Mercurial > hg
view contrib/chg/hgclient.c @ 45064:41b32cbc53f8
commitctx: document _filecommit input and output
This is the beginning of a larger refactoring/cleanup of the commitctx code to
clarify and augment the logic gathering metadata useful for copy tracing. The
current code is a tad too long and entangled to make such update easy. We start
with easy and small cleanup.
Differential Revision: https://phab.mercurial-scm.org/D8699
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
---|---|
date | Mon, 06 Jul 2020 18:52:19 +0200 |
parents | 763b45bc4483 |
children | 0c320e6032f1 |
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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"); }