/* notmuch - Not much of an email program, (just index and search) * * Copyright © 2009 Carl Worth * Copyright © 2009 Keith Packard * * 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 3 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, see http://www.gnu.org/licenses/ . * * Authors: Carl Worth * Keith Packard * Austin Clements */ #include "notmuch-client.h" /* Context that gets inherited from the root node. */ typedef struct mime_node_context { /* Per-message resources. These are allocated internally and must * be destroyed. */ FILE *file; GMimeStream *stream; GMimeParser *parser; GMimeMessage *mime_message; /* Context provided by the caller. */ notmuch_crypto_t *crypto; } mime_node_context_t; static int _mime_node_context_free (mime_node_context_t *res) { if (res->mime_message) g_object_unref (res->mime_message); if (res->parser) g_object_unref (res->parser); if (res->stream) g_object_unref (res->stream); if (res->file) fclose (res->file); return 0; } notmuch_status_t mime_node_open (const void *ctx, notmuch_message_t *message, notmuch_crypto_t *crypto, mime_node_t **root_out) { const char *filename = notmuch_message_get_filename (message); mime_node_context_t *mctx; mime_node_t *root; notmuch_status_t status; root = talloc_zero (ctx, mime_node_t); if (root == NULL) { fprintf (stderr, "Out of memory.\n"); status = NOTMUCH_STATUS_OUT_OF_MEMORY; goto DONE; } /* Create the tree-wide context */ mctx = talloc_zero (root, mime_node_context_t); if (mctx == NULL) { fprintf (stderr, "Out of memory.\n"); status = NOTMUCH_STATUS_OUT_OF_MEMORY; goto DONE; } talloc_set_destructor (mctx, _mime_node_context_free); mctx->file = fopen (filename, "r"); if (! mctx->file) { fprintf (stderr, "Error opening %s: %s\n", filename, strerror (errno)); status = NOTMUCH_STATUS_FILE_ERROR; goto DONE; } mctx->stream = g_mime_stream_file_new (mctx->file); if (!mctx->stream) { fprintf (stderr, "Out of memory.\n"); status = NOTMUCH_STATUS_OUT_OF_MEMORY; goto DONE; } g_mime_stream_file_set_owner (GMIME_STREAM_FILE (mctx->stream), FALSE); mctx->parser = g_mime_parser_new_with_stream (mctx->stream); if (!mctx->parser) { fprintf (stderr, "Out of memory.\n"); status = NOTMUCH_STATUS_OUT_OF_MEMORY; goto DONE; } mctx->mime_message = g_mime_parser_construct_message (mctx->parser); if (!mctx->mime_message) { fprintf (stderr, "Failed to parse %s\n", filename); status = NOTMUCH_STATUS_FILE_ERROR; goto DONE; } mctx->crypto = crypto; /* Create the root node */ root->part = GMIME_OBJECT (mctx->mime_message); root->envelope_file = message; root->nchildren = 1; root->ctx = mctx; root->parent = NULL; root->part_num = 0; root->next_child = 0; root->next_part_num = 1; *root_out = root; return NOTMUCH_STATUS_SUCCESS; DONE: talloc_free (root); return status; } #ifdef GMIME_ATLEAST_26 /* Signature list destructor (GMime 2.6) */ static int _signature_list_free (GMimeSignatureList **proxy) { g_object_unref (*proxy); return 0; } /* Set up signature list destructor (GMime 2.6) */ static void set_signature_list_destructor (mime_node_t *node) { GMimeSignatureList **proxy = talloc (node, GMimeSignatureList *); if (proxy) { *proxy = node->sig_list; talloc_set_destructor (proxy, _signature_list_free); } } /* Verify a signed mime node (GMime 2.6) */ static void node_verify (mime_node_t *node, GMimeObject *part, notmuch_crypto_context_t *cryptoctx) { GError *err = NULL; node->verify_attempted = TRUE; node->sig_list = g_mime_multipart_signed_verify (GMIME_MULTIPART_SIGNED (part), cryptoctx, &err); if (node->sig_list) set_signature_list_destructor (node); else fprintf (stderr, "Failed to verify signed part: %s\n", err ? err->message : "no error explanation given"); if (err) g_error_free (err); } /* Decrypt and optionally verify an encrypted mime node (GMime 2.6) */ static void node_decrypt_and_verify (mime_node_t *node, GMimeObject *part, notmuch_crypto_context_t *cryptoctx) { GError *err = NULL; GMimeDecryptResult *decrypt_result = NULL; GMimeMultipartEncrypted *encrypteddata = GMIME_MULTIPART_ENCRYPTED (part); node->decrypt_attempted = TRUE; node->decrypted_child = g_mime_multipart_encrypted_decrypt (encrypteddata, cryptoctx, &decrypt_result, &err); if (! node->decrypted_child) { fprintf (stderr, "Failed to decrypt part: %s\n", err ? err->message : "no error explanation given"); goto DONE; } node->decrypt_success = TRUE; node->verify_attempted = TRUE; /* This may be NULL if the part is not signed. */ node->sig_list = g_mime_decrypt_result_get_signatures (decrypt_result); if (node->sig_list) { g_object_ref (node->sig_list); set_signature_list_destructor (node); } g_object_unref (decrypt_result); DONE: if (err) g_error_free (err); } #else /* GMIME_ATLEAST_26 */ /* Signature validity destructor (GMime 2.4) */ static int _signature_validity_free (GMimeSignatureValidity **proxy) { g_mime_signature_validity_free (*proxy); return 0; } /* Set up signature validity destructor (GMime 2.4) */ static void set_signature_validity_destructor (mime_node_t *node, GMimeSignatureValidity *sig_validity) { GMimeSignatureValidity **proxy = talloc (node, GMimeSignatureValidity *); if (proxy) { *proxy = sig_validity; talloc_set_destructor (proxy, _signature_validity_free); } } /* Verify a signed mime node (GMime 2.4) */ static void node_verify (mime_node_t *node, GMimeObject *part, notmuch_crypto_context_t *cryptoctx) { GError *err = NULL; GMimeSignatureValidity *sig_validity; node->verify_attempted = TRUE; sig_validity = g_mime_multipart_signed_verify (GMIME_MULTIPART_SIGNED (part), cryptoctx, &err); node->sig_validity = sig_validity; if (sig_validity) { set_signature_validity_destructor (node, sig_validity); } else { fprintf (stderr, "Failed to verify signed part: %s\n", err ? err->message : "no error explanation given"); } if (err) g_error_free (err); } /* Decrypt and optionally verify an encrypted mime node (GMime 2.4) */ static void node_decrypt_and_verify (mime_node_t *node, GMimeObject *part, notmuch_crypto_context_t *cryptoctx) { GError *err = NULL; GMimeMultipartEncrypted *encrypteddata = GMIME_MULTIPART_ENCRYPTED (part); node->decrypt_attempted = TRUE; node->decrypted_child = g_mime_multipart_encrypted_decrypt (encrypteddata, cryptoctx, &err); if (! node->decrypted_child) { fprintf (stderr, "Failed to decrypt part: %s\n", err ? err->message : "no error explanation given"); goto DONE; } node->decrypt_success = TRUE; node->verify_attempted = TRUE; /* The GMimeSignatureValidity returned here is a const, unlike the * one returned by g_mime_multipart_signed_verify() in * node_verify() above, so the destructor is not needed. */ node->sig_validity = g_mime_multipart_encrypted_get_signature_validity (encrypteddata); if (! node->sig_validity) fprintf (stderr, "Failed to verify encrypted signed part: %s\n", err ? err->message : "no error explanation given"); DONE: if (err) g_error_free (err); } #endif /* GMIME_ATLEAST_26 */ static mime_node_t * _mime_node_create (mime_node_t *parent, GMimeObject *part) { mime_node_t *node = talloc_zero (parent, mime_node_t); notmuch_crypto_context_t *cryptoctx = NULL; /* Set basic node properties */ node->part = part; node->ctx = parent->ctx; if (!talloc_reference (node, node->ctx)) { fprintf (stderr, "Out of memory.\n"); talloc_free (node); return NULL; } node->parent = parent; node->part_num = node->next_part_num = -1; node->next_child = 0; /* Deal with the different types of parts */ if (GMIME_IS_PART (part)) { node->nchildren = 0; } else if (GMIME_IS_MULTIPART (part)) { node->nchildren = g_mime_multipart_get_count (GMIME_MULTIPART (part)); } else if (GMIME_IS_MESSAGE_PART (part)) { /* Promote part to an envelope and open it */ GMimeMessagePart *message_part = GMIME_MESSAGE_PART (part); GMimeMessage *message = g_mime_message_part_get_message (message_part); node->envelope_part = message_part; node->part = GMIME_OBJECT (message); node->nchildren = 1; } else { fprintf (stderr, "Warning: Unknown mime part type: %s.\n", g_type_name (G_OBJECT_TYPE (part))); talloc_free (node); return NULL; } if ((GMIME_IS_MULTIPART_ENCRYPTED (part) && node->ctx->crypto->decrypt) || (GMIME_IS_MULTIPART_SIGNED (part) && node->ctx->crypto->verify)) { GMimeContentType *content_type = g_mime_object_get_content_type (part); const char *protocol = g_mime_content_type_get_parameter (content_type, "protocol"); cryptoctx = notmuch_crypto_get_context (node->ctx->crypto, protocol); } /* Handle PGP/MIME parts */ if (GMIME_IS_MULTIPART_ENCRYPTED (part) && node->ctx->crypto->decrypt && cryptoctx) { if (node->nchildren != 2) { /* this violates RFC 3156 section 4, so we won't bother with it. */ fprintf (stderr, "Error: %d part(s) for a multipart/encrypted " "message (must be exactly 2)\n", node->nchildren); } else { node_decrypt_and_verify (node, part, cryptoctx); } } else if (GMIME_IS_MULTIPART_SIGNED (part) && node->ctx->crypto->verify && cryptoctx) { if (node->nchildren != 2) { /* this violates RFC 3156 section 5, so we won't bother with it. */ fprintf (stderr, "Error: %d part(s) for a multipart/signed message " "(must be exactly 2)\n", node->nchildren); } else { node_verify (node, part, cryptoctx); } } return node; } mime_node_t * mime_node_child (mime_node_t *parent, int child) { GMimeObject *sub; mime_node_t *node; if (!parent || !parent->part || child < 0 || child >= parent->nchildren) return NULL; if (GMIME_IS_MULTIPART (parent->part)) { if (child == 1 && parent->decrypted_child) sub = parent->decrypted_child; else sub = g_mime_multipart_get_part (GMIME_MULTIPART (parent->part), child); } else if (GMIME_IS_MESSAGE (parent->part)) { sub = g_mime_message_get_mime_part (GMIME_MESSAGE (parent->part)); } else { /* This should have been caught by message_part_create */ INTERNAL_ERROR ("Unexpected GMimeObject type: %s", g_type_name (G_OBJECT_TYPE (parent->part))); } node = _mime_node_create (parent, sub); if (child == parent->next_child && parent->next_part_num != -1) { /* We're traversing in depth-first order. Record the child's * depth-first numbering. */ node->part_num = parent->next_part_num; node->next_part_num = node->part_num + 1; /* Prepare the parent for its next depth-first child. */ parent->next_child++; parent->next_part_num = -1; if (node->nchildren == 0) { /* We've reached a leaf, so find the parent that has more * children and set it up to number its next child. */ mime_node_t *iter = node->parent; while (iter && iter->next_child == iter->nchildren) iter = iter->parent; if (iter) iter->next_part_num = node->part_num + 1; } } return node; } static mime_node_t * _mime_node_seek_dfs_walk (mime_node_t *node, int *n) { mime_node_t *ret = NULL; int i; if (*n == 0) return node; *n -= 1; for (i = 0; i < node->nchildren && !ret; i++) { mime_node_t *child = mime_node_child (node, i); ret = _mime_node_seek_dfs_walk (child, n); if (!ret) talloc_free (child); } return ret; } mime_node_t * mime_node_seek_dfs (mime_node_t *node, int n) { if (n < 0) return NULL; return _mime_node_seek_dfs_walk (node, &n); }