/*
- * Copyright (c) 2005 Zmanda, Inc. All Rights Reserved.
+ * Copyright (c) 2005-2008 Zmanda Inc. All Rights Reserved.
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License version 2.1 as
* along with this library; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*
- * Contact information: Zmanda Inc., 505 N Mathlida Ave, Suite 120
- * Sunnyvale, CA 94085, USA, or: http://www.zmanda.com
+ * Contact information: Zmanda Inc., 465 S Mathlida Ave, Suite 300
+ * Sunnyvale, CA 94086, USA, or: http://www.zmanda.com
*/
/* An S3 device uses Amazon's S3 service (http://www.amazon.com/s3) to store
#include "amanda.h"
#include "conffile.h"
#include "device.h"
-#include "s3-device.h"
+#include "s3.h"
#include <curl/curl.h>
#ifdef HAVE_OPENSSL_HMAC_H
# include <openssl/hmac.h>
# endif
#endif
+/*
+ * Type checking and casting macros
+ */
+#define TYPE_S3_DEVICE (s3_device_get_type())
+#define S3_DEVICE(obj) G_TYPE_CHECK_INSTANCE_CAST((obj), s3_device_get_type(), S3Device)
+#define S3_DEVICE_CONST(obj) G_TYPE_CHECK_INSTANCE_CAST((obj), s3_device_get_type(), S3Device const)
+#define S3_DEVICE_CLASS(klass) G_TYPE_CHECK_CLASS_CAST((klass), s3_device_get_type(), S3DeviceClass)
+#define IS_S3_DEVICE(obj) G_TYPE_CHECK_INSTANCE_TYPE((obj), s3_device_get_type ())
+
+#define S3_DEVICE_GET_CLASS(obj) G_TYPE_INSTANCE_GET_CLASS((obj), s3_device_get_type(), S3DeviceClass)
+static GType s3_device_get_type (void);
+
+/*
+ * Main object structure
+ */
+typedef struct _S3MetadataFile S3MetadataFile;
+
+typedef struct _S3Device S3Device;
+struct _S3Device {
+ Device __parent__;
+
+ /* The "easy" curl handle we use to access Amazon S3 */
+ S3Handle *s3;
+
+ /* S3 access information */
+ char *bucket;
+ char *prefix;
+
+ /* The S3 access information. */
+ char *secret_key;
+ char *access_key;
+ char *user_token;
+ gboolean is_devpay;
+
+ char *bucket_location;
+
+ /* a cache for unsuccessful reads (where we get the file but the caller
+ * doesn't have space for it or doesn't want it), where we expect the
+ * next call will request the same file.
+ */
+ char *cached_buf;
+ char *cached_key;
+ int cached_size;
+
+ /* Produce verbose output? */
+ gboolean verbose;
+
+ /* Use SSL? */
+ gboolean use_ssl;
+};
+
+/*
+ * Class definition
+ */
+typedef struct _S3DeviceClass S3DeviceClass;
+struct _S3DeviceClass {
+ DeviceClass __parent__;
+};
+
+
/*
* Constants and static data
*/
+#define S3_DEVICE_NAME "s3"
+#define DEVPAY_DEVICE_NAME "s3zmanda"
+
/* Maximum key length as specified in the S3 documentation
* (*excluding* null terminator) */
#define S3_MAX_KEY_LENGTH 1024
+/* Note: for compatability, min can only be decreased and max increased */
#define S3_DEVICE_MIN_BLOCK_SIZE 1024
-#define S3_DEVICE_MAX_BLOCK_SIZE (10*1024*1024)
+#define S3_DEVICE_MAX_BLOCK_SIZE (100*1024*1024)
+#define S3_DEVICE_DEFAULT_BLOCK_SIZE (10*1024*1024)
/* This goes in lieu of file number for metadata. */
#define SPECIAL_INFIX "special-"
/* pointer to the class of our parent */
static DeviceClass *parent_class = NULL;
+/*
+ * device-specific properties
+ */
+
+/* Authentication information for Amazon S3. Both of these are strings. */
+static DevicePropertyBase device_property_s3_access_key;
+static DevicePropertyBase device_property_s3_secret_key;
+#define PROPERTY_S3_SECRET_KEY (device_property_s3_secret_key.ID)
+#define PROPERTY_S3_ACCESS_KEY (device_property_s3_access_key.ID)
+
+/* Same, but for S3 with DevPay. */
+static DevicePropertyBase device_property_s3_user_token;
+#define PROPERTY_S3_USER_TOKEN (device_property_s3_user_token.ID)
+
+/* Location constraint for new buckets created on Amazon S3. */
+static DevicePropertyBase device_property_s3_bucket_location;
+#define PROPERTY_S3_BUCKET_LOCATION (device_property_s3_bucket_location.ID)
+
+/* Whether to use SSL with Amazon S3. */
+static DevicePropertyBase device_property_s3_ssl;
+#define PROPERTY_S3_SSL (device_property_s3_ssl.ID)
+
+
/*
* prototypes
*/
+void s3_device_register(void);
+
/*
* utility functions */
delete_file(S3Device *self,
int file);
-/* Set up self->s3 as best as possible. Unless SILENT is TRUE,
- * any problems will generate warnings (with g_warning). Regardless,
- * the return value is TRUE iff self->s3 is useable.
+/* Set up self->s3 as best as possible.
+ *
+ * The return value is TRUE iff self->s3 is useable.
*
* @param self: the S3Device object
- * @param silent: silence warnings
* @returns: TRUE if the handle is set up
*/
static gboolean
-setup_handle(S3Device * self,
- gboolean ignore_problems);
+setup_handle(S3Device * self);
/*
* class mechanics */
s3_device_finalize(GObject * o);
static Device*
-s3_device_factory(char * device_type,
- char * device_name);
+s3_device_factory(char * device_name, char * device_type, char * device_node);
+
+/*
+ * Property{Get,Set}Fns */
+
+static gboolean s3_device_set_access_key_fn(Device *self,
+ DevicePropertyBase *base, GValue *val,
+ PropertySurety surety, PropertySource source);
+
+static gboolean s3_device_set_secret_key_fn(Device *self,
+ DevicePropertyBase *base, GValue *val,
+ PropertySurety surety, PropertySource source);
+
+static gboolean s3_device_set_user_token_fn(Device *self,
+ DevicePropertyBase *base, GValue *val,
+ PropertySurety surety, PropertySource source);
+
+static gboolean s3_device_set_bucket_location_fn(Device *self,
+ DevicePropertyBase *base, GValue *val,
+ PropertySurety surety, PropertySource source);
+
+static gboolean s3_device_set_verbose_fn(Device *self,
+ DevicePropertyBase *base, GValue *val,
+ PropertySurety surety, PropertySource source);
+
+static gboolean s3_device_set_ssl_fn(Device *self,
+ DevicePropertyBase *base, GValue *val,
+ PropertySurety surety, PropertySource source);
/*
* virtual functions */
-static gboolean
-s3_device_open_device(Device *pself,
- char *device_name);
+static void
+s3_device_open_device(Device *pself, char *device_name,
+ char * device_type, char * device_node);
-static ReadLabelStatusFlags s3_device_read_label(Device * self);
+static DeviceStatusFlags s3_device_read_label(Device * self);
static gboolean
s3_device_start(Device * self,
char * label,
char * timestamp);
+static gboolean
+s3_device_finish(Device * self);
+
static gboolean
s3_device_start_file(Device * self,
- const dumpfile_t * jobInfo);
+ dumpfile_t * jobInfo);
static gboolean
s3_device_write_block(Device * self,
guint size,
- gpointer data,
- gboolean last);
+ gpointer data);
static gboolean
s3_device_finish_file(Device * self);
s3_device_recycle_file(Device *pself,
guint file);
-static gboolean s3_device_property_set(Device * p_self, DevicePropertyId id,
- GValue * val);
-static gboolean s3_device_property_get(Device * p_self, DevicePropertyId id,
- GValue * val);
/*
* Private functions
*/
-/* {{{ file_and_block_to_key */
static char *
file_and_block_to_key(S3Device *self,
int file,
g_assert(strlen(s3_key) <= S3_MAX_KEY_LENGTH);
return s3_key;
}
-/* }}} */
-/* {{{ special_file_to_key */
static char *
special_file_to_key(S3Device *self,
char *special_name,
else
return g_strdup_printf("%sf%08x-%s", self->prefix, file, special_name);
}
-/* }}} */
-/* {{{ write_amanda_header */
static gboolean
write_amanda_header(S3Device *self,
char *label,
char * timestamp)
{
- char * amanda_header = NULL;
+ CurlBuffer amanda_header = {NULL, 0, 0, 0};
char * key = NULL;
- int header_size;
gboolean header_fits, result;
dumpfile_t * dumpinfo = NULL;
+ Device *d_self = DEVICE(self);
/* build the header */
dumpinfo = make_tapestart_header(DEVICE(self), label, timestamp);
- amanda_header = device_build_amanda_header(DEVICE(self), dumpinfo,
- &header_size, &header_fits);
+ amanda_header.buffer = device_build_amanda_header(DEVICE(self), dumpinfo,
+ /* casting guint* to int* */
+ (int*) &amanda_header.buffer_len, &header_fits);
if (!header_fits) {
- fprintf(stderr,
- _("Amanda tapestart header won't fit in a single block!\n"));
- g_free(amanda_header);
+ device_set_error(d_self,
+ stralloc(_("Amanda tapestart header won't fit in a single block!")),
+ DEVICE_STATUS_DEVICE_ERROR);
+ g_free(amanda_header.buffer);
return FALSE;
}
/* write out the header and flush the uploads. */
key = special_file_to_key(self, "tapestart", -1);
- result = s3_upload(self->s3, self->bucket, key, amanda_header, header_size);
- g_free(amanda_header);
+ result = s3_upload(self->s3, self->bucket, key, S3_BUFFER_READ_FUNCS,
+ &amanda_header, NULL, NULL);
+ g_free(amanda_header.buffer);
g_free(key);
if (!result) {
- fprintf(stderr, _("While writing amanda header: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(d_self,
+ vstrallocf(_("While writing amanda header: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
}
return result;
}
-/* }}} */
-/* {{{ seek_to_end */
static gboolean
seek_to_end(S3Device *self) {
int last_file;
return TRUE;
}
-/* }}} */
/* Convert an object name into a file number, assuming the given prefix
* length. Returns -1 if the object name is invalid, or 0 if the object name
int i;
/* skip the prefix */
- g_return_val_if_fail(strlen(key) > prefix_len, -1);
+ if (strlen(key) <= prefix_len)
+ return -1;
key += prefix_len;
}
/* check that key starts with 'f' */
- g_return_val_if_fail(key[0] == 'f', -1);
+ if (key[0] != 'f')
+ return -1;
key++;
/* check that key is of the form "%08x-" */
return file;
}
-/* {{{ find_last_file */
/* Find the number of the last file that contains any data (even just a header).
* Returns -1 in event of an error
*/
GSList *keys;
unsigned int prefix_len = strlen(self->prefix);
int last_file = 0;
+ Device *d_self = DEVICE(self);
/* list all keys matching C{PREFIX*-*}, stripping the C{-*} */
result = s3_list_keys(self->s3, self->bucket, self->prefix, "-", &keys);
if (!result) {
- fprintf(stderr, _("While listing S3 keys: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(d_self,
+ vstrallocf(_("While listing S3 keys: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
return -1;
}
return last_file;
}
-/* }}} */
-/* {{{ find_next_file */
/* Find the number of the file following the requested one, if any.
* Returns 0 if there is no such file or -1 in event of an error
*/
GSList *keys;
unsigned int prefix_len = strlen(self->prefix);
int next_file = 0;
+ Device *d_self = DEVICE(self);
/* list all keys matching C{PREFIX*-*}, stripping the C{-*} */
result = s3_list_keys(self->s3, self->bucket, self->prefix, "-", &keys);
if (!result) {
- fprintf(stderr, _("While listing S3 keys: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(d_self,
+ vstrallocf(_("While listing S3 keys: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
return -1;
}
return last_file;
}
-/* }}} */
-/* {{{ delete_file */
static gboolean
delete_file(S3Device *self,
int file)
gboolean result;
GSList *keys;
char *my_prefix = g_strdup_printf("%sf%08x-", self->prefix, file);
+ Device *d_self = DEVICE(self);
result = s3_list_keys(self->s3, self->bucket, my_prefix, NULL, &keys);
if (!result) {
- fprintf(stderr, _("While listing S3 keys: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(d_self,
+ vstrallocf(_("While listing S3 keys: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
return FALSE;
}
for (; keys; keys = g_slist_remove(keys, keys->data)) {
if (self->verbose) g_debug(_("Deleting %s"), (char*)keys->data);
if (!s3_delete(self->s3, self->bucket, keys->data)) {
- fprintf(stderr, _("While deleting key '%s': %s\n"),
- (char*)keys->data, s3_strerror(self->s3));
+ device_set_error(d_self,
+ vstrallocf(_("While deleting key '%s': %s"),
+ (char*)keys->data, s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR);
g_slist_free(keys);
return FALSE;
}
return TRUE;
}
-/* }}} */
/*
* Class mechanics
*/
-/* {{{ s3_device_register */
void
s3_device_register(void)
{
- static const char * device_prefix_list[] = { "s3", NULL };
+ static const char * device_prefix_list[] = { S3_DEVICE_NAME, DEVPAY_DEVICE_NAME, NULL };
g_assert(s3_init());
+
+ /* set up our properties */
+ device_property_fill_and_register(&device_property_s3_secret_key,
+ G_TYPE_STRING, "s3_secret_key",
+ "Secret access key to authenticate with Amazon S3");
+ device_property_fill_and_register(&device_property_s3_access_key,
+ G_TYPE_STRING, "s3_access_key",
+ "Access key ID to authenticate with Amazon S3");
+ device_property_fill_and_register(&device_property_s3_user_token,
+ G_TYPE_STRING, "s3_user_token",
+ "User token for authentication Amazon devpay requests");
+ device_property_fill_and_register(&device_property_s3_bucket_location,
+ G_TYPE_STRING, "s3_bucket_location",
+ "Location constraint for buckets on Amazon S3");
+ device_property_fill_and_register(&device_property_s3_ssl,
+ G_TYPE_BOOLEAN, "s3_ssl",
+ "Whether to use SSL with Amazon S3");
+
+
+ /* register the device itself */
register_device(s3_device_factory, device_prefix_list);
}
-/* }}} */
-/* {{{ s3_device_get_type */
-GType
+static GType
s3_device_get_type(void)
{
static GType type = 0;
return type;
}
-/* }}} */
-/* {{{ s3_device_init */
static void
s3_device_init(S3Device * self)
{
- Device * o;
- DeviceProperty prop;
+ Device * dself = DEVICE(self);
GValue response;
- self->initializing = TRUE;
-
- /* Register property values */
- o = (Device*)(self);
+ /* Register property values
+ * Note: Some aren't added until s3_device_open_device()
+ */
bzero(&response, sizeof(response));
- prop.base = &device_property_concurrency;
- prop.access = PROPERTY_ACCESS_GET_MASK;
g_value_init(&response, CONCURRENCY_PARADIGM_TYPE);
g_value_set_enum(&response, CONCURRENCY_PARADIGM_SHARED_READ);
- device_add_property(o, &prop, &response);
+ device_set_simple_property(dself, PROPERTY_CONCURRENCY,
+ &response, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DETECTED);
g_value_unset(&response);
-
- prop.base = &device_property_streaming;
+
g_value_init(&response, STREAMING_REQUIREMENT_TYPE);
g_value_set_enum(&response, STREAMING_REQUIREMENT_NONE);
- device_add_property(o, &prop, &response);
- g_value_unset(&response);
-
- prop.base = &device_property_block_size;
- g_value_init(&response, G_TYPE_INT);
- g_value_set_int(&response, -1); /* indicates a variable block size; see below */
- device_add_property(o, &prop, &response);
- g_value_unset(&response);
-
- prop.base = &device_property_min_block_size;
- g_value_init(&response, G_TYPE_UINT);
- g_value_set_uint(&response, S3_DEVICE_MIN_BLOCK_SIZE);
- device_add_property(o, &prop, &response);
-
- prop.base = &device_property_max_block_size;
- g_value_set_uint(&response, S3_DEVICE_MAX_BLOCK_SIZE);
- device_add_property(o, &prop, &response);
+ device_set_simple_property(dself, PROPERTY_STREAMING,
+ &response, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DETECTED);
g_value_unset(&response);
- prop.base = &device_property_appendable;
g_value_init(&response, G_TYPE_BOOLEAN);
g_value_set_boolean(&response, TRUE);
- device_add_property(o, &prop, &response);
+ device_set_simple_property(dself, PROPERTY_APPENDABLE,
+ &response, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DETECTED);
+ g_value_unset(&response);
- prop.base = &device_property_partial_deletion;
+ g_value_init(&response, G_TYPE_BOOLEAN);
g_value_set_boolean(&response, TRUE);
- device_add_property(o, &prop, &response);
+ device_set_simple_property(dself, PROPERTY_PARTIAL_DELETION,
+ &response, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DETECTED);
g_value_unset(&response);
- prop.base = &device_property_canonical_name;
- g_value_init(&response, G_TYPE_STRING);
- g_value_set_static_string(&response, "s3:");
- device_add_property(o, &prop, &response);
+ g_value_init(&response, G_TYPE_BOOLEAN);
+ g_value_set_boolean(&response, FALSE);
+ device_set_simple_property(dself, PROPERTY_COMPRESSION,
+ &response, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DETECTED);
g_value_unset(&response);
- prop.base = &device_property_medium_access_type;
g_value_init(&response, MEDIA_ACCESS_MODE_TYPE);
g_value_set_enum(&response, MEDIA_ACCESS_MODE_READ_WRITE);
- device_add_property(o, &prop, &response);
+ device_set_simple_property(dself, PROPERTY_MEDIUM_ACCESS_TYPE,
+ &response, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DETECTED);
g_value_unset(&response);
-
- prop.access = PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START;
- prop.base = &device_property_s3_secret_key;
- device_add_property(o, &prop, NULL);
- prop.base = &device_property_s3_access_key;
- device_add_property(o, &prop, NULL);
-#ifdef WANT_DEVPAY
- prop.base = &device_property_s3_user_token;
- device_add_property(o, &prop, NULL);
-#endif
+
}
-/* }}} */
-/* {{{ s3_device_class_init */
static void
s3_device_class_init(S3DeviceClass * c G_GNUC_UNUSED)
{
device_class->open_device = s3_device_open_device;
device_class->read_label = s3_device_read_label;
device_class->start = s3_device_start;
+ device_class->finish = s3_device_finish;
device_class->start_file = s3_device_start_file;
device_class->write_block = s3_device_write_block;
device_class->read_block = s3_device_read_block;
device_class->recycle_file = s3_device_recycle_file;
- device_class->property_set = s3_device_property_set;
- device_class->property_get = s3_device_property_get;
-
g_object_class->finalize = s3_device_finalize;
+
+ device_class_register_property(device_class, PROPERTY_S3_ACCESS_KEY,
+ PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START,
+ device_simple_property_get_fn,
+ s3_device_set_access_key_fn);
+
+ device_class_register_property(device_class, PROPERTY_S3_SECRET_KEY,
+ PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START,
+ device_simple_property_get_fn,
+ s3_device_set_secret_key_fn);
+
+ device_class_register_property(device_class, PROPERTY_S3_USER_TOKEN,
+ PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START,
+ device_simple_property_get_fn,
+ s3_device_set_user_token_fn);
+
+ device_class_register_property(device_class, PROPERTY_S3_BUCKET_LOCATION,
+ PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START,
+ device_simple_property_get_fn,
+ s3_device_set_bucket_location_fn);
+
+ device_class_register_property(device_class, PROPERTY_VERBOSE,
+ PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START,
+ device_simple_property_get_fn,
+ s3_device_set_verbose_fn);
+
+ device_class_register_property(device_class, PROPERTY_S3_SSL,
+ PROPERTY_ACCESS_GET_MASK | PROPERTY_ACCESS_SET_BEFORE_START,
+ device_simple_property_get_fn,
+ s3_device_set_ssl_fn);
+
+ device_class_register_property(device_class, PROPERTY_COMPRESSION,
+ PROPERTY_ACCESS_GET_MASK,
+ device_simple_property_get_fn,
+ NULL);
+}
+
+static gboolean
+s3_device_set_access_key_fn(Device *p_self, DevicePropertyBase *base,
+ GValue *val, PropertySurety surety, PropertySource source)
+{
+ S3Device *self = S3_DEVICE(p_self);
+
+ amfree(self->access_key);
+ self->access_key = g_value_dup_string(val);
+ device_clear_volume_details(p_self);
+
+ return device_simple_property_set_fn(p_self, base, val, surety, source);
+}
+
+static gboolean
+s3_device_set_secret_key_fn(Device *p_self, DevicePropertyBase *base,
+ GValue *val, PropertySurety surety, PropertySource source)
+{
+ S3Device *self = S3_DEVICE(p_self);
+
+ amfree(self->secret_key);
+ self->secret_key = g_value_dup_string(val);
+ device_clear_volume_details(p_self);
+
+ return device_simple_property_set_fn(p_self, base, val, surety, source);
+}
+
+static gboolean
+s3_device_set_user_token_fn(Device *p_self, DevicePropertyBase *base,
+ GValue *val, PropertySurety surety, PropertySource source)
+{
+ S3Device *self = S3_DEVICE(p_self);
+
+ if (!self->is_devpay) {
+ device_set_error(p_self, stralloc(_(
+ "Can't set a user token unless DevPay is in use")),
+ DEVICE_STATUS_DEVICE_ERROR);
+ return FALSE;
+ }
+
+ amfree(self->user_token);
+ self->user_token = g_value_dup_string(val);
+ device_clear_volume_details(p_self);
+
+ return device_simple_property_set_fn(p_self, base, val, surety, source);
+}
+
+static gboolean
+s3_device_set_bucket_location_fn(Device *p_self, DevicePropertyBase *base,
+ GValue *val, PropertySurety surety, PropertySource source)
+{
+ S3Device *self = S3_DEVICE(p_self);
+
+ if (self->use_ssl && !s3_curl_location_compat()) {
+ device_set_error(p_self, stralloc(_(
+ "Location constraint given for Amazon S3 bucket, "
+ "but libcurl is too old support wildcard certificates.")),
+ DEVICE_STATUS_DEVICE_ERROR);
+ return FALSE;
+ }
+
+ if (!s3_bucket_location_compat(self->bucket)) {
+ device_set_error(p_self, g_strdup_printf(_(
+ "Location constraint given for Amazon S3 bucket, "
+ "but the bucket name (%s) is not usable as a subdomain."),
+ self->bucket),
+ DEVICE_STATUS_DEVICE_ERROR);
+ return FALSE;
+ }
+
+ amfree(self->bucket_location);
+ self->bucket_location = g_value_dup_string(val);
+ device_clear_volume_details(p_self);
+
+ return device_simple_property_set_fn(p_self, base, val, surety, source);
+}
+
+static gboolean
+s3_device_set_verbose_fn(Device *p_self, DevicePropertyBase *base,
+ GValue *val, PropertySurety surety, PropertySource source)
+{
+ S3Device *self = S3_DEVICE(p_self);
+
+ self->verbose = g_value_get_boolean(val);
+ /* Our S3 handle may not yet have been instantiated; if so, it will
+ * get the proper verbose setting when it is created */
+ if (self->s3)
+ s3_verbose(self->s3, self->verbose);
+
+ return device_simple_property_set_fn(p_self, base, val, surety, source);
+}
+
+static gboolean
+s3_device_set_ssl_fn(Device *p_self, DevicePropertyBase *base,
+ GValue *val, PropertySurety surety, PropertySource source)
+{
+ S3Device *self = S3_DEVICE(p_self);
+ gboolean new_val;
+
+ new_val = g_value_get_boolean(val);
+ /* Our S3 handle may not yet have been instantiated; if so, it will
+ * get the proper use_ssl setting when it is created */
+ if (self->s3 && !s3_use_ssl(self->s3, new_val)) {
+ device_set_error(p_self, g_strdup_printf(_(
+ "Error setting S3 SSL/TLS use "
+ "(tried to enable SSL/TLS for S3, but curl doesn't support it?)")),
+ DEVICE_STATUS_DEVICE_ERROR);
+ return FALSE;
+ }
+ self->use_ssl = new_val;
+
+ return device_simple_property_set_fn(p_self, base, val, surety, source);
}
-/* }}} */
-/* {{{ s3_device_factory */
static Device*
-s3_device_factory(char * device_type,
- char * device_name)
+s3_device_factory(char * device_name, char * device_type, char * device_node)
{
Device *rval;
S3Device * s3_rval;
- g_assert(0 == strcmp(device_type, "s3"));
+ g_assert(0 == strcmp(device_type, S3_DEVICE_NAME) ||
+ 0 == strcmp(device_type, DEVPAY_DEVICE_NAME));
rval = DEVICE(g_object_new(TYPE_S3_DEVICE, NULL));
s3_rval = (S3Device*)rval;
- if (!device_open_device(rval, device_name)) {
- g_object_unref(rval);
- return NULL;
- } else {
- s3_rval->initializing = FALSE;
- return rval;
- }
-
+ device_open_device(rval, device_name, device_type, device_node);
+ return rval;
}
-/* }}} */
/*
* Virtual function overrides
*/
-/* {{{ s3_device_open_device */
-static gboolean
-s3_device_open_device(Device *pself,
- char *device_name)
+static void
+s3_device_open_device(Device *pself, char *device_name,
+ char * device_type, char * device_node)
{
S3Device *self = S3_DEVICE(pself);
char * name_colon;
+ GValue tmp_value;
- g_return_val_if_fail(self != NULL, FALSE);
+ pself->min_block_size = S3_DEVICE_MIN_BLOCK_SIZE;
+ pself->max_block_size = S3_DEVICE_MAX_BLOCK_SIZE;
+ pself->block_size = S3_DEVICE_DEFAULT_BLOCK_SIZE;
/* Device name may be bucket/prefix, to support multiple volumes in a
* single bucket. */
- name_colon = index(device_name, '/');
+ name_colon = strchr(device_node, '/');
if (name_colon == NULL) {
- self->bucket = g_strdup(device_name);
+ self->bucket = g_strdup(device_node);
self->prefix = g_strdup("");
} else {
- self->bucket = g_strndup(device_name, name_colon - device_name);
+ self->bucket = g_strndup(device_node, name_colon - device_node);
self->prefix = g_strdup(name_colon + 1);
}
+ self->is_devpay = !strcmp(device_type, DEVPAY_DEVICE_NAME);
+
if (self->bucket == NULL || self->bucket[0] == '\0') {
- fprintf(stderr, _("Empty bucket name in device %s.\n"), device_name);
+ device_set_error(pself,
+ vstrallocf(_("Empty bucket name in device %s"), device_name),
+ DEVICE_STATUS_DEVICE_ERROR);
amfree(self->bucket);
amfree(self->prefix);
- return FALSE;
+ return;
}
g_debug(_("S3 driver using bucket '%s', prefix '%s'"), self->bucket, self->prefix);
- /* default value */
+ /* default values */
self->verbose = FALSE;
+ /* use SSL if available */
+ self->use_ssl = s3_curl_supports_ssl();
+ bzero(&tmp_value, sizeof(GValue));
+ g_value_init(&tmp_value, G_TYPE_BOOLEAN);
+ g_value_set_boolean(&tmp_value, self->use_ssl);
+ device_set_simple_property(pself, device_property_s3_ssl.ID,
+ &tmp_value, PROPERTY_SURETY_GOOD, PROPERTY_SOURCE_DEFAULT);
+
if (parent_class->open_device) {
- parent_class->open_device(pself, device_name);
+ parent_class->open_device(pself, device_name, device_type, device_node);
}
-
- return TRUE;
}
-/* }}} */
-/* {{{ s3_device_finalize */
static void s3_device_finalize(GObject * obj_self) {
S3Device *self = S3_DEVICE (obj_self);
if(self->s3) s3_free(self->s3);
if(self->bucket) g_free(self->bucket);
if(self->prefix) g_free(self->prefix);
+ if(self->access_key) g_free(self->access_key);
+ if(self->secret_key) g_free(self->secret_key);
+ if(self->user_token) g_free(self->user_token);
+ if(self->bucket_location) g_free(self->bucket_location);
}
-/* }}} */
-static gboolean setup_handle(S3Device * self, G_GNUC_UNUSED gboolean silent) {
+static gboolean setup_handle(S3Device * self) {
+ Device *d_self = DEVICE(self);
if (self->s3 == NULL) {
- if (self->access_key == NULL) {
- if (!silent) fprintf(stderr, _("No S3 access key specified\n"));
+
+ if (self->access_key == NULL || self->access_key[0] == '\0') {
+ device_set_error(d_self,
+ stralloc(_("No Amazon access key specified")),
+ DEVICE_STATUS_DEVICE_ERROR);
return FALSE;
}
- if (self->secret_key == NULL) {
- if (!silent) fprintf(stderr, _("No S3 secret key specified\n"));
+
+ if (self->secret_key == NULL || self->secret_key[0] == '\0') {
+ device_set_error(d_self,
+ stralloc(_("No Amazon secret key specified")),
+ DEVICE_STATUS_DEVICE_ERROR);
return FALSE;
}
-#ifdef WANT_DEVPAY
- if (self->user_token == NULL) {
- if (!silent) fprintf(stderr, _("No S3 user token specified\n"));
+
+ if (self->is_devpay && self->user_token == NULL) {
+ device_set_error(d_self,
+ stralloc(_("No Amazon user token specified")),
+ DEVICE_STATUS_DEVICE_ERROR);
return FALSE;
}
-#endif
- self->s3 = s3_open(self->access_key, self->secret_key
-#ifdef WANT_DEVPAY
- , self->user_token
-#endif
- );
+
+ self->s3 = s3_open(self->access_key, self->secret_key, self->user_token,
+ self->bucket_location);
if (self->s3 == NULL) {
- fprintf(stderr, "Internal error creating S3 handle.\n");
+ device_set_error(d_self,
+ stralloc(_("Internal error creating S3 handle")),
+ DEVICE_STATUS_DEVICE_ERROR);
return FALSE;
}
}
s3_verbose(self->s3, self->verbose);
+ if (!s3_use_ssl(self->s3, self->use_ssl)) {
+ device_set_error(d_self, g_strdup_printf(_(
+ "Error setting S3 SSL/TLS use "
+ "(tried to enable SSL/TLS for S3, but curl doesn't support it?)")),
+ DEVICE_STATUS_DEVICE_ERROR);
+ return FALSE;
+ }
+
return TRUE;
}
-/* {{{ s3_device_read_label */
-static ReadLabelStatusFlags
+static DeviceStatusFlags
s3_device_read_label(Device *pself) {
S3Device *self = S3_DEVICE(pself);
char *key;
- gpointer buf;
- guint buf_size;
- dumpfile_t amanda_header;
-
- if (!setup_handle(self, self->initializing))
- return READ_LABEL_STATUS_DEVICE_ERROR;
+ CurlBuffer buf = {NULL, 0, 0, S3_DEVICE_MAX_BLOCK_SIZE};
+ dumpfile_t *amanda_header;
+
+ /* note that this may be called from s3_device_start, when
+ * self->access_mode is not ACCESS_NULL */
+
+ amfree(pself->volume_label);
+ amfree(pself->volume_time);
+ amfree(pself->volume_header);
+
+ if (device_in_error(self)) return pself->status;
+
+ if (!setup_handle(self)) {
+ /* setup_handle already set our error message */
+ return pself->status;
+ }
key = special_file_to_key(self, "tapestart", -1);
- if (!s3_read(self->s3, self->bucket, key, &buf, &buf_size, S3_DEVICE_MAX_BLOCK_SIZE)) {
+ if (!s3_read(self->s3, self->bucket, key, S3_BUFFER_WRITE_FUNCS, &buf, NULL, NULL)) {
guint response_code;
s3_error_code_t s3_error_code;
s3_error(self->s3, NULL, &response_code, &s3_error_code, NULL, NULL, NULL);
if (response_code == 404 &&
(s3_error_code == S3_ERROR_NoSuchKey || s3_error_code == S3_ERROR_NoSuchBucket)) {
g_debug(_("Amanda header not found while reading tapestart header (this is expected for empty tapes)"));
- return READ_LABEL_STATUS_VOLUME_UNLABELED;
+ device_set_error(pself,
+ stralloc(_("Amanda header not found -- unlabeled volume?")),
+ DEVICE_STATUS_DEVICE_ERROR
+ | DEVICE_STATUS_VOLUME_ERROR
+ | DEVICE_STATUS_VOLUME_UNLABELED);
+ return pself->status;
}
/* otherwise, log it and return */
- fprintf(stderr, _("While trying to read tapestart header: %s\n"),
- s3_strerror(self->s3));
- return READ_LABEL_STATUS_DEVICE_ERROR;
+ device_set_error(pself,
+ vstrallocf(_("While trying to read tapestart header: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
+ return pself->status;
}
- g_assert(buf != NULL);
- fh_init(&amanda_header);
- parse_file_header(buf, &amanda_header, buf_size);
+ g_assert(buf.buffer != NULL);
+ amanda_header = g_new(dumpfile_t, 1);
+ parse_file_header(buf.buffer, amanda_header, buf.buffer_pos);
+ pself->volume_header = amanda_header;
- g_free(buf);
+ g_free(buf.buffer);
- if (amanda_header.type != F_TAPESTART) {
- fprintf(stderr, _("Invalid amanda header\n"));
- return READ_LABEL_STATUS_VOLUME_ERROR;
+ if (amanda_header->type != F_TAPESTART) {
+ device_set_error(pself, stralloc(_("Invalid amanda header")), DEVICE_STATUS_VOLUME_ERROR);
+ return pself->status;
}
- amfree(pself->volume_label);
- pself->volume_label = g_strdup(amanda_header.name);
- amfree(pself->volume_time);
- pself->volume_time = g_strdup(amanda_header.datestamp);
+ pself->volume_label = g_strdup(amanda_header->name);
+ pself->volume_time = g_strdup(amanda_header->datestamp);
+ /* pself->volume_header is already set */
- return READ_LABEL_STATUS_SUCCESS;
+ device_set_error(pself, NULL, DEVICE_STATUS_SUCCESS);
+
+ return pself->status;
}
-/* }}} */
-/* {{{ s3_device_start */
static gboolean
s3_device_start (Device * pself, DeviceAccessMode mode,
char * label, char * timestamp) {
int file, last_file;
self = S3_DEVICE(pself);
- g_return_val_if_fail (self != NULL, FALSE);
- if (!setup_handle(self, FALSE))
- return FALSE;
+ if (device_in_error(self)) return FALSE;
+
+ if (!setup_handle(self)) {
+ /* setup_handle already set our error message */
+ return FALSE;
+ }
+
+ pself->access_mode = mode;
+ pself->in_file = FALSE;
/* try creating the bucket, in case it doesn't exist */
if (mode != ACCESS_READ && !s3_make_bucket(self->s3, self->bucket)) {
* return FALSE */
if (response_code != 409 ||
s3_error_code != S3_ERROR_BucketAlreadyExists) {
- fprintf(stderr, _("While creating new S3 bucket: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(pself,
+ vstrallocf(_("While creating new S3 bucket: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR);
return FALSE;
}
}
- /* call up to the parent (Device) to set access_mode, volume_label,
- * and volume_time, either from the arguments (ACCESS_WRITE) or by
- * reading from the 0th file (otherwise)
- */
- if (parent_class->start)
- if (!parent_class->start((Device*)self, mode, label, timestamp))
- return FALSE;
-
/* take care of any dirty work for this mode */
switch (mode) {
case ACCESS_READ:
+ if (pself->volume_label == NULL && s3_device_read_label(pself) != DEVICE_STATUS_SUCCESS) {
+ /* s3_device_read_label already set our error message */
+ return FALSE;
+ }
break;
case ACCESS_WRITE:
last_file = find_last_file(self);
if (last_file < 0) return FALSE;
for (file = 0; file <= last_file; file++) {
- if (!delete_file(self, file)) return FALSE;
+ if (!delete_file(self, file))
+ /* delete_file already set our error message */
+ return FALSE;
}
/* write a new amanda header */
if (!write_amanda_header(self, label, timestamp)) {
return FALSE;
}
+
+ pself->volume_label = newstralloc(pself->volume_label, label);
+ pself->volume_time = newstralloc(pself->volume_time, timestamp);
+
+ /* unset the VOLUME_UNLABELED flag, if it was set */
+ device_set_error(pself, NULL, DEVICE_STATUS_SUCCESS);
break;
case ACCESS_APPEND:
+ if (pself->volume_label == NULL && s3_device_read_label(pself) != DEVICE_STATUS_SUCCESS) {
+ /* s3_device_read_label already set our error message */
+ return FALSE;
+ }
return seek_to_end(self);
break;
+
case ACCESS_NULL:
g_assert_not_reached();
}
- g_assert(pself->access_mode == mode);
-
return TRUE;
}
-/* }}} */
-
-static gboolean s3_device_property_get(Device * p_self, DevicePropertyId id,
- GValue * val) {
- S3Device * self;
- const DevicePropertyBase * base;
-
- self = S3_DEVICE(p_self);
- g_return_val_if_fail(self != NULL, FALSE);
-
- base = device_property_get_by_id(id);
- g_return_val_if_fail(self != NULL, FALSE);
-
- g_value_unset_init(val, base->type);
-
- if (id == PROPERTY_S3_SECRET_KEY) {
- if (self->secret_key != NULL) {
- g_value_set_string(val, self->secret_key);
- return TRUE;
- } else {
- return FALSE;
- }
- } else if (id == PROPERTY_S3_ACCESS_KEY) {
- if (self->access_key != NULL) {
- g_value_set_string(val, self->access_key);
- return TRUE;
- } else {
- return FALSE;
- }
- }
-#ifdef WANT_DEVPAY
- else if (id == PROPERTY_S3_USER_TOKEN) {
- if (self->user_token != NULL) {
- g_value_set_string(val, self->user_token);
- return TRUE;
- } else {
- return FALSE;
- }
- }
-#endif /* WANT_DEVPAY */
- else if (id == PROPERTY_VERBOSE) {
- g_value_set_boolean(val, self->verbose);
- return TRUE;
- } else {
- /* chain up */
- if (parent_class->property_get) {
- return (parent_class->property_get)(p_self, id, val);
- } else {
- return FALSE;
- }
- }
-
- g_assert_not_reached();
-}
-
-static gboolean s3_device_property_set(Device * p_self, DevicePropertyId id,
- GValue * val) {
- S3Device * self;
- const DevicePropertyBase * base;
-
- self = S3_DEVICE(p_self);
- g_return_val_if_fail(self != NULL, FALSE);
-
- base = device_property_get_by_id(id);
- g_return_val_if_fail(self != NULL, FALSE);
- g_return_val_if_fail(G_VALUE_HOLDS(val, base->type), FALSE);
+static gboolean
+s3_device_finish (Device * pself) {
+ if (device_in_error(pself)) return FALSE;
- if (id == PROPERTY_S3_SECRET_KEY) {
- if (p_self->access_mode != ACCESS_NULL)
- return FALSE;
- amfree(self->secret_key);
- self->secret_key = g_value_dup_string(val);
- device_clear_volume_details(p_self);
- return TRUE;
- } else if (id == PROPERTY_S3_ACCESS_KEY) {
- if (p_self->access_mode != ACCESS_NULL)
- return FALSE;
- amfree(self->access_key);
- self->access_key = g_value_dup_string(val);
- device_clear_volume_details(p_self);
- return TRUE;
- }
-#ifdef WANT_DEVPAY
- else if (id == PROPERTY_S3_USER_TOKEN) {
- if (p_self->access_mode != ACCESS_NULL)
- return FALSE;
- amfree(self->user_token);
- self->user_token = g_value_dup_string(val);
- device_clear_volume_details(p_self);
- return TRUE;
- }
-#endif /* WANT_DEVPAY */
- else if (id == PROPERTY_VERBOSE) {
- self->verbose = g_value_get_boolean(val);
- /* Our S3 handle may not yet have been instantiated; if so, it will
- * get the proper verbose setting when it is created */
- if (self->s3)
- s3_verbose(self->s3, self->verbose);
- return TRUE;
- } else {
- if (parent_class->property_set) {
- return (parent_class->property_set)(p_self, id, val);
- } else {
- return FALSE;
- }
- }
+ /* we're not in a file anymore */
+ pself->access_mode = ACCESS_NULL;
- g_assert_not_reached();
+ return TRUE;
}
/* functions for writing */
-/* {{{ s3_device_start_file */
static gboolean
-s3_device_start_file (Device *pself, const dumpfile_t *jobInfo) {
+s3_device_start_file (Device *pself, dumpfile_t *jobInfo) {
S3Device *self = S3_DEVICE(pself);
- char *amanda_header;
- int header_size;
+ CurlBuffer amanda_header = {NULL, 0, 0, 0};
gboolean header_fits, result;
char *key;
- g_return_val_if_fail (self != NULL, FALSE);
+ if (device_in_error(self)) return FALSE;
+
+ /* Set the blocksize to zero, since there's no header to skip (it's stored
+ * in a distinct file, rather than block zero) */
+ jobInfo->blocksize = 0;
/* Build the amanda header. */
- amanda_header = device_build_amanda_header(pself, jobInfo,
- &header_size, &header_fits);
- g_return_val_if_fail(amanda_header != NULL, FALSE);
- g_return_val_if_fail(header_fits, FALSE);
+ amanda_header.buffer = device_build_amanda_header(pself, jobInfo,
+ (int *) &amanda_header.buffer_len, &header_fits);
+ if (!header_fits) {
+ device_set_error(pself,
+ stralloc(_("Amanda file header won't fit in a single block!")),
+ DEVICE_STATUS_DEVICE_ERROR);
+ return FALSE;
+ }
/* set the file and block numbers correctly */
pself->file = (pself->file > 0)? pself->file+1 : 1;
/* write it out as a special block (not the 0th) */
key = special_file_to_key(self, "filestart", pself->file);
- result = s3_upload(self->s3, self->bucket, key, amanda_header, header_size);
- g_free(amanda_header);
+ result = s3_upload(self->s3, self->bucket, key, S3_BUFFER_READ_FUNCS,
+ &amanda_header, NULL, NULL);
+ g_free(amanda_header.buffer);
g_free(key);
if (!result) {
- fprintf(stderr, _("While writing filestart header: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(pself,
+ vstrallocf(_("While writing filestart header: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
return FALSE;
}
return TRUE;
}
-/* }}} */
-/* {{{ s3_device_write_block */
static gboolean
-s3_device_write_block (Device * pself, guint size, gpointer data,
- gboolean last_block) {
+s3_device_write_block (Device * pself, guint size, gpointer data) {
gboolean result;
char *filename;
- S3Device * self = S3_DEVICE(pself);;
+ S3Device * self = S3_DEVICE(pself);
+ CurlBuffer to_write = {data, size, 0, 0};
g_assert (self != NULL);
g_assert (data != NULL);
+ if (device_in_error(self)) return FALSE;
filename = file_and_block_to_key(self, pself->file, pself->block);
- result = s3_upload(self->s3, self->bucket, filename, data, size);
+ result = s3_upload(self->s3, self->bucket, filename, S3_BUFFER_READ_FUNCS,
+ &to_write, NULL, NULL);
g_free(filename);
if (!result) {
- fprintf(stderr, _("While writing data block to S3: %s\n"),
- s3_strerror(self->s3));
+ device_set_error(pself,
+ vstrallocf(_("While writing data block to S3: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_DEVICE_ERROR | DEVICE_STATUS_VOLUME_ERROR);
return FALSE;
}
pself->block++;
- /* if this is the last block, finish the file */
- if (last_block) {
- return s3_device_finish_file(pself);
- }
-
return TRUE;
}
-/* }}} */
-/* {{{ s3_device_finish_file */
static gboolean
s3_device_finish_file (Device * pself) {
+ if (device_in_error(pself)) return FALSE;
+
/* we're not in a file anymore */
pself->in_file = FALSE;
return TRUE;
}
-/* }}} */
-/* {{{ s3_device_recycle_file */
static gboolean
s3_device_recycle_file(Device *pself, guint file) {
S3Device *self = S3_DEVICE(pself);
+ if (device_in_error(self)) return FALSE;
return delete_file(self, file);
+ /* delete_file already set our error message if necessary */
}
-/* }}} */
/* functions for reading */
-/* {{{ s3_device_seek_file */
static dumpfile_t*
s3_device_seek_file(Device *pself, guint file) {
S3Device *self = S3_DEVICE(pself);
gboolean result;
char *key;
- gpointer buf;
- guint buf_size;
+ CurlBuffer buf = {NULL, 0, 0, S3_DEVICE_MAX_BLOCK_SIZE};
dumpfile_t *amanda_header;
+ const char *errmsg = NULL;
+
+ if (device_in_error(self)) return NULL;
pself->file = file;
+ pself->is_eof = FALSE;
+ pself->in_file = FALSE;
pself->block = 0;
- pself->in_file = TRUE;
/* read it in */
key = special_file_to_key(self, "filestart", pself->file);
- result = s3_read(self->s3, self->bucket, key, &buf, &buf_size, S3_DEVICE_MAX_BLOCK_SIZE);
+ result = s3_read(self->s3, self->bucket, key, S3_BUFFER_WRITE_FUNCS,
+ &buf, NULL, NULL);
g_free(key);
if (!result) {
guint response_code;
s3_error_code_t s3_error_code;
- s3_error(self->s3, NULL, &response_code, &s3_error_code, NULL, NULL, NULL);
+ s3_error(self->s3, &errmsg, &response_code, &s3_error_code, NULL, NULL, NULL);
/* if it's an expected error (not found), check what to do. */
if (response_code == 404 && s3_error_code == S3_ERROR_NoSuchKey) {
int next_file;
- pself->file = -1;
- pself->in_file = FALSE;
next_file = find_next_file(self, pself->file);
if (next_file > 0) {
/* Note short-circut of dispatcher. */
} else if (next_file == 0) {
/* No next file. Check if we are one past the end. */
key = special_file_to_key(self, "filestart", pself->file - 1);
- result = s3_read(self->s3, self->bucket, key, &buf, &buf_size,
- S3_DEVICE_MAX_BLOCK_SIZE);
+ result = s3_read(self->s3, self->bucket, key,
+ S3_BUFFER_WRITE_FUNCS, &buf, NULL, NULL);
g_free(key);
if (result) {
+ /* pself->file, etc. are already correct */
return make_tapeend_header();
} else {
+ device_set_error(pself,
+ stralloc(_("Attempt to read past tape-end file")),
+ DEVICE_STATUS_SUCCESS);
return NULL;
}
}
} else {
- /* An error occured finding out if we are the last file. */
+ /* An unexpected error occured finding out if we are the last file. */
+ device_set_error(pself,
+ stralloc(errmsg),
+ DEVICE_STATUS_DEVICE_ERROR);
return NULL;
}
}
/* and make a dumpfile_t out of it */
- g_assert(buf != NULL);
+ g_assert(buf.buffer != NULL);
amanda_header = g_new(dumpfile_t, 1);
fh_init(amanda_header);
- parse_file_header(buf, amanda_header, buf_size);
- g_free(buf);
+ parse_file_header(buf.buffer, amanda_header, buf.buffer_pos);
+ g_free(buf.buffer);
switch (amanda_header->type) {
case F_DUMPFILE:
case F_CONT_DUMPFILE:
case F_SPLIT_DUMPFILE:
- return amanda_header;
+ break;
default:
- fprintf(stderr,
- _("Invalid amanda header while reading file header\n"));
+ device_set_error(pself,
+ stralloc(_("Invalid amanda header while reading file header")),
+ DEVICE_STATUS_VOLUME_ERROR);
g_free(amanda_header);
return NULL;
}
+
+ pself->in_file = TRUE;
+ return amanda_header;
}
-/* }}} */
-/* {{{ s3_device_seek_block */
static gboolean
s3_device_seek_block(Device *pself, guint64 block) {
+ if (device_in_error(pself)) return FALSE;
+
pself->block = block;
return TRUE;
}
-/* }}} */
-/* {{{ s3_device_read_block */
+typedef struct s3_read_block_data {
+ gpointer data;
+ int size_req;
+ int size_written;
+
+ CurlBuffer curl;
+} s3_read_block_data;
+
+/* wrapper around s3_buffer_write_func to write as much data as possible to
+ * the user's buffer, and switch to a dynamically allocated buffer if that
+ * isn't large enough */
+static size_t
+s3_read_block_write_func(void *ptr, size_t size, size_t nmemb, void *stream)
+{
+ s3_read_block_data *dat = stream;
+ guint new_bytes, bytes_needed;
+
+ /* if data is NULL, call through to s3_buffer_write_func */
+ if (!dat->data) {
+ return s3_buffer_write_func(ptr, size, nmemb, (void *)(&dat->curl));
+ }
+
+ new_bytes = (guint) size * nmemb;
+ bytes_needed = dat->size_written + new_bytes;
+
+ if (bytes_needed > (guint)dat->size_written) {
+ /* this read will overflow the user's buffer, so malloc ourselves
+ * a new buffer and keep reading */
+ dat->curl.buffer = g_malloc(bytes_needed);
+ dat->curl.buffer_len = bytes_needed;
+ dat->curl.buffer_pos = dat->size_written;
+ memcpy(dat->curl.buffer, dat->data, dat->size_written);
+ dat->data = NULL; /* signal that the user's buffer is too small */
+ return s3_buffer_write_func(ptr, size, nmemb, (void *)(&dat->curl));
+ }
+
+ memcpy(dat->data + dat->size_written, ptr, bytes_needed);
+ return new_bytes;
+}
+
static int
s3_device_read_block (Device * pself, gpointer data, int *size_req) {
S3Device * self = S3_DEVICE(pself);
char *key;
- gpointer buf;
+ s3_read_block_data dat = {NULL, 0, 0, { NULL, 0, 0, S3_DEVICE_MAX_BLOCK_SIZE} };
gboolean result;
- guint buf_size;
g_assert (self != NULL);
+ if (device_in_error(self)) return -1;
/* get the file*/
key = file_and_block_to_key(self, pself->file, pself->block);
g_assert(key != NULL);
if (self->cached_key && (0 == strcmp(key, self->cached_key))) {
- /* use the cached copy and clear the cache */
- buf = self->cached_buf;
- buf_size = self->cached_size;
+ if (*size_req >= self->cached_size) {
+ /* use the cached copy and clear the cache */
+ memcpy(data, self->cached_buf, self->cached_size);
+ *size_req = self->cached_size;
+
+ g_free(key);
+ g_free(self->cached_key);
+ self->cached_key = NULL;
+ g_free(self->cached_buf);
+ self->cached_buf = NULL;
+
+ pself->block++;
+ return *size_req;
+ } else {
+ *size_req = self->cached_size;
+ g_free(key);
+ return 0;
+ }
+ }
- self->cached_buf = NULL;
- g_free(self->cached_key);
- self->cached_key = NULL;
- } else {
- /* clear the cache and actually download the file */
- if (self->cached_buf) {
- g_free(self->cached_buf);
- self->cached_buf = NULL;
- }
- if (self->cached_key) {
- g_free(self->cached_key);
- self->cached_key = NULL;
- }
+ /* clear the cache, as it's useless to us */
+ if (self->cached_key) {
+ g_free(self->cached_key);
+ self->cached_key = NULL;
- result = s3_read(self->s3, self->bucket, key, &buf, &buf_size, S3_DEVICE_MAX_BLOCK_SIZE);
- if (!result) {
- guint response_code;
- s3_error_code_t s3_error_code;
- s3_error(self->s3, NULL, &response_code, &s3_error_code, NULL, NULL, NULL);
+ g_free(self->cached_buf);
+ self->cached_buf = NULL;
+ }
- g_free(key);
- key = NULL;
+ /* set up dat for the write_func callback */
+ if (!data || *size_req <= 0) {
+ dat.data = NULL;
+ dat.size_req = 0;
+ } else {
+ dat.data = data;
+ dat.size_req = *size_req;
+ }
- /* if it's an expected error (not found), just return -1 */
- if (response_code == 404 && s3_error_code == S3_ERROR_NoSuchKey) {
- pself->is_eof = TRUE;
- pself->in_file = FALSE;
- return -1;
- }
+ result = s3_read(self->s3, self->bucket, key, s3_read_block_write_func,
+ s3_buffer_reset_func, &dat, NULL, NULL);
+ if (!result) {
+ guint response_code;
+ s3_error_code_t s3_error_code;
+ s3_error(self->s3, NULL, &response_code, &s3_error_code, NULL, NULL, NULL);
+
+ g_free(key);
+ key = NULL;
+
+ /* if it's an expected error (not found), just return -1 */
+ if (response_code == 404 && s3_error_code == S3_ERROR_NoSuchKey) {
+ pself->is_eof = TRUE;
+ pself->in_file = FALSE;
+ device_set_error(pself,
+ stralloc(_("EOF")),
+ DEVICE_STATUS_SUCCESS);
+ return -1;
+ }
- /* otherwise, log it and return FALSE */
- fprintf(stderr, _("While reading data block from S3: %s\n"),
- s3_strerror(self->s3));
- return -1;
- }
+ /* otherwise, log it and return FALSE */
+ device_set_error(pself,
+ vstrallocf(_("While reading data block from S3: %s"), s3_strerror(self->s3)),
+ DEVICE_STATUS_VOLUME_ERROR);
+ return -1;
}
- /* INVARIANT: cache is NULL */
- g_assert(self->cached_buf == NULL);
- g_assert(self->cached_key == NULL);
-
- /* now see how the caller wants to deal with that */
- if (data == NULL || *size_req < 0 || buf_size > (guint)*size_req) {
- /* A size query or short buffer -- load the cache and return the size*/
- self->cached_buf = buf;
+ if (dat.data == NULL) {
+ /* data was larger than the available space, so cache it and return
+ * the actual size */
+ self->cached_buf = dat.curl.buffer;
+ self->cached_size = dat.curl.buffer_pos;
self->cached_key = key;
- self->cached_size = buf_size;
+ key = NULL;
- *size_req = buf_size;
+ *size_req = dat.curl.buffer_pos;
return 0;
- } else {
- /* ok, all checks are passed -- copy the data */
- *size_req = buf_size;
- g_memmove(data, buf, buf_size);
- g_free(key);
- g_free(buf);
-
- /* move on to the next block */
- pself->block++;
-
- return buf_size;
}
+
+ /* ok, the read went directly to the user's buffer, so we need only
+ * set and return the size */
+ pself->block++;
+ g_free(key);
+ *size_req = dat.size_req;
+ return dat.size_req;
}
-/* }}} */