/* * git-imap-send - drops patches into an imap Drafts folder * derived from isync/mbsync - mailbox synchronizer * * Copyright (C) 2000-2002 Michael R. Elkins * Copyright (C) 2002-2004 Oswald Buddenhagen * Copyright (C) 2004 Theodore Y. Ts'o * Copyright (C) 2006 Mike McCormack * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "cache.h" #include "exec_cmd.h" #ifdef NO_OPENSSL typedef void *SSL; #endif struct store_conf { char *name; const char *path; /* should this be here? its interpretation is driver-specific */ char *map_inbox; char *trash; unsigned max_size; /* off_t is overkill */ unsigned trash_remote_new:1, trash_only_new:1; }; struct string_list { struct string_list *next; char string[1]; }; struct channel_conf { struct channel_conf *next; char *name; struct store_conf *master, *slave; char *master_name, *slave_name; char *sync_state; struct string_list *patterns; int mops, sops; unsigned max_messages; /* for slave only */ }; struct group_conf { struct group_conf *next; char *name; struct string_list *channels; }; /* For message->status */ #define M_RECENT (1<<0) /* unsyncable flag; maildir_* depend on this being 1<<0 */ #define M_DEAD (1<<1) /* expunged */ #define M_FLAGS (1<<2) /* flags fetched */ struct message { struct message *next; /* struct string_list *keywords; */ size_t size; /* zero implies "not fetched" */ int uid; unsigned char flags, status; }; struct store { struct store_conf *conf; /* foreign */ /* currently open mailbox */ const char *name; /* foreign! maybe preset? */ char *path; /* own */ struct message *msgs; /* own */ int uidvalidity; unsigned char opts; /* maybe preset? */ /* note that the following do _not_ reflect stats from msgs, but mailbox totals */ int count; /* # of messages */ int recent; /* # of recent messages - don't trust this beyond the initial read */ }; struct msg_data { char *data; int len; unsigned char flags; unsigned int crlf:1; }; #define DRV_OK 0 #define DRV_MSG_BAD -1 #define DRV_BOX_BAD -2 #define DRV_STORE_BAD -3 static int Verbose, Quiet; __attribute__((format (printf, 1, 2))) static void imap_info(const char *, ...); __attribute__((format (printf, 1, 2))) static void imap_warn(const char *, ...); static char *next_arg(char **); static void free_generic_messages(struct message *); __attribute__((format (printf, 3, 4))) static int nfsnprintf(char *buf, int blen, const char *fmt, ...); static int nfvasprintf(char **strp, const char *fmt, va_list ap) { int len; char tmp[8192]; len = vsnprintf(tmp, sizeof(tmp), fmt, ap); if (len < 0) die("Fatal: Out of memory"); if (len >= sizeof(tmp)) die("imap command overflow!"); *strp = xmemdupz(tmp, len); return len; } static void arc4_init(void); static unsigned char arc4_getbyte(void); struct imap_server_conf { char *name; char *tunnel; char *host; int port; char *user; char *pass; int use_ssl; int ssl_verify; int use_html; }; struct imap_store_conf { struct store_conf gen; struct imap_server_conf *server; unsigned use_namespace:1; }; #define NIL (void *)0x1 #define LIST (void *)0x2 struct imap_list { struct imap_list *next, *child; char *val; int len; }; struct imap_socket { int fd; SSL *ssl; }; struct imap_buffer { struct imap_socket sock; int bytes; int offset; char buf[1024]; }; struct imap_cmd; struct imap { int uidnext; /* from SELECT responses */ struct imap_list *ns_personal, *ns_other, *ns_shared; /* NAMESPACE info */ unsigned caps, rcaps; /* CAPABILITY results */ /* command queue */ int nexttag, num_in_progress, literal_pending; struct imap_cmd *in_progress, **in_progress_append; struct imap_buffer buf; /* this is BIG, so put it last */ }; struct imap_store { struct store gen; int uidvalidity; struct imap *imap; const char *prefix; unsigned /*currentnc:1,*/ trashnc:1; }; struct imap_cmd_cb { int (*cont)(struct imap_store *ctx, struct imap_cmd *cmd, const char *prompt); void (*done)(struct imap_store *ctx, struct imap_cmd *cmd, int response); void *ctx; char *data; int dlen; int uid; unsigned create:1, trycreate:1; }; struct imap_cmd { struct imap_cmd *next; struct imap_cmd_cb cb; char *cmd; int tag; }; #define CAP(cap) (imap->caps & (1 << (cap))) enum CAPABILITY { NOLOGIN = 0, UIDPLUS, LITERALPLUS, NAMESPACE, STARTTLS, }; static const char *cap_list[] = { "LOGINDISABLED", "UIDPLUS", "LITERAL+", "NAMESPACE", "STARTTLS", }; #define RESP_OK 0 #define RESP_NO 1 #define RESP_BAD 2 static int get_cmd_result(struct imap_store *ctx, struct imap_cmd *tcmd); static const char *Flags[] = { "Draft", "Flagged", "Answered", "Seen", "Deleted", }; #ifndef NO_OPENSSL static void ssl_socket_perror(const char *func) { fprintf(stderr, "%s: %s\n", func, ERR_error_string(ERR_get_error(), NULL)); } #endif static void socket_perror(const char *func, struct imap_socket *sock, int ret) { #ifndef NO_OPENSSL if (sock->ssl) { int sslerr = SSL_get_error(sock->ssl, ret); switch (sslerr) { case SSL_ERROR_NONE: break; case SSL_ERROR_SYSCALL: perror("SSL_connect"); break; default: ssl_socket_perror("SSL_connect"); break; } } else #endif { if (ret < 0) perror(func); else fprintf(stderr, "%s: unexpected EOF\n", func); } } static int ssl_socket_connect(struct imap_socket *sock, int use_tls_only, int verify) { #ifdef NO_OPENSSL fprintf(stderr, "SSL requested but SSL support not compiled in\n"); return -1; #else #if (OPENSSL_VERSION_NUMBER >= 0x10000000L) const SSL_METHOD *meth; #else SSL_METHOD *meth; #endif SSL_CTX *ctx; int ret; SSL_library_init(); SSL_load_error_strings(); if (use_tls_only) meth = TLSv1_method(); else meth = SSLv23_method(); if (!meth) { ssl_socket_perror("SSLv23_method"); return -1; } ctx = SSL_CTX_new(meth); if (verify) SSL_CTX_set_verify(ctx, SSL_VERIFY_PEER, NULL); if (!SSL_CTX_set_default_verify_paths(ctx)) { ssl_socket_perror("SSL_CTX_set_default_verify_paths"); return -1; } sock->ssl = SSL_new(ctx); if (!sock->ssl) { ssl_socket_perror("SSL_new"); return -1; } if (!SSL_set_fd(sock->ssl, sock->fd)) { ssl_socket_perror("SSL_set_fd"); return -1; } ret = SSL_connect(sock->ssl); if (ret <= 0) { socket_perror("SSL_connect", sock, ret); return -1; } return 0; #endif } static int socket_read(struct imap_socket *sock, char *buf, int len) { ssize_t n; #ifndef NO_OPENSSL if (sock->ssl) n = SSL_read(sock->ssl, buf, len); else #endif n = xread(sock->fd, buf, len); if (n <= 0) { socket_perror("read", sock, n); close(sock->fd); sock->fd = -1; } return n; } static int socket_write(struct imap_socket *sock, const char *buf, int len) { int n; #ifndef NO_OPENSSL if (sock->ssl) n = SSL_write(sock->ssl, buf, len); else #endif n = write_in_full(sock->fd, buf, len); if (n != len) { socket_perror("write", sock, n); close(sock->fd); sock->fd = -1; } return n; } static void socket_shutdown(struct imap_socket *sock) { #ifndef NO_OPENSSL if (sock->ssl) { SSL_shutdown(sock->ssl); SSL_free(sock->ssl); } #endif close(sock->fd); } /* simple line buffering */ static int buffer_gets(struct imap_buffer *b, char **s) { int n; int start = b->offset; *s = b->buf + start; for (;;) { /* make sure we have enough data to read the \r\n sequence */ if (b->offset + 1 >= b->bytes) { if (start) { /* shift down used bytes */ *s = b->buf; assert(start <= b->bytes); n = b->bytes - start; if (n) memmove(b->buf, b->buf + start, n); b->offset -= start; b->bytes = n; start = 0; } n = socket_read(&b->sock, b->buf + b->bytes, sizeof(b->buf) - b->bytes); if (n <= 0) return -1; b->bytes += n; } if (b->buf[b->offset] == '\r') { assert(b->offset + 1 < b->bytes); if (b->buf[b->offset + 1] == '\n') { b->buf[b->offset] = 0; /* terminate the string */ b->offset += 2; /* next line */ if (Verbose) puts(*s); return 0; } } b->offset++; } /* not reached */ } static void imap_info(const char *msg, ...) { va_list va; if (!Quiet) { va_start(va, msg); vprintf(msg, va); va_end(va); fflush(stdout); } } static void imap_warn(const char *msg, ...) { va_list va; if (Quiet < 2) { va_start(va, msg); vfprintf(stderr, msg, va); va_end(va); } } static char *next_arg(char **s) { char *ret; if (!s || !*s) return NULL; while (isspace((unsigned char) **s)) (*s)++; if (!**s) { *s = NULL; return NULL; } if (**s == '"') { ++*s; ret = *s; *s = strchr(*s, '"'); } else { ret = *s; while (**s && !isspace((unsigned char) **s)) (*s)++; } if (*s) { if (**s) *(*s)++ = 0; if (!**s) *s = NULL; } return ret; } static void free_generic_messages(struct message *msgs) { struct message *tmsg; for (; msgs; msgs = tmsg) { tmsg = msgs->next; free(msgs); } } static int nfsnprintf(char *buf, int blen, const char *fmt, ...) { int ret; va_list va; va_start(va, fmt); if (blen <= 0 || (unsigned)(ret = vsnprintf(buf, blen, fmt, va)) >= (unsigned)blen) die("Fatal: buffer too small. Please report a bug."); va_end(va); return ret; } static struct { unsigned char i, j, s[256]; } rs; static void arc4_init(void) { int i, fd; unsigned char j, si, dat[128]; if ((fd = open("/dev/urandom", O_RDONLY)) < 0 && (fd = open("/dev/random", O_RDONLY)) < 0) { fprintf(stderr, "Fatal: no random number source available.\n"); exit(3); } if (read_in_full(fd, dat, 128) != 128) { fprintf(stderr, "Fatal: cannot read random number source.\n"); exit(3); } close(fd); for (i = 0; i < 256; i++) rs.s[i] = i; for (i = j = 0; i < 256; i++) { si = rs.s[i]; j += si + dat[i & 127]; rs.s[i] = rs.s[j]; rs.s[j] = si; } rs.i = rs.j = 0; for (i = 0; i < 256; i++) arc4_getbyte(); } static unsigned char arc4_getbyte(void) { unsigned char si, sj; rs.i++; si = rs.s[rs.i]; rs.j += si; sj = rs.s[rs.j]; rs.s[rs.i] = sj; rs.s[rs.j] = si; return rs.s[(si + sj) & 0xff]; } static struct imap_cmd *v_issue_imap_cmd(struct imap_store *ctx, struct imap_cmd_cb *cb, const char *fmt, va_list ap) { struct imap *imap = ctx->imap; struct imap_cmd *cmd; int n, bufl; char buf[1024]; cmd = xmalloc(sizeof(struct imap_cmd)); nfvasprintf(&cmd->cmd, fmt, ap); cmd->tag = ++imap->nexttag; if (cb) cmd->cb = *cb; else memset(&cmd->cb, 0, sizeof(cmd->cb)); while (imap->literal_pending) get_cmd_result(ctx, NULL); bufl = nfsnprintf(buf, sizeof(buf), cmd->cb.data ? CAP(LITERALPLUS) ? "%d %s{%d+}\r\n" : "%d %s{%d}\r\n" : "%d %s\r\n", cmd->tag, cmd->cmd, cmd->cb.dlen); if (Verbose) { if (imap->num_in_progress) printf("(%d in progress) ", imap->num_in_progress); if (memcmp(cmd->cmd, "LOGIN", 5)) printf(">>> %s", buf); else printf(">>> %d LOGIN \n", cmd->tag); } if (socket_write(&imap->buf.sock, buf, bufl) != bufl) { free(cmd->cmd); free(cmd); if (cb) free(cb->data); return NULL; } if (cmd->cb.data) { if (CAP(LITERALPLUS)) { n = socket_write(&imap->buf.sock, cmd->cb.data, cmd->cb.dlen); free(cmd->cb.data); if (n != cmd->cb.dlen || socket_write(&imap->buf.sock, "\r\n", 2) != 2) { free(cmd->cmd); free(cmd); return NULL; } cmd->cb.data = NULL; } else imap->literal_pending = 1; } else if (cmd->cb.cont) imap->literal_pending = 1; cmd->next = NULL; *imap->in_progress_append = cmd; imap->in_progress_append = &cmd->next; imap->num_in_progress++; return cmd; } __attribute__((format (printf, 3, 4))) static struct imap_cmd *issue_imap_cmd(struct imap_store *ctx, struct imap_cmd_cb *cb, const char *fmt, ...) { struct imap_cmd *ret; va_list ap; va_start(ap, fmt); ret = v_issue_imap_cmd(ctx, cb, fmt, ap); va_end(ap); return ret; } __attribute__((format (printf, 3, 4))) static int imap_exec(struct imap_store *ctx, struct imap_cmd_cb *cb, const char *fmt, ...) { va_list ap; struct imap_cmd *cmdp; va_start(ap, fmt); cmdp = v_issue_imap_cmd(ctx, cb, fmt, ap); va_end(ap); if (!cmdp) return RESP_BAD; return get_cmd_result(ctx, cmdp); } __attribute__((format (printf, 3, 4))) static int imap_exec_m(struct imap_store *ctx, struct imap_cmd_cb *cb, const char *fmt, ...) { va_list ap; struct imap_cmd *cmdp; va_start(ap, fmt); cmdp = v_issue_imap_cmd(ctx, cb, fmt, ap); va_end(ap); if (!cmdp) return DRV_STORE_BAD; switch (get_cmd_result(ctx, cmdp)) { case RESP_BAD: return DRV_STORE_BAD; case RESP_NO: return DRV_MSG_BAD; default: return DRV_OK; } } static int is_atom(struct imap_list *list) { return list && list->val && list->val != NIL && list->val != LIST; } static int is_list(struct imap_list *list) { return list && list->val == LIST; } static void free_list(struct imap_list *list) { struct imap_list *tmp; for (; list; list = tmp) { tmp = list->next; if (is_list(list)) free_list(list->child); else if (is_atom(list)) free(list->val); free(list); } } static int parse_imap_list_l(struct imap *imap, char **sp, struct imap_list **curp, int level) { struct imap_list *cur; char *s = *sp, *p; int n, bytes; for (;;) { while (isspace((unsigned char)*s)) s++; if (level && *s == ')') { s++; break; } *curp = cur = xmalloc(sizeof(*cur)); curp = &cur->next; cur->val = NULL; /* for clean bail */ if (*s == '(') { /* sublist */ s++; cur->val = LIST; if (parse_imap_list_l(imap, &s, &cur->child, level + 1)) goto bail; } else if (imap && *s == '{') { /* literal */ bytes = cur->len = strtol(s + 1, &s, 10); if (*s != '}') goto bail; s = cur->val = xmalloc(cur->len); /* dump whats left over in the input buffer */ n = imap->buf.bytes - imap->buf.offset; if (n > bytes) /* the entire message fit in the buffer */ n = bytes; memcpy(s, imap->buf.buf + imap->buf.offset, n); s += n; bytes -= n; /* mark that we used part of the buffer */ imap->buf.offset += n; /* now read the rest of the message */ while (bytes > 0) { if ((n = socket_read(&imap->buf.sock, s, bytes)) <= 0) goto bail; s += n; bytes -= n; } if (buffer_gets(&imap->buf, &s)) goto bail; } else if (*s == '"') { /* quoted string */ s++; p = s; for (; *s != '"'; s++) if (!*s) goto bail; cur->len = s - p; s++; cur->val = xmemdupz(p, cur->len); } else { /* atom */ p = s; for (; *s && !isspace((unsigned char)*s); s++) if (level && *s == ')') break; cur->len = s - p; if (cur->len == 3 && !memcmp("NIL", p, 3)) cur->val = NIL; else cur->val = xmemdupz(p, cur->len); } if (!level) break; if (!*s) goto bail; } *sp = s; *curp = NULL; return 0; bail: *curp = NULL; return -1; } static struct imap_list *parse_imap_list(struct imap *imap, char **sp) { struct imap_list *head; if (!parse_imap_list_l(imap, sp, &head, 0)) return head; free_list(head); return NULL; } static struct imap_list *parse_list(char **sp) { return parse_imap_list(NULL, sp); } static void parse_capability(struct imap *imap, char *cmd) { char *arg; unsigned i; imap->caps = 0x80000000; while ((arg = next_arg(&cmd))) for (i = 0; i < ARRAY_SIZE(cap_list); i++) if (!strcmp(cap_list[i], arg)) imap->caps |= 1 << i; imap->rcaps = imap->caps; } static int parse_response_code(struct imap_store *ctx, struct imap_cmd_cb *cb, char *s) { struct imap *imap = ctx->imap; char *arg, *p; if (*s != '[') return RESP_OK; /* no response code */ s++; if (!(p = strchr(s, ']'))) { fprintf(stderr, "IMAP error: malformed response code\n"); return RESP_BAD; } *p++ = 0; arg = next_arg(&s); if (!strcmp("UIDVALIDITY", arg)) { if (!(arg = next_arg(&s)) || !(ctx->gen.uidvalidity = atoi(arg))) { fprintf(stderr, "IMAP error: malformed UIDVALIDITY status\n"); return RESP_BAD; } } else if (!strcmp("UIDNEXT", arg)) { if (!(arg = next_arg(&s)) || !(imap->uidnext = atoi(arg))) { fprintf(stderr, "IMAP error: malformed NEXTUID status\n"); return RESP_BAD; } } else if (!strcmp("CAPABILITY", arg)) { parse_capability(imap, s); } else if (!strcmp("ALERT", arg)) { /* RFC2060 says that these messages MUST be displayed * to the user */ for (; isspace((unsigned char)*p); p++); fprintf(stderr, "*** IMAP ALERT *** %s\n", p); } else if (cb && cb->ctx && !strcmp("APPENDUID", arg)) { if (!(arg = next_arg(&s)) || !(ctx->gen.uidvalidity = atoi(arg)) || !(arg = next_arg(&s)) || !(*(int *)cb->ctx = atoi(arg))) { fprintf(stderr, "IMAP error: malformed APPENDUID status\n"); return RESP_BAD; } } return RESP_OK; } static int get_cmd_result(struct imap_store *ctx, struct imap_cmd *tcmd) { struct imap *imap = ctx->imap; struct imap_cmd *cmdp, **pcmdp, *ncmdp; char *cmd, *arg, *arg1, *p; int n, resp, resp2, tag; for (;;) { if (buffer_gets(&imap->buf, &cmd)) return RESP_BAD; arg = next_arg(&cmd); if (*arg == '*') { arg = next_arg(&cmd); if (!arg) { fprintf(stderr, "IMAP error: unable to parse untagged response\n"); return RESP_BAD; } if (!strcmp("NAMESPACE", arg)) { imap->ns_personal = parse_list(&cmd); imap->ns_other = parse_list(&cmd); imap->ns_shared = parse_list(&cmd); } else if (!strcmp("OK", arg) || !strcmp("BAD", arg) || !strcmp("NO", arg) || !strcmp("BYE", arg)) { if ((resp = parse_response_code(ctx, NULL, cmd)) != RESP_OK) return resp; } else if (!strcmp("CAPABILITY", arg)) parse_capability(imap, cmd); else if ((arg1 = next_arg(&cmd))) { if (!strcmp("EXISTS", arg1)) ctx->gen.count = atoi(arg); else if (!strcmp("RECENT", arg1)) ctx->gen.recent = atoi(arg); } else { fprintf(stderr, "IMAP error: unable to parse untagged response\n"); return RESP_BAD; } } else if (!imap->in_progress) { fprintf(stderr, "IMAP error: unexpected reply: %s %s\n", arg, cmd ? cmd : ""); return RESP_BAD; } else if (*arg == '+') { /* This can happen only with the last command underway, as it enforces a round-trip. */ cmdp = (struct imap_cmd *)((char *)imap->in_progress_append - offsetof(struct imap_cmd, next)); if (cmdp->cb.data) { n = socket_write(&imap->buf.sock, cmdp->cb.data, cmdp->cb.dlen); free(cmdp->cb.data); cmdp->cb.data = NULL; if (n != (int)cmdp->cb.dlen) return RESP_BAD; } else if (cmdp->cb.cont) { if (cmdp->cb.cont(ctx, cmdp, cmd)) return RESP_BAD; } else { fprintf(stderr, "IMAP error: unexpected command continuation request\n"); return RESP_BAD; } if (socket_write(&imap->buf.sock, "\r\n", 2) != 2) return RESP_BAD; if (!cmdp->cb.cont) imap->literal_pending = 0; if (!tcmd) return DRV_OK; } else { tag = atoi(arg); for (pcmdp = &imap->in_progress; (cmdp = *pcmdp); pcmdp = &cmdp->next) if (cmdp->tag == tag) goto gottag; fprintf(stderr, "IMAP error: unexpected tag %s\n", arg); return RESP_BAD; gottag: if (!(*pcmdp = cmdp->next)) imap->in_progress_append = pcmdp; imap->num_in_progress--; if (cmdp->cb.cont || cmdp->cb.data) imap->literal_pending = 0; arg = next_arg(&cmd); if (!strcmp("OK", arg)) resp = DRV_OK; else { if (!strcmp("NO", arg)) { if (cmdp->cb.create && cmd && (cmdp->cb.trycreate || !memcmp(cmd, "[TRYCREATE]", 11))) { /* SELECT, APPEND or UID COPY */ p = strchr(cmdp->cmd, '"'); if (!issue_imap_cmd(ctx, NULL, "CREATE \"%.*s\"", (int)(strchr(p + 1, '"') - p + 1), p)) { resp = RESP_BAD; goto normal; } /* not waiting here violates the spec, but a server that does not grok this nonetheless violates it too. */ cmdp->cb.create = 0; if (!(ncmdp = issue_imap_cmd(ctx, &cmdp->cb, "%s", cmdp->cmd))) { resp = RESP_BAD; goto normal; } free(cmdp->cmd); free(cmdp); if (!tcmd) return 0; /* ignored */ if (cmdp == tcmd) tcmd = ncmdp; continue; } resp = RESP_NO; } else /*if (!strcmp("BAD", arg))*/ resp = RESP_BAD; fprintf(stderr, "IMAP command '%s' returned response (%s) - %s\n", memcmp(cmdp->cmd, "LOGIN", 5) ? cmdp->cmd : "LOGIN ", arg, cmd ? cmd : ""); } if ((resp2 = parse_response_code(ctx, &cmdp->cb, cmd)) > resp) resp = resp2; normal: if (cmdp->cb.done) cmdp->cb.done(ctx, cmdp, resp); free(cmdp->cb.data); free(cmdp->cmd); free(cmdp); if (!tcmd || tcmd == cmdp) return resp; } } /* not reached */ } static void imap_close_server(struct imap_store *ictx) { struct imap *imap = ictx->imap; if (imap->buf.sock.fd != -1) { imap_exec(ictx, NULL, "LOGOUT"); socket_shutdown(&imap->buf.sock); } free_list(imap->ns_personal); free_list(imap->ns_other); free_list(imap->ns_shared); free(imap); } static void imap_close_store(struct store *ctx) { imap_close_server((struct imap_store *)ctx); free_generic_messages(ctx->msgs); free(ctx); } static struct store *imap_open_store(struct imap_server_conf *srvc) { struct imap_store *ctx; struct imap *imap; char *arg, *rsp; int s = -1, a[2], preauth; pid_t pid; ctx = xcalloc(sizeof(*ctx), 1); ctx->imap = imap = xcalloc(sizeof(*imap), 1); imap->buf.sock.fd = -1; imap->in_progress_append = &imap->in_progress; /* open connection to IMAP server */ if (srvc->tunnel) { imap_info("Starting tunnel '%s'... ", srvc->tunnel); if (socketpair(PF_UNIX, SOCK_STREAM, 0, a)) { perror("socketpair"); exit(1); } pid = fork(); if (pid < 0) _exit(127); if (!pid) { if (dup2(a[0], 0) == -1 || dup2(a[0], 1) == -1) _exit(127); close(a[0]); close(a[1]); execl("/bin/sh", "sh", "-c", srvc->tunnel, NULL); _exit(127); } close(a[0]); imap->buf.sock.fd = a[1]; imap_info("ok\n"); } else { #ifndef NO_IPV6 struct addrinfo hints, *ai0, *ai; int gai; char portstr[6]; snprintf(portstr, sizeof(portstr), "%hu", srvc->port); memset(&hints, 0, sizeof(hints)); hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; imap_info("Resolving %s... ", srvc->host); gai = getaddrinfo(srvc->host, portstr, &hints, &ai); if (gai) { fprintf(stderr, "getaddrinfo: %s\n", gai_strerror(gai)); goto bail; } imap_info("ok\n"); for (ai0 = ai; ai; ai = ai->ai_next) { char addr[NI_MAXHOST]; s = socket(ai->ai_family, ai->ai_socktype, ai->ai_protocol); if (s < 0) continue; getnameinfo(ai->ai_addr, ai->ai_addrlen, addr, sizeof(addr), NULL, 0, NI_NUMERICHOST); imap_info("Connecting to [%s]:%s... ", addr, portstr); if (connect(s, ai->ai_addr, ai->ai_addrlen) < 0) { close(s); s = -1; perror("connect"); continue; } break; } freeaddrinfo(ai0); #else /* NO_IPV6 */ struct hostent *he; struct sockaddr_in addr; memset(&addr, 0, sizeof(addr)); addr.sin_port = htons(srvc->port); addr.sin_family = AF_INET; imap_info("Resolving %s... ", srvc->host); he = gethostbyname(srvc->host); if (!he) { perror("gethostbyname"); goto bail; } imap_info("ok\n"); addr.sin_addr.s_addr = *((int *) he->h_addr_list[0]); s = socket(PF_INET, SOCK_STREAM, 0); imap_info("Connecting to %s:%hu... ", inet_ntoa(addr.sin_addr), ntohs(addr.sin_port)); if (connect(s, (struct sockaddr *)&addr, sizeof(addr))) { close(s); s = -1; perror("connect"); } #endif if (s < 0) { fputs("Error: unable to connect to server.\n", stderr); goto bail; } imap->buf.sock.fd = s; if (srvc->use_ssl && ssl_socket_connect(&imap->buf.sock, 0, srvc->ssl_verify)) { close(s); goto bail; } imap_info("ok\n"); } /* read the greeting string */ if (buffer_gets(&imap->buf, &rsp)) { fprintf(stderr, "IMAP error: no greeting response\n"); goto bail; } arg = next_arg(&rsp); if (!arg || *arg != '*' || (arg = next_arg(&rsp)) == NULL) { fprintf(stderr, "IMAP error: invalid greeting response\n"); goto bail; } preauth = 0; if (!strcmp("PREAUTH", arg)) preauth = 1; else if (strcmp("OK", arg) != 0) { fprintf(stderr, "IMAP error: unknown greeting response\n"); goto bail; } parse_response_code(ctx, NULL, rsp); if (!imap->caps && imap_exec(ctx, NULL, "CAPABILITY") != RESP_OK) goto bail; if (!preauth) { #ifndef NO_OPENSSL if (!srvc->use_ssl && CAP(STARTTLS)) { if (imap_exec(ctx, 0, "STARTTLS") != RESP_OK) goto bail; if (ssl_socket_connect(&imap->buf.sock, 1, srvc->ssl_verify)) goto bail; /* capabilities may have changed, so get the new capabilities */ if (imap_exec(ctx, 0, "CAPABILITY") != RESP_OK) goto bail; } #endif imap_info("Logging in...\n"); if (!srvc->user) { fprintf(stderr, "Skipping server %s, no user\n", srvc->host); goto bail; } if (!srvc->pass) { char prompt[80]; sprintf(prompt, "Password (%s@%s): ", srvc->user, srvc->host); arg = getpass(prompt); if (!arg) { perror("getpass"); exit(1); } if (!*arg) { fprintf(stderr, "Skipping account %s@%s, no password\n", srvc->user, srvc->host); goto bail; } /* * getpass() returns a pointer to a static buffer. make a copy * for long term storage. */ srvc->pass = xstrdup(arg); } if (CAP(NOLOGIN)) { fprintf(stderr, "Skipping account %s@%s, server forbids LOGIN\n", srvc->user, srvc->host); goto bail; } if (!imap->buf.sock.ssl) imap_warn("*** IMAP Warning *** Password is being " "sent in the clear\n"); if (imap_exec(ctx, NULL, "LOGIN \"%s\" \"%s\"", srvc->user, srvc->pass) != RESP_OK) { fprintf(stderr, "IMAP error: LOGIN failed\n"); goto bail; } } /* !preauth */ ctx->prefix = ""; ctx->trashnc = 1; return (struct store *)ctx; bail: imap_close_store(&ctx->gen); return NULL; } static int imap_make_flags(int flags, char *buf) { const char *s; unsigned i, d; for (i = d = 0; i < ARRAY_SIZE(Flags); i++) if (flags & (1 << i)) { buf[d++] = ' '; buf[d++] = '\\'; for (s = Flags[i]; *s; s++) buf[d++] = *s; } buf[0] = '('; buf[d++] = ')'; return d; } #define TUIDL 8 static int imap_store_msg(struct store *gctx, struct msg_data *data, int *uid) { struct imap_store *ctx = (struct imap_store *)gctx; struct imap *imap = ctx->imap; struct imap_cmd_cb cb; char *fmap, *buf; const char *prefix, *box; int ret, i, j, d, len, extra, nocr; int start, sbreak = 0, ebreak = 0; char flagstr[128], tuid[TUIDL * 2 + 1]; memset(&cb, 0, sizeof(cb)); fmap = data->data; len = data->len; nocr = !data->crlf; extra = 0, i = 0; if (!CAP(UIDPLUS) && uid) { nloop: start = i; while (i < len) if (fmap[i++] == '\n') { extra += nocr; if (i - 2 + nocr == start) { sbreak = ebreak = i - 2 + nocr; goto mktid; } if (!memcmp(fmap + start, "X-TUID: ", 8)) { extra -= (ebreak = i) - (sbreak = start) + nocr; goto mktid; } goto nloop; } /* invalid message */ free(fmap); return DRV_MSG_BAD; mktid: for (j = 0; j < TUIDL; j++) sprintf(tuid + j * 2, "%02x", arc4_getbyte()); extra += 8 + TUIDL * 2 + 2; } if (nocr) for (; i < len; i++) if (fmap[i] == '\n') extra++; cb.dlen = len + extra; buf = cb.data = xmalloc(cb.dlen); i = 0; if (!CAP(UIDPLUS) && uid) { if (nocr) { for (; i < sbreak; i++) if (fmap[i] == '\n') { *buf++ = '\r'; *buf++ = '\n'; } else *buf++ = fmap[i]; } else { memcpy(buf, fmap, sbreak); buf += sbreak; } memcpy(buf, "X-TUID: ", 8); buf += 8; memcpy(buf, tuid, TUIDL * 2); buf += TUIDL * 2; *buf++ = '\r'; *buf++ = '\n'; i = ebreak; } if (nocr) { for (; i < len; i++) if (fmap[i] == '\n') { *buf++ = '\r'; *buf++ = '\n'; } else *buf++ = fmap[i]; } else memcpy(buf, fmap + i, len - i); free(fmap); d = 0; if (data->flags) { d = imap_make_flags(data->flags, flagstr); flagstr[d++] = ' '; } flagstr[d] = 0; if (!uid) { box = gctx->conf->trash; prefix = ctx->prefix; cb.create = 1; if (ctx->trashnc) imap->caps = imap->rcaps & ~(1 << LITERALPLUS); } else { box = gctx->name; prefix = !strcmp(box, "INBOX") ? "" : ctx->prefix; cb.create = 0; } cb.ctx = uid; ret = imap_exec_m(ctx, &cb, "APPEND \"%s%s\" %s", prefix, box, flagstr); imap->caps = imap->rcaps; if (ret != DRV_OK) return ret; if (!uid) ctx->trashnc = 0; else gctx->count++; return DRV_OK; } static void encode_html_chars(struct strbuf *p) { int i; for (i = 0; i < p->len; i++) { if (p->buf[i] == '&') strbuf_splice(p, i, 1, "&", 5); if (p->buf[i] == '<') strbuf_splice(p, i, 1, "<", 4); if (p->buf[i] == '>') strbuf_splice(p, i, 1, ">", 4); if (p->buf[i] == '"') strbuf_splice(p, i, 1, """, 6); } } static void wrap_in_html(struct msg_data *msg) { struct strbuf buf = STRBUF_INIT; struct strbuf **lines; struct strbuf **p; static char *content_type = "Content-Type: text/html;\n"; static char *pre_open = "
\n";
	static char *pre_close = "
\n"; int added_header = 0; strbuf_attach(&buf, msg->data, msg->len, msg->len); lines = strbuf_split(&buf, '\n'); strbuf_release(&buf); for (p = lines; *p; p++) { if (! added_header) { if ((*p)->len == 1 && *((*p)->buf) == '\n') { strbuf_addstr(&buf, content_type); strbuf_addbuf(&buf, *p); strbuf_addstr(&buf, pre_open); added_header = 1; continue; } } else encode_html_chars(*p); strbuf_addbuf(&buf, *p); } strbuf_addstr(&buf, pre_close); strbuf_list_free(lines); msg->len = buf.len; msg->data = strbuf_detach(&buf, NULL); } #define CHUNKSIZE 0x1000 static int read_message(FILE *f, struct msg_data *msg) { struct strbuf buf = STRBUF_INIT; memset(msg, 0, sizeof(*msg)); do { if (strbuf_fread(&buf, CHUNKSIZE, f) <= 0) break; } while (!feof(f)); msg->len = buf.len; msg->data = strbuf_detach(&buf, NULL); return msg->len; } static int count_messages(struct msg_data *msg) { int count = 0; char *p = msg->data; while (1) { if (!prefixcmp(p, "From ")) { count++; p += 5; } p = strstr(p+5, "\nFrom "); if (!p) break; p++; } return count; } static int split_msg(struct msg_data *all_msgs, struct msg_data *msg, int *ofs) { char *p, *data; memset(msg, 0, sizeof *msg); if (*ofs >= all_msgs->len) return 0; data = &all_msgs->data[*ofs]; msg->len = all_msgs->len - *ofs; if (msg->len < 5 || prefixcmp(data, "From ")) return 0; p = strchr(data, '\n'); if (p) { p = &p[1]; msg->len -= p-data; *ofs += p-data; data = p; } p = strstr(data, "\nFrom "); if (p) msg->len = &p[1] - data; msg->data = xmemdupz(data, msg->len); *ofs += msg->len; return 1; } static struct imap_server_conf server = { NULL, /* name */ NULL, /* tunnel */ NULL, /* host */ 0, /* port */ NULL, /* user */ NULL, /* pass */ 0, /* use_ssl */ 1, /* ssl_verify */ 0, /* use_html */ }; static char *imap_folder; static int git_imap_config(const char *key, const char *val, void *cb) { char imap_key[] = "imap."; if (strncmp(key, imap_key, sizeof imap_key - 1)) return 0; if (!val) return config_error_nonbool(key); key += sizeof imap_key - 1; if (!strcmp("folder", key)) { imap_folder = xstrdup(val); } else if (!strcmp("host", key)) { if (!prefixcmp(val, "imap:")) val += 5; else if (!prefixcmp(val, "imaps:")) { val += 6; server.use_ssl = 1; } if (!prefixcmp(val, "//")) val += 2; server.host = xstrdup(val); } else if (!strcmp("user", key)) server.user = xstrdup(val); else if (!strcmp("pass", key)) server.pass = xstrdup(val); else if (!strcmp("port", key)) server.port = git_config_int(key, val); else if (!strcmp("tunnel", key)) server.tunnel = xstrdup(val); else if (!strcmp("sslverify", key)) server.ssl_verify = git_config_bool(key, val); else if (!strcmp("preformattedHTML", key)) server.use_html = git_config_bool(key, val); return 0; } int main(int argc, char **argv) { struct msg_data all_msgs, msg; struct store *ctx = NULL; int uid = 0; int ofs = 0; int r; int total, n = 0; int nongit_ok; git_extract_argv0_path(argv[0]); /* init the random number generator */ arc4_init(); setup_git_directory_gently(&nongit_ok); git_config(git_imap_config, NULL); if (!server.port) server.port = server.use_ssl ? 993 : 143; if (!imap_folder) { fprintf(stderr, "no imap store specified\n"); return 1; } if (!server.host) { if (!server.tunnel) { fprintf(stderr, "no imap host specified\n"); return 1; } server.host = "tunnel"; } /* read the messages */ if (!read_message(stdin, &all_msgs)) { fprintf(stderr, "nothing to send\n"); return 1; } total = count_messages(&all_msgs); if (!total) { fprintf(stderr, "no messages to send\n"); return 1; } /* write it to the imap server */ ctx = imap_open_store(&server); if (!ctx) { fprintf(stderr, "failed to open store\n"); return 1; } fprintf(stderr, "sending %d message%s\n", total, (total != 1) ? "s" : ""); ctx->name = imap_folder; while (1) { unsigned percent = n * 100 / total; fprintf(stderr, "%4u%% (%d/%d) done\r", percent, n, total); if (!split_msg(&all_msgs, &msg, &ofs)) break; if (server.use_html) wrap_in_html(&msg); r = imap_store_msg(ctx, &msg, &uid); if (r != DRV_OK) break; n++; } fprintf(stderr, "\n"); imap_close_store(ctx); return 0; }