
				s = memchr(s, '\0', e - s);
				if (!s) {
				break;
				}
				s++;
				}
				args[nargs] = NULL;
				return args;
				}

				static void handlereadrequest(hgclient_t *hgc)
				{
				context_t *ctx = &hgc->ctx;
				size_t r = fread(ctx->data, sizeof(ctx->data[0]), ctx->datasize, stdin);
				ctx->datasize = r;
				writeblock(hgc);
				}

				/* Read single-line */
				static void handlereadlinerequest(hgclient_t *hgc)
				{
				context_t *ctx = &hgc->ctx;
				if (!fgets(ctx->data, ctx->datasize, stdin)) {
				ctx->data[0] = '\0';
				}
				ctx->datasize = strlen(ctx->data);
				writeblock(hgc);
				}

				/* Execute the requested command and write exit code */
				static void handlesystemrequest(hgclient_t *hgc)
				{
				context_t *ctx = &hgc->ctx;
				enlargecontext(ctx, ctx->datasize + 1);
				ctx->data[ctx->datasize] = '\0'; /* terminate last string */

				const char **args = unpackcmdargsnul(ctx);
				if (!args[0] \|\| !args[1] \|\| !args[2]) {
				abortmsg("missing type or command or cwd in system request");
				}
				if (strcmp(args[0], "system") == 0) {
				debugmsg("run '%s' at '%s'", args[1], args[2]);
				int32_t r = runshellcmd(args[1], args + 3, args[2]);
				free(args);

				uint32_t r_n = htonl(r);
				memcpy(ctx->data, &r_n, sizeof(r_n));
				ctx->datasize = sizeof(r_n);
				writeblock(hgc);
				} else if (strcmp(args[0], "pager") == 0) {
				setuppager(args[1], args + 3);
				if (hgc->capflags & CAP_ATTACHIO) {
				attachio(hgc);
				}
				/* unblock the server */
				static const char emptycmd[] = "\n";
				sendall(hgc->sockfd, emptycmd, sizeof(emptycmd) - 1);
				} else {
				abortmsg("unknown type in system request: %s", args[0]);
				}
				}

				/* Read response of command execution until receiving 'r'-esult */
				static void handleresponse(hgclient_t *hgc)
				{
				for (;;) {
				readchannel(hgc);
				context_t *ctx = &hgc->ctx;
				debugmsg("response read from channel %c, size %zu", ctx->ch,
				ctx->datasize);
				switch (ctx->ch) {
				case 'o':
				fwrite(ctx->data, sizeof(ctx->data[0]), ctx->datasize,
				stdout);
				break;
				case 'e':
				fwrite(ctx->data, sizeof(ctx->data[0]), ctx->datasize,
				stderr);
				break;
				case 'd':
				/* assumes last char is '\n' */
				ctx->data[ctx->datasize - 1] = '\0';
				debugmsg("server: %s", ctx->data);
				break;
				case 'r':
				return;
				case 'I':
				handlereadrequest(hgc);
				break;
				case 'L':
				handlereadlinerequest(hgc);
				break;
				case 'S':
				handlesystemrequest(hgc);
				break;
				default:
				if (isupper(ctx->ch)) {
				abortmsg("cannot handle response (ch = %c)",
				ctx->ch);
				}
				}
				}
				}

				static unsigned int parsecapabilities(const char s, const char e)
				{
				unsigned int flags = 0;
				while (s < e) {
				const char *t = strchr(s, ' ');
				if (!t \|\| t > e) {
				t = e;
				}
				const cappair_t *cap;
				for (cap = captable; cap->flag; ++cap) {
				size_t n = t - s;
				if (strncmp(s, cap->name, n) == 0 &&
				strlen(cap->name) == n) {
				flags \|= cap->flag;
				break;
				}
				}
				s = t + 1;
				}
				return flags;
				}

				static void readhello(hgclient_t *hgc)
				{
				readchannel(hgc);
				context_t *ctx = &hgc->ctx;
				if (ctx->ch != 'o') {
				char ch = ctx->ch;
				if (ch == 'e') {
				/* write early error and will exit */
				fwrite(ctx->data, sizeof(ctx->data[0]), ctx->datasize,
				stderr);
				handleresponse(hgc);
				}
				abortmsg("unexpected channel of hello message (ch = %c)", ch);
				}
				enlargecontext(ctx, ctx->datasize + 1);
				ctx->data[ctx->datasize] = '\0';
				debugmsg("hello received: %s (size = %zu)", ctx->data, ctx->datasize);

				const char *s = ctx->data;
				const char *const dataend = ctx->data + ctx->datasize;
				while (s < dataend) {
				const char *t = strchr(s, ':');
				if (!t \|\| t[1] != ' ') {
				break;
				}
				const char *u = strchr(t + 2, '\n');
				if (!u) {
				u = dataend;
				}
				if (strncmp(s, "capabilities:", t - s + 1) == 0) {
				hgc->capflags = parsecapabilities(t + 2, u);
				} else if (strncmp(s, "pgid:", t - s + 1) == 0) {
				hgc->pgid = strtol(t + 2, NULL, 10);
				} else if (strncmp(s, "pid:", t - s + 1) == 0) {
				hgc->pid = strtol(t + 2, NULL, 10);
				}
				s = u + 1;
				}
				debugmsg("capflags=0x%04x, pid=%d", hgc->capflags, hgc->pid);
				}

				static void updateprocname(hgclient_t *hgc)
				{
				int r = snprintf(hgc->ctx.data, hgc->ctx.maxdatasize, "chg[worker/%d]",
				(int)getpid());
				if (r < 0 \|\| (size_t)r >= hgc->ctx.maxdatasize) {
				abortmsg("insufficient buffer to write procname (r = %d)", r);
				}
				hgc->ctx.datasize = (size_t)r;
				writeblockrequest(hgc, "setprocname");
				}

				static void attachio(hgclient_t *hgc)
				{
				debugmsg("request attachio");
				static const char chcmd[] = "attachio\n";
				sendall(hgc->sockfd, chcmd, sizeof(chcmd) - 1);
				readchannel(hgc);
				context_t *ctx = &hgc->ctx;
				if (ctx->ch != 'I') {
				abortmsg("unexpected response for attachio (ch = %c)", ctx->ch);
				}

				static const int fds[3] = {STDIN_FILENO, STDOUT_FILENO, STDERR_FILENO};
				struct msghdr msgh;
				memset(&msgh, 0, sizeof(msgh));
				struct iovec iov = {ctx->data, ctx->datasize}; /* dummy payload */
				msgh.msg_iov = &iov;
				msgh.msg_iovlen = 1;
				char fdbuf[CMSG_SPACE(sizeof(fds))];
				msgh.msg_control = fdbuf;
				msgh.msg_controllen = sizeof(fdbuf);
				struct cmsghdr *cmsg = CMSG_FIRSTHDR(&msgh);
				cmsg->cmsg_level = SOL_SOCKET;
				cmsg->cmsg_type = SCM_RIGHTS;
				cmsg->cmsg_len = CMSG_LEN(sizeof(fds));
				memcpy(CMSG_DATA(cmsg), fds, sizeof(fds));
				msgh.msg_controllen = cmsg->cmsg_len;
				ssize_t r = sendmsg(hgc->sockfd, &msgh, 0);
				if (r < 0) {
				abortmsgerrno("sendmsg failed");
				}

				handleresponse(hgc);
				int32_t n;
				if (ctx->datasize != sizeof(n)) {
				abortmsg("unexpected size of attachio result");
				}
				memcpy(&n, ctx->data, sizeof(n));
				n = ntohl(n);
				if (n != sizeof(fds) / sizeof(fds[0])) {
				abortmsg("failed to send fds (n = %d)", n);
				}
				}

				static void chdirtocwd(hgclient_t *hgc)
				{
				if (!getcwd(hgc->ctx.data, hgc->ctx.maxdatasize)) {
				abortmsgerrno("failed to getcwd");
				}
				hgc->ctx.datasize = strlen(hgc->ctx.data);
				writeblockrequest(hgc, "chdir");
				}

				static void forwardumask(hgclient_t *hgc)
				{
				mode_t mask = umask(0);
				umask(mask);

				uint32_t data = htonl(mask);
				enlargecontext(&hgc->ctx, sizeof(data));
				memcpy(hgc->ctx.data, &data, sizeof(data));
				hgc->ctx.datasize = sizeof(data);
				writeblockrequest(hgc, "setumask2");
				}

				/*!
				* Open connection to per-user cmdserver
				*
				* If no background server running, returns NULL.
				*/
				hgclient_t hgc_open(const char sockname)
				{
				int fd = socket(AF_UNIX, SOCK_STREAM, 0);
				if (fd < 0) {
				abortmsgerrno("cannot create socket");
				}

				/* don't keep fd on fork(), so that it can be closed when the parent
				* process get terminated. */
				fsetcloexec(fd);

				struct sockaddr_un addr;
				addr.sun_family = AF_UNIX;

				/* use chdir to workaround small sizeof(sun_path) */
				int bakfd = -1;
				const char *basename = sockname;
				{
				const char *split = strrchr(sockname, '/');
				if (split && split != sockname) {
				if (split[1] == '\0') {
				abortmsg("sockname cannot end with a slash");
				}
				size_t len = split - sockname;
				char sockdir[len + 1];
				memcpy(sockdir, sockname, len);
				sockdir[len] = '\0';

				bakfd = open(".", O_DIRECTORY);
				if (bakfd == -1) {
				abortmsgerrno("cannot open cwd");
				}

				int r = chdir(sockdir);
				if (r != 0) {
				abortmsgerrno("cannot chdir %s", sockdir);
				}

				basename = split + 1;
				}
				}
				if (strlen(basename) >= sizeof(addr.sun_path)) {
				abortmsg("sockname is too long: %s", basename);
				}
				strncpy(addr.sun_path, basename, sizeof(addr.sun_path));
				addr.sun_path[sizeof(addr.sun_path) - 1] = '\0';

				/* real connect */
				int r = connect(fd, (struct sockaddr *)&addr, sizeof(addr));
				if (r < 0) {
				if (errno != ENOENT && errno != ECONNREFUSED) {
				abortmsgerrno("cannot connect to %s", sockname);
				}
				}
				if (bakfd != -1) {
				fchdirx(bakfd);
				close(bakfd);
				}
				if (r < 0) {
				close(fd);
				return NULL;
				}
				debugmsg("connected to %s", addr.sun_path);

				hgclient_t *hgc = mallocx(sizeof(hgclient_t));
				memset(hgc, 0, sizeof(*hgc));
				hgc->sockfd = fd;
				initcontext(&hgc->ctx);

				readhello(hgc);
				if (!(hgc->capflags & CAP_RUNCOMMAND)) {
				abortmsg("insufficient capability: runcommand");
				}
				if (hgc->capflags & CAP_SETPROCNAME) {
				updateprocname(hgc);
				}
				if (hgc->capflags & CAP_ATTACHIO) {
				attachio(hgc);
				}
				if (hgc->capflags & CAP_CHDIR) {
				chdirtocwd(hgc);
				}
				if (hgc->capflags & CAP_SETUMASK2) {
				forwardumask(hgc);
				}

				return hgc;
				}

				/*!
				* Close connection and free allocated memory
				*/
				void hgc_close(hgclient_t *hgc)
				{
				assert(hgc);
				freecontext(&hgc->ctx);
				close(hgc->sockfd);
				free(hgc);
				}

				pid_t hgc_peerpgid(const hgclient_t *hgc)
				{
				assert(hgc);
				return hgc->pgid;
				}

				pid_t hgc_peerpid(const hgclient_t *hgc)
				{
				assert(hgc);
				return hgc->pid;
				}

				/*!
				* Send command line arguments to let the server load the repo config and check
				* whether it can process our request directly or not.
				* Make sure hgc_setenv is called before calling this.
				*
				* @return - NULL, the server believes it can handle our request, or does not
				* support "validate" command.
				* - a list of strings, the server probably cannot handle our request
				* and it sent instructions telling us what to do next. See
				* chgserver.py for possible instruction formats.
				* the list should be freed by the caller.
				* the last string is guaranteed to be NULL.
				*/
				const char *hgc_validate(hgclient_t hgc, const char *const args[],
				size_t argsize)
				{
				assert(hgc);
				if (!(hgc->capflags & CAP_VALIDATE)) {
				return NULL;
				}

				packcmdargs(&hgc->ctx, args, argsize);
				writeblockrequest(hgc, "validate");
				handleresponse(hgc);

				/* the server returns '\0' if it can handle our request */
				if (hgc->ctx.datasize <= 1) {
				return NULL;
				}

				/* make sure the buffer is '\0' terminated */
				enlargecontext(&hgc->ctx, hgc->ctx.datasize + 1);
				hgc->ctx.data[hgc->ctx.datasize] = '\0';
				return unpackcmdargsnul(&hgc->ctx);
				}

				/*!
				* Execute the specified Mercurial command
				*
				* @return result code
				*/
				int hgc_runcommand(hgclient_t hgc, const char const args[], size_t argsize)
				{
				assert(hgc);

				packcmdargs(&hgc->ctx, args, argsize);
				writeblockrequest(hgc, "runcommand");
				handleresponse(hgc);

				int32_t exitcode_n;
				if (hgc->ctx.datasize != sizeof(exitcode_n)) {
				abortmsg("unexpected size of exitcode");
				}
				memcpy(&exitcode_n, hgc->ctx.data, sizeof(exitcode_n));
				return ntohl(exitcode_n);
				}

				/*!
				* (Re-)send client's stdio channels so that the server can access to tty
				*/
				void hgc_attachio(hgclient_t *hgc)
				{
				assert(hgc);
				if (!(hgc->capflags & CAP_ATTACHIO)) {
				return;
				}
				attachio(hgc);
				}

				/*!
				* Update server's environment variables
				*
				* @param envp list of environment variables in "NAME=VALUE" format,
				* terminated by NULL.
				*/
				void hgc_setenv(hgclient_t hgc, const char const envp[])
				{
				assert(hgc && envp);
				if (!(hgc->capflags & CAP_SETENV)) {
				return;
				}
				packcmdargs(&hgc->ctx, envp, /argsize/ -1);
				writeblockrequest(hgc, "setenv");
				}