/* * nmconn.c * * Copyright (c) 2004 Novell, Inc. All Rights Reserved. * * 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; version 2 of the License. * * 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 #include #include #include #include #include #include "nmconn.h" #ifdef _WIN32 #include #endif #define NO_ESCAPE(ch) ((ch == 0x20) || (ch >= 0x30 && ch <= 0x39) || \ (ch >= 0x41 && ch <= 0x5a) || (ch >= 0x61 && ch <= 0x7a)) /* Read data from conn until the end of a line */ static NMERR_T read_line(NMConn * conn, char *buff, int len) { NMERR_T rc = NM_OK; int total_bytes = 0; while ((rc == NM_OK) && (total_bytes < (len - 1))) { rc = nm_read_all(conn, &buff[total_bytes], 1); if (rc == NM_OK) { total_bytes += 1; if (buff[total_bytes - 1] == '\n') { break; } } } buff[total_bytes] = '\0'; return rc; } static char * url_escape_string(char *src) { guint32 escape = 0; char *p; char *q; char *encoded = NULL; int ch; static const char hex_table[16] = "0123456789abcdef"; if (src == NULL) { return NULL; } /* Find number of chars to escape */ for (p = src; *p != '\0'; p++) { ch = (guchar) *p; if (!NO_ESCAPE(ch)) { escape++; } } encoded = g_malloc((p - src) + (escape * 2) + 1); /* Escape the string */ for (p = src, q = encoded; *p != '\0'; p++) { ch = (guchar) * p; if (NO_ESCAPE(ch)) { if (ch != 0x20) { *q = ch; q++; } else { *q = '+'; q++; } } else { *q = '%'; q++; *q = hex_table[ch >> 4]; q++; *q = hex_table[ch & 15]; q++; } } *q = '\0'; return encoded; } static char * encode_method(guint8 method) { char *str; switch (method) { case NMFIELD_METHOD_EQUAL: str = "G"; break; case NMFIELD_METHOD_UPDATE: str = "F"; break; case NMFIELD_METHOD_GTE: str = "E"; break; case NMFIELD_METHOD_LTE: str = "D"; break; case NMFIELD_METHOD_NE: str = "C"; break; case NMFIELD_METHOD_EXIST: str = "B"; break; case NMFIELD_METHOD_NOTEXIST: str = "A"; break; case NMFIELD_METHOD_SEARCH: str = "9"; break; case NMFIELD_METHOD_MATCHBEGIN: str = "8"; break; case NMFIELD_METHOD_MATCHEND: str = "7"; break; case NMFIELD_METHOD_NOT_ARRAY: str = "6"; break; case NMFIELD_METHOD_OR_ARRAY: str = "5"; break; case NMFIELD_METHOD_AND_ARRAY: str = "4"; break; case NMFIELD_METHOD_DELETE_ALL: str = "3"; break; case NMFIELD_METHOD_DELETE: str = "2"; break; case NMFIELD_METHOD_ADD: str = "1"; break; default: /* NMFIELD_METHOD_VALID */ str = "0"; break; } return str; } NMConn * nm_create_conn(const char *addr, int port) { NMConn *conn = g_new0(NMConn, 1); conn->addr = g_strdup(addr); conn->port = port; return conn; } void nm_release_conn(NMConn *conn) { if (conn) { GSList *node; for (node = conn->requests; node; node = node->next) { if (node->data) nm_release_request(node->data); } g_slist_free(conn->requests); conn->requests = NULL; if (conn->ssl_conn) { g_free(conn->ssl_conn); conn->ssl_conn = NULL; } g_free(conn->addr); conn->addr = NULL; g_free(conn); } } int nm_tcp_write(NMConn * conn, const void *buff, int len) { if (conn == NULL || buff == NULL) return -1; if (!conn->use_ssl) return (write(conn->fd, buff, len)); else if (conn->ssl_conn && conn->ssl_conn->write) return (conn->ssl_conn->write(conn->ssl_conn->data, buff, len)); else return -1; } int nm_tcp_read(NMConn * conn, void *buff, int len) { if (conn == NULL || buff == NULL) return -1; if (!conn->use_ssl) return (read(conn->fd, buff, len)); else if (conn->ssl_conn && conn->ssl_conn->read) return (conn->ssl_conn->read(conn->ssl_conn->data, buff, len)); else return -1; } NMERR_T nm_read_all(NMConn * conn, char *buff, int len) { NMERR_T rc = NM_OK; int bytes_left = len; int bytes_read; int total_bytes = 0; int retry = 10; if (conn == NULL || buff == NULL) return NMERR_BAD_PARM; /* Keep reading until buffer is full */ while (bytes_left) { bytes_read = nm_tcp_read(conn, &buff[total_bytes], bytes_left); if (bytes_read > 0) { bytes_left -= bytes_read; total_bytes += bytes_read; } else { if (errno == EAGAIN) { if (--retry == 0) { rc = NMERR_TCP_READ; break; } #ifdef _WIN32 Sleep(1000); #else usleep(1000); #endif } else { rc = NMERR_TCP_READ; break; } } } return rc; } NMERR_T nm_read_uint32(NMConn *conn, guint32 *val) { NMERR_T rc = NM_OK; rc = nm_read_all(conn, (char *)val, sizeof(*val)); if (rc == NM_OK) { *val = GUINT32_FROM_LE(*val); } return rc; } NMERR_T nm_read_uint16(NMConn *conn, guint16 *val) { NMERR_T rc = NM_OK; rc = nm_read_all(conn, (char *)val, sizeof(*val)); if (rc == NM_OK) { *val = GUINT16_FROM_LE(*val); } return rc; } NMERR_T nm_write_fields(NMConn * conn, NMField * fields) { NMERR_T rc = NM_OK; NMField *field; char *value = NULL; char *method = NULL; char buffer[4096]; int ret; int bytes_to_send; int val = 0; if (conn == NULL || fields == NULL) { return NMERR_BAD_PARM; } /* Format each field as valid "post" data and write it out */ for (field = fields; (rc == NM_OK) && (field->tag); field++) { /* We don't currently handle binary types */ if (field->method == NMFIELD_METHOD_IGNORE || field->type == NMFIELD_TYPE_BINARY) { continue; } /* Write the field tag */ bytes_to_send = g_snprintf(buffer, sizeof(buffer), "&tag=%s", field->tag); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } /* Write the field method */ if (rc == NM_OK) { method = encode_method(field->method); bytes_to_send = g_snprintf(buffer, sizeof(buffer), "&cmd=%s", method); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } } /* Write the field value */ if (rc == NM_OK) { switch (field->type) { case NMFIELD_TYPE_UTF8: case NMFIELD_TYPE_DN: value = url_escape_string((char *) field->ptr_value); bytes_to_send = g_snprintf(buffer, sizeof(buffer), "&val=%s", value); if (bytes_to_send > (int)sizeof(buffer)) { ret = nm_tcp_write(conn, buffer, sizeof(buffer)); } else { ret = nm_tcp_write(conn, buffer, bytes_to_send); } if (ret < 0) { rc = NMERR_TCP_WRITE; } g_free(value); break; case NMFIELD_TYPE_ARRAY: case NMFIELD_TYPE_MV: val = nm_count_fields((NMField *) field->ptr_value); bytes_to_send = g_snprintf(buffer, sizeof(buffer), "&val=%u", val); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } break; default: bytes_to_send = g_snprintf(buffer, sizeof(buffer), "&val=%u", field->value); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } break; } } /* Write the field type */ if (rc == NM_OK) { bytes_to_send = g_snprintf(buffer, sizeof(buffer), "&type=%u", field->type); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } } /* If the field is a sub array then post its fields */ if (rc == NM_OK && val > 0) { if (field->type == NMFIELD_TYPE_ARRAY || field->type == NMFIELD_TYPE_MV) { rc = nm_write_fields(conn, (NMField *) field->ptr_value); } } } return rc; } NMERR_T nm_send_request(NMConn *conn, char *cmd, NMField *fields, nm_response_cb cb, gpointer data, NMRequest **request) { NMERR_T rc = NM_OK; char buffer[512]; int bytes_to_send; int ret; NMField *request_fields = NULL; char *str = NULL; if (conn == NULL || cmd == NULL) return NMERR_BAD_PARM; /* Write the post */ bytes_to_send = g_snprintf(buffer, sizeof(buffer), "POST /%s HTTP/1.0\r\n", cmd); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } /* Write headers */ if (rc == NM_OK) { if (strcmp("login", cmd) == 0) { bytes_to_send = g_snprintf(buffer, sizeof(buffer), "Host: %s:%d\r\n\r\n", conn->addr, conn->port); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } } else { bytes_to_send = g_snprintf(buffer, sizeof(buffer), "\r\n"); ret = nm_tcp_write(conn, buffer, bytes_to_send); if (ret < 0) { rc = NMERR_TCP_WRITE; } } } /* Add the transaction id to the request fields */ if (rc == NM_OK) { if (fields) request_fields = nm_copy_field_array(fields); str = g_strdup_printf("%d", ++(conn->trans_id)); request_fields = nm_field_add_pointer(request_fields, NM_A_SZ_TRANSACTION_ID, 0, NMFIELD_METHOD_VALID, 0, str, NMFIELD_TYPE_UTF8); } /* Send the request to the server */ if (rc == NM_OK) { rc = nm_write_fields(conn, request_fields); } /* Write the CRLF to terminate the data */ if (rc == NM_OK) { ret = nm_tcp_write(conn, "\r\n", strlen("\r\n")); if (ret < 0) { rc = NMERR_TCP_WRITE; } } /* Create a request struct, add it to our queue, and return it */ if (rc == NM_OK) { NMRequest *new_request = nm_create_request(cmd, conn->trans_id, time(0), cb, NULL, data); nm_conn_add_request_item(conn, new_request); /* Set the out param if it was sent in, otherwise release the request */ if (request) *request = new_request; else nm_release_request(new_request); } if (request_fields != NULL) nm_free_fields(&request_fields); return rc; } NMERR_T nm_read_header(NMConn * conn) { NMERR_T rc = NM_OK; char buffer[512]; char *ptr = NULL; int i; char rtn_buf[8]; int rtn_code = 0; if (conn == NULL) return NMERR_BAD_PARM; *buffer = '\0'; rc = read_line(conn, buffer, sizeof(buffer)); if (rc == NM_OK) { /* Find the return code */ ptr = strchr(buffer, ' '); if (ptr != NULL) { ptr++; i = 0; while (isdigit(*ptr) && (i < 3)) { rtn_buf[i] = *ptr; i++; ptr++; } rtn_buf[i] = '\0'; if (i > 0) rtn_code = atoi(rtn_buf); } } /* Finish reading header, in the future we might want to do more processing here */ /* TODO: handle more general redirects in the future */ while ((rc == NM_OK) && (strcmp(buffer, "\r\n") != 0)) { rc = read_line(conn, buffer, sizeof(buffer)); } if (rc == NM_OK && rtn_code == 301) rc = NMERR_SERVER_REDIRECT; return rc; } NMERR_T nm_read_fields(NMConn * conn, int count, NMField ** fields) { NMERR_T rc = NM_OK; guint8 type; guint8 method; guint32 val; char tag[64]; NMField *sub_fields = NULL; char *str = NULL; if (conn == NULL || fields == NULL) return NMERR_BAD_PARM; do { if (count > 0) { count--; } /* Read the field type, method, and tag */ rc = nm_read_all(conn, (char *)&type, sizeof(type)); if (rc != NM_OK || type == 0) break; rc = nm_read_all(conn, (char *)&method, sizeof(method)); if (rc != NM_OK) break; rc = nm_read_uint32(conn, &val); if (rc != NM_OK) break; if (val > sizeof(tag)) { rc = NMERR_PROTOCOL; break; } rc = nm_read_all(conn, tag, val); if (rc != NM_OK) break; if (type == NMFIELD_TYPE_MV || type == NMFIELD_TYPE_ARRAY) { /* Read the subarray (first read the number of items in the array) */ rc = nm_read_uint32(conn, &val); if (rc != NM_OK) break; if (val > 0) { rc = nm_read_fields(conn, val, &sub_fields); if (rc != NM_OK) break; } *fields = nm_field_add_pointer(*fields, tag, 0, method, 0, sub_fields, type); sub_fields = NULL; } else if (type == NMFIELD_TYPE_UTF8 || type == NMFIELD_TYPE_DN) { /* Read the string (first read the length) */ rc = nm_read_uint32(conn, &val); if (rc != NM_OK) break; if (val >= NMFIELD_MAX_STR_LENGTH) { rc = NMERR_PROTOCOL; break; } if (val > 0) { str = g_new0(char, val + 1); rc = nm_read_all(conn, str, val); if (rc != NM_OK) break; *fields = nm_field_add_pointer(*fields, tag, 0, method, 0, str, type); str = NULL; } } else { /* Read the numerical value */ rc = nm_read_uint32(conn, &val); if (rc != NM_OK) break; *fields = nm_field_add_number(*fields, tag, 0, method, 0, val, type); } } while ((type != 0) && (count != 0)); if (str != NULL) { g_free(str); } if (sub_fields != NULL) { nm_free_fields(&sub_fields); } return rc; } void nm_conn_add_request_item(NMConn * conn, NMRequest * request) { if (conn == NULL || request == NULL) return; nm_request_add_ref(request); conn->requests = g_slist_append(conn->requests, request); } void nm_conn_remove_request_item(NMConn * conn, NMRequest * request) { if (conn == NULL || request == NULL) return; conn->requests = g_slist_remove(conn->requests, request); nm_release_request(request); } NMRequest * nm_conn_find_request(NMConn * conn, int trans_id) { NMRequest *req = NULL; GSList *itr = NULL; if (conn == NULL) return NULL; itr = conn->requests; while (itr) { req = (NMRequest *) itr->data; if (req != NULL && nm_request_get_trans_id(req) == trans_id) { return req; } itr = g_slist_next(itr); } return NULL; } const char * nm_conn_get_addr(NMConn * conn) { if (conn == NULL) return NULL; else return conn->addr; } int nm_conn_get_port(NMConn * conn) { if (conn == NULL) return -1; else return conn->port; }