/*
* Copyright (C) 2016 The Android Open Source Project
* Copyright (C) 2016 Mopria Alliance, Inc.
* Copyright (C) 2013 Hewlett-Packard Development Company, L.P.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "ipp_print.h"
#include <math.h>
#include "ipphelper.h"
#include "wprint_debug.h"
#include "plugins/media.h"
#define TAG "ipp_print"
static status_t _init(const ifc_print_job_t *this_p, const char *printer_address, int port,
const char *printer_uri, bool use_secure_uri);
static status_t _validate_job(const ifc_print_job_t *this_p, wprint_job_params_t *job_params);
static status_t _start_job(const ifc_print_job_t *this_p, const wprint_job_params_t *job_params);
static int _send_data(const ifc_print_job_t *this_p, const char *buffer, size_t length);
static status_t _end_job(const ifc_print_job_t *this_p);
static void _destroy(const ifc_print_job_t *this_p);
static const ifc_print_job_t _print_job_ifc = {
.init = _init, .validate_job = _validate_job, .start_job = _start_job,
.send_data = _send_data, .end_job = _end_job, .destroy = _destroy, .enable_timeout = NULL,
};
/*
* Struct for handling an ipp print job
*/
typedef struct {
http_t *http;
char printer_uri[1024];
char http_resource[1024];
http_status_t status;
ifc_print_job_t ifc;
const char *useragent;
} ipp_print_job_t;
/*
* Returns a print job handle for an ipp print job
*/
const ifc_print_job_t *ipp_get_print_ifc(const ifc_wprint_t *wprint_ifc) {
LOGD("ipp_get_print_ifc: Enter");
ipp_print_job_t *ipp_job = (ipp_print_job_t *) malloc(sizeof(ipp_print_job_t));
if (ipp_job == NULL) {
return NULL;
}
memset(ipp_job, 0, sizeof(ipp_print_job_t));
ipp_job->status = HTTP_CONTINUE;
memcpy(&ipp_job->ifc, &_print_job_ifc, sizeof(ifc_print_job_t));
return &ipp_job->ifc;
}
static status_t _init(const ifc_print_job_t *this_p, const char *printer_address, int port,
const char *printer_uri, bool use_secure_uri) {
LOGD("_init: Enter");
ipp_print_job_t *ipp_job;
const char *ipp_scheme;
if (this_p == NULL) {
return ERROR;
}
ipp_job = IMPL(ipp_print_job_t, ifc, this_p);
if (ipp_job->http != NULL) {
httpClose(ipp_job->http);
}
if ((printer_uri == NULL) || (strlen(printer_uri) == 0)) {
printer_uri = DEFAULT_IPP_URI_RESOURCE;
}
int ippPortNumber = ((port == IPP_PORT) ? ippPort() : port);
LOGD("Normal URI for %s:%d", printer_address, ippPortNumber);
ipp_scheme = (use_secure_uri) ? IPPS_PREFIX : IPP_PREFIX;
httpAssembleURIf(HTTP_URI_CODING_ALL, ipp_job->printer_uri, sizeof(ipp_job->printer_uri),
ipp_scheme, NULL, printer_address, ippPortNumber, printer_uri);
getResourceFromURI(ipp_job->printer_uri, ipp_job->http_resource, 1024);
if (use_secure_uri) {
ipp_job->http = httpConnectEncrypt(printer_address, ippPortNumber, HTTP_ENCRYPTION_ALWAYS);
// If ALWAYS doesn't work, fall back to REQUIRED
if (ipp_job->http == NULL) {
ipp_job->http = httpConnectEncrypt(printer_address, ippPortNumber, HTTP_ENCRYPT_REQUIRED);
}
} else {
ipp_job->http = httpConnectEncrypt(printer_address, ippPortNumber, HTTP_ENCRYPTION_IF_REQUESTED);
}
httpSetTimeout(ipp_job->http, DEFAULT_IPP_TIMEOUT, NULL, 0);
return OK;
}
static void _destroy(const ifc_print_job_t *this_p) {
LOGD("_destroy: Enter");
ipp_print_job_t *ipp_job;
if (this_p == NULL) {
return;
}
ipp_job = IMPL(ipp_print_job_t, ifc, this_p);
if (ipp_job->http != NULL) {
httpClose(ipp_job->http);
}
free(ipp_job);
}
/*
* Outputs width, height, and name for a given media size
*/
static void _get_pwg_media_size(media_size_t media_size, float *mediaWidth, float *mediaHeight,
const char **mediaSizeName) {
int i = 0;
for (i = 0; i < SUPPORTED_MEDIA_SIZE_COUNT; i++) {
if (media_size == SupportedMediaSizes[i].media_size) {
// Get the dimensions in 100 mm
if ((SupportedMediaSizes[i].WidthInMm == UNKNOWN_VALUE) ||
(SupportedMediaSizes[i].HeightInMm == UNKNOWN_VALUE)) {
*mediaWidth = floorf(_MI_TO_100MM(SupportedMediaSizes[i].WidthInInches));
*mediaHeight = floorf(_MI_TO_100MM(SupportedMediaSizes[i].HeightInInches));
} else {
*mediaWidth = SupportedMediaSizes[i].WidthInMm * 100;
*mediaHeight = SupportedMediaSizes[i].HeightInMm * 100;
}
*mediaSizeName = (char *) SupportedMediaSizes[i].PWGName;
LOGD("_get_pwg_media_size(): match found: %d, %s, width=%f, height=%f",
media_size, SupportedMediaSizes[i].PCL6Name, *mediaWidth, *mediaHeight);
break; // we found a match, so break out of loop
}
}
if (i == SUPPORTED_MEDIA_SIZE_COUNT) {
// media size not found, defaulting to letter
LOGD("_get_pwg_media_size(): media size, %d, NOT FOUND, setting to letter", media_size);
_get_pwg_media_size(US_LETTER, mediaWidth, mediaHeight, mediaSizeName);
}
}
/*
* Fills and returns an ipp request object with the given job parameters
*/
static ipp_t *_fill_job(int ipp_op, char *printer_uri, const wprint_job_params_t *job_params) {
LOGD("_fill_job: Enter");
ipp_t *request = NULL; // IPP request object
ipp_attribute_t *attrptr; // Attribute pointer
ipp_t *col[2];
int col_index = -1;
if (job_params == NULL) return NULL;
request = ippNewRequest(ipp_op);
if (request == NULL) {
return request;
}
if (set_ipp_version(request, printer_uri, NULL, IPP_VERSION_RESOLVED) != 0) {
ippDelete(request);
return NULL;
}
bool is_2_0_capable = job_params->ipp_2_0_supported;
bool is_ePCL_ipp_capable = job_params->epcl_ipp_supported;
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_URI, "printer-uri", NULL,
printer_uri);
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_NAME, "requesting-user-name", NULL,
job_params->job_originating_user_name);
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_NAME, "job-name", NULL, job_params->job_name);
// Fields for Document source application and source OS
bool is_doc_format_details_supported = (
job_params->accepts_app_name ||
job_params->accepts_app_version ||
job_params->accepts_os_name ||
job_params->accepts_os_version);
if (is_doc_format_details_supported) {
ipp_t *document_format_details = ippNew();
if (job_params->accepts_app_name) {
ippAddString(document_format_details, IPP_TAG_OPERATION, IPP_TAG_NAME,
"document-source-application-name", NULL, g_appName);
}
if (job_params->accepts_app_version) {
ippAddString(document_format_details, IPP_TAG_OPERATION, IPP_TAG_TEXT,
"document-source-application-version", NULL, g_appVersion);
}
if (job_params->accepts_os_name) {
ippAddString(document_format_details, IPP_TAG_OPERATION, IPP_TAG_NAME,
"document-source-os-name", NULL, g_osName);
}
if (job_params->accepts_os_version) {
char version[40];
sprintf(version, "%d", g_API_version);
ippAddString(document_format_details, IPP_TAG_OPERATION, IPP_TAG_TEXT,
"document-source-os-version", NULL, version);
}
ippAddCollection(request, IPP_TAG_OPERATION, "document-format-details",
document_format_details);
ippDelete(document_format_details);
}
LOGD("_fill_job: pcl_type(%d), print_format(%s)", job_params->pcl_type,
job_params->print_format);
if (strcmp(job_params->print_format, PRINT_FORMAT_PDF) == 0) {
if (is_2_0_capable) {
// document-format needs to be the very next attribute for some printers
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_MIMETYPE, "document-format", NULL,
PRINT_FORMAT_PDF);
LOGD("_fill_job: setting document-format: %s", PRINT_FORMAT_PDF);
} else {
// some earlier devices don't print pdfs when we send the other PRINT_FORMAT_PDF
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_MIMETYPE, "document-format", NULL,
(job_params->accepts_pclm ? PRINT_FORMAT_PCLM : PRINT_FORMAT_PDF));
LOGD("_fill_job: setting document-format: %s",
(job_params->accepts_pclm ? PRINT_FORMAT_PCLM : PRINT_FORMAT_PDF));
}
if (is_ePCL_ipp_capable) {
if (job_params->render_flags & RENDER_FLAG_AUTO_SCALE) {
ippAddBoolean(request, IPP_TAG_JOB, "pdf-fit-to-page", 1); // true
}
}
// Fix Orientation bug for PDF printers only.
if (job_params->render_flags & RENDER_FLAG_PORTRAIT_MODE) {
ippAddInteger(request, IPP_TAG_JOB, IPP_TAG_ENUM, "orientation-requested",
IPP_PRINT_ORIENTATION_PORTRAIT);
}
if (job_params->render_flags & RENDER_FLAG_LANDSCAPE_MODE) {
ippAddInteger(request, IPP_TAG_JOB, IPP_TAG_ENUM, "orientation-requested",
IPP_PRINT_ORIENTATION_LANDSCAPE);
}
} else {
switch (job_params->pcl_type) {
case PCLm:
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_MIMETYPE, "document-format", NULL,
PRINT_FORMAT_PCLM);
LOGD("_fill_job: setting document-format: %s", PRINT_FORMAT_PCLM);
if (is_ePCL_ipp_capable) {
ippAddResolution(request, IPP_TAG_JOB, "pclm-source-resolution",
IPP_RES_PER_INCH, job_params->pixel_units,
job_params->pixel_units);
}
break;
case PCLPWG:
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_MIMETYPE, "document-format", NULL,
PRINT_FORMAT_PWG);
LOGD("_fill_job: setting document-format: %s", PRINT_FORMAT_PWG);
break;
default:
LOGD("_fill_job: unrecognized pcl_type: %d", job_params->pcl_type);
ippAddString(request, IPP_TAG_OPERATION, IPP_TAG_MIMETYPE, "document-format", NULL,
PRINT_FORMAT_AUTO);
break;
}
if (is_ePCL_ipp_capable) {
ippAddBoolean(request, IPP_TAG_JOB, "margins-pre-applied", 1); // true
}
}
// Add copies support if required and allowed
if (job_params->copies_supported && (strcmp(job_params->print_format, PRINT_FORMAT_PDF) == 0)) {
ippAddInteger(request, IPP_TAG_JOB, IPP_TAG_INTEGER, "copies", job_params->num_copies);
}
// Add print quality if requested
if (job_params->print_quality) {
ippAddInteger(request, IPP_TAG_JOB, IPP_TAG_ENUM, "print-quality",
job_params->print_quality);
}
ippAddResolution(request, IPP_TAG_JOB, "printer-resolution", IPP_RES_PER_INCH,
job_params->pixel_units, job_params->pixel_units);
if (job_params->duplex == DUPLEX_MODE_BOOK) {
ippAddString(request, IPP_TAG_JOB, IPP_TAG_KEYWORD, IPP_SIDES_TAG, NULL,
IPP_SIDES_TWO_SIDED_LONG_EDGE);
} else if (job_params->duplex == DUPLEX_MODE_TABLET) {
ippAddString(request, IPP_TAG_JOB, IPP_TAG_KEYWORD, IPP_SIDES_TAG, NULL,
IPP_SIDES_TWO_SIDED_SHORT_EDGE);
} else {
ippAddString(request, IPP_TAG_JOB, IPP_TAG_KEYWORD, IPP_SIDES_TAG, NULL,
IPP_SIDES_ONE_SIDED);
}
if (job_params->color_space == COLOR_SPACE_MONO) {
ippAddString(request, IPP_TAG_JOB, IPP_TAG_KEYWORD, IPP_OUTPUT_MODE_TAG, NULL,
IPP_OUTPUT_MODE_MONO);
} else {
ippAddString(request, IPP_TAG_JOB, IPP_TAG_KEYWORD, IPP_OUTPUT_MODE_TAG, NULL,
IPP_OUTPUT_MODE_COLOR);
}
if (is_2_0_capable) {
// Not friendly to 1.1 devices.
if (job_params->media_tray != TRAY_SRC_AUTO_SELECT) {
if (job_params->media_tray == TRAY_SOURCE_PHOTO_TRAY) {
col[++col_index] = ippNew();
ippAddString(col[col_index], IPP_TAG_JOB, IPP_TAG_KEYWORD, "media-source", NULL,
"main-tray");
} else if (job_params->media_tray == TRAY_SOURCE_TRAY_1) {
col[++col_index] = ippNew();
ippAddString(col[col_index], IPP_TAG_JOB, IPP_TAG_KEYWORD, "media-source", NULL,
"main-tray");
}
}
// MEDIA-Type is IPP 2.0 only
// put margins in with media-type
// Client-Error-Attribute-Or-Values-Not-Supported
col[++col_index] = ippNew();
// set margins - if negative margins, set to full-bleed; otherwise set calculated values
if (job_params->borderless) {
LOGD("Setting Up BORDERLESS");
ippAddInteger(col[col_index], IPP_TAG_JOB, IPP_TAG_INTEGER, "media-bottom-margin", 0);
ippAddInteger(col[col_index], IPP_TAG_JOB, IPP_TAG_INTEGER, "media-top-margin", 0);
ippAddInteger(col[col_index], IPP_TAG_JOB, IPP_TAG_INTEGER, "media-left-margin", 0);
ippAddInteger(col[col_index], IPP_TAG_JOB, IPP_TAG_INTEGER, "media-right-margin", 0);
}
switch (job_params->media_type) {
case MEDIA_PHOTO_GLOSSY:
ippAddString(col[col_index], IPP_TAG_JOB, IPP_TAG_KEYWORD, "media-type", NULL,
"photographic-glossy");
break;
case MEDIA_PHOTO:
case MEDIA_ADVANCED_PHOTO:
case MEDIA_PHOTO_MATTE:
case MEDIA_PREMIUM_PHOTO:
case MEDIA_OTHER_PHOTO:
ippAddString(col[col_index], IPP_TAG_JOB, IPP_TAG_KEYWORD, "media-type", NULL,
"photographic");
break;
default:
ippAddString(col[col_index], IPP_TAG_JOB, IPP_TAG_KEYWORD, "media-type", NULL,
"stationery");
break;
}
float mediaWidth;
float mediaHeight;
const char *mediaSizeName = NULL;
_get_pwg_media_size(job_params->media_size, &mediaWidth, &mediaHeight, &mediaSizeName);
ipp_t *mediaSize = ippNew();
if ((job_params->media_size_name) && (mediaSizeName != NULL)) {
ippAddString(mediaSize, IPP_TAG_JOB, IPP_TAG_KEYWORD, "media-size-name", NULL,
mediaSizeName);
} else {
ippAddInteger(mediaSize, IPP_TAG_JOB, IPP_TAG_INTEGER, "x-dimension", (int) mediaWidth);
ippAddInteger(mediaSize, IPP_TAG_JOB, IPP_TAG_INTEGER, "y-dimension",
(int) mediaHeight);
}
ippAddCollection(col[col_index], IPP_TAG_JOB, "media-size", mediaSize);
// can either set media or media-col.
// if both sent, device should return client-error-bad-request
ippAddCollections(request, IPP_TAG_JOB, "media-col", col_index + 1, (const ipp_t **) col);
while (col_index >= 0) {
ippDelete(col[col_index--]);
}
} else {
ippAddString(request, IPP_TAG_JOB, IPP_TAG_KEYWORD, "media", NULL,
mapDFMediaToIPPKeyword(job_params->media_size));
}
LOGI("_fill_job (%d): request", ipp_op);
for (attrptr = ippFirstAttribute(request); attrptr; attrptr = ippNextAttribute(request)) {
print_attr(attrptr);
}
return request;
}
static status_t _validate_job(const ifc_print_job_t *this_p, wprint_job_params_t *job_params) {
LOGD("_validate_job: Enter");
status_t result = ERROR;
ipp_print_job_t *ipp_job;
ipp_t *response;
ipp_t *request = NULL;
ipp_status_t ipp_status;
LOGD("_validate_job: ** validatePrintJob: Entry");
do {
if (this_p == NULL) {
break;
}
if (job_params == NULL) {
break;
}
ipp_job = IMPL(ipp_print_job_t, ifc, this_p);
if (ipp_job->http == NULL) {
break;
}
ipp_job->useragent = NULL;
if ((job_params->useragent != NULL) && (strlen(job_params->useragent) > 0)) {
ipp_job->useragent = job_params->useragent;
}
request = _fill_job(IPP_VALIDATE_JOB, ipp_job->printer_uri, job_params);
if (ipp_job->useragent != NULL) {
httpSetDefaultField(ipp_job->http, HTTP_FIELD_USER_AGENT, ipp_job->useragent);
}
if ((response = ipp_doCupsRequest(ipp_job->http, request, ipp_job->http_resource,
ipp_job->printer_uri))
== NULL) {
ipp_status = cupsLastError();
LOGE("_validate_job: validatePrintJob: response is null: ipp_status %d %s",
ipp_status, ippErrorString(ipp_status));
} else {
ipp_status = cupsLastError();
LOGI("_validate_job: %s ipp_status %d %x received:", ippOpString(IPP_VALIDATE_JOB),
ipp_status, ipp_status);
ipp_attribute_t *attrptr;
for (attrptr = ippFirstAttribute(response); attrptr; attrptr = ippNextAttribute(
response)) {
print_attr(attrptr);
}
ippDelete(response);
}
LOGD("_validate_job : ipp_status: %d", ipp_status);
if (strncmp(ippErrorString(ipp_status), ippErrorString(IPP_OK),
strlen(ippErrorString(IPP_OK))) == 0) {
result = OK;
} else {
result = ERROR;
}
} while (0);
ippDelete(request);
LOGD("_validate_job: ** validate_job result: %d", result);
return result;
}
static status_t _start_job(const ifc_print_job_t *this_p, const wprint_job_params_t *job_params) {
LOGD("_start_job: Enter");
status_t result;
ipp_print_job_t *ipp_job;
ipp_t *request = NULL;
bool retry;
int failed_count = 0;
LOGD("_start_job entry");
do {
retry = false;
if (this_p == NULL) {
LOGE("_start_job; this_p == NULL");
continue;
}
ipp_job = IMPL(ipp_print_job_t, ifc, this_p);
ipp_job->useragent = NULL;
if ((job_params->useragent != NULL) && (strlen(job_params->useragent) > 0)) {
ipp_job->useragent = job_params->useragent;
}
request = _fill_job(IPP_PRINT_JOB, ipp_job->printer_uri, job_params);
if (request == NULL) {
continue;
}
if (ipp_job->useragent != NULL) {
httpSetDefaultField(ipp_job->http, HTTP_FIELD_USER_AGENT, ipp_job->useragent);
}
ipp_job->status = cupsSendRequest(ipp_job->http, request, ipp_job->http_resource, 0);
if (ipp_job->status != HTTP_CONTINUE) {
failed_count++;
if ((failed_count == 1) &&
((ipp_job->status == HTTP_ERROR) || (ipp_job->status >= HTTP_BAD_REQUEST))) {
retry = true;
LOGI("_start_job retry due to internal error");
// We will retry for one of these failures since we could have just
// lost our connection to the server and cups will not always attempt
// a reconnect for us.
ippDelete(request);
continue;
}
_cupsSetHTTPError(ipp_job->status);
}
ippDelete(request);
LOGI("_start_job httpPrint fd %d status %d ipp_status %d", ipp_job->http->fd,
ipp_job->status, cupsLastError());
result = ((ipp_job->status == HTTP_CONTINUE) ? OK : ERROR);
} while (retry);
return result;
}
static int _send_data(const ifc_print_job_t *this_p, const char *buffer, size_t length) {
ipp_print_job_t *ipp_job;
if (this_p == NULL) {
return ERROR;
}
ipp_job = IMPL(ipp_print_job_t, ifc, this_p);
if (ipp_job->http == NULL) {
return ERROR;
}
if (ipp_job->status != HTTP_CONTINUE) {
return ERROR;
}
if (length != 0) {
if (ipp_job->useragent != NULL) {
httpSetDefaultField(ipp_job->http, HTTP_FIELD_USER_AGENT, ipp_job->useragent);
}
ipp_job->status = cupsWriteRequestData(ipp_job->http, buffer, length);
}
return ((ipp_job->status == HTTP_CONTINUE) ? length : (int) ERROR);
}
static status_t _end_job(const ifc_print_job_t *this_p) {
LOGD("_end_job: Enter");
status_t result = ERROR;
ipp_t *response;
ipp_attribute_t *attrptr;
int op = IPP_PRINT_JOB;
ipp_print_job_t *ipp_job;
int job_id = -1;
char buffer[1024];
if (this_p == NULL) {
return result;
}
ipp_job = IMPL(ipp_print_job_t, ifc, this_p);
if (ipp_job->http == NULL) {
return result;
}
LOGD("_end_job: entry httpPrint %d", ipp_job->http->fd);
if (ipp_job->useragent != NULL) {
httpSetDefaultField(ipp_job->http, HTTP_FIELD_USER_AGENT, ipp_job->useragent);
}
ipp_job->status = cupsWriteRequestData(ipp_job->http, buffer, 0);
if (ipp_job->status != HTTP_CONTINUE) {
LOGE("Error: from cupsWriteRequestData http.fd %d: status %d",
ipp_job->http->fd, ipp_job->status);
} else {
result = OK;
LOGD("0 length Bytes sent, status %d", ipp_job->status);
response = cupsGetResponse(ipp_job->http, ipp_job->http_resource);
if ((attrptr = ippFindAttribute(response, "job-id", IPP_TAG_INTEGER)) == NULL) {
LOGE("sent cupsGetResponse %s job id is null; received", ippOpString(op));
} else {
job_id = ippGetInteger(attrptr, 0);
LOGI("sent cupsGetResponse %s job_id %d; received", ippOpString(op), job_id);
}
if (response != NULL) {
for (attrptr = ippFirstAttribute(response); attrptr; attrptr = ippNextAttribute(
response)) {
print_attr(attrptr);
if (strcmp(ippGetName(attrptr), "job-state-reasons") == 0) {
int i;
for (i = 0; i < ippGetCount(attrptr); i++) {
if (strcmp(ippGetString(attrptr, i, NULL), "job-canceled-at-device")
== 0) {
result = CANCELLED;
break;
}
}
}
}
ippDelete(response);
}
}
LOGD("_end_job: exit status %d job_id %d", ipp_job->status, job_id);
return result;
}