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qpdf/libqpdf/QPDFJob_json.cc

579 lines
13 KiB
C++

#include <qpdf/QPDFJob.hh>
#include <qpdf/JSONHandler.hh>
#include <qpdf/QPDFUsage.hh>
#include <qpdf/QTC.hh>
#include <qpdf/QUtil.hh>
#include <cstring>
#include <memory>
#include <sstream>
#include <stdexcept>
static JSON JOB_SCHEMA = JSON::parse(QPDFJob::job_json_schema(1).c_str());
namespace
{
class Handlers
{
public:
Handlers(bool partial, std::shared_ptr<QPDFJob::Config> c_main);
void handle(JSON&);
private:
#include <qpdf/auto_job_json_decl.hh>
void usage(std::string const& message);
void initHandlers();
typedef std::function<void()> bare_handler_t;
typedef std::function<void(char const*)> param_handler_t;
typedef std::function<void(JSON)> json_handler_t;
// The code that calls these methods is automatically generated by generate_auto_job. This
// describes how we implement what it does. We keep a stack of handlers in json_handlers.
// The top of the stack is the "current" json handler, intially for the top-level object.
// Whenever we encounter a scalar, we add a handler using addBare, addParameter, or
// addChoices. Whenever we encounter a dictionary, we first add the dictionary handlers.
// Then we walk into the dictionary and, for each key, we register a dict key handler and
// push it to the stack, then do the same process for the key's value. Then we pop the key
// handler off the stack. When we encounter an array, we add the array handlers, push an
// item handler to the stack, call recursively for the array's single item (as this is what
// is expected in a schema), and pop the item handler. Note that we don't pop dictionary
// start/end handlers. The dictionary handlers and the key handlers are at the same level in
// JSONHandler. This logic is subtle and took several tries to get right. It's best
// understood by carefully understanding the behavior of JSONHandler, the JSON schema, and
// the code in generate_auto_job.
void addBare(bare_handler_t);
void addParameter(param_handler_t);
void addChoices(char const** choices, bool required, param_handler_t);
void pushKey(std::string const& key);
void beginDict(json_handler_t start_fn, bare_handler_t end_fn);
void beginArray(json_handler_t start_fn, bare_handler_t end_fn);
void ignoreItem();
void popHandler();
bare_handler_t bindBare(void (Handlers::*f)());
json_handler_t bindJSON(void (Handlers::*f)(JSON));
std::list<std::shared_ptr<JSONHandler>> json_handlers;
bool partial;
JSONHandler* jh{nullptr}; // points to last of json_handlers
std::shared_ptr<QPDFJob::Config> c_main;
std::shared_ptr<QPDFJob::CopyAttConfig> c_copy_att;
std::shared_ptr<QPDFJob::AttConfig> c_att;
std::shared_ptr<QPDFJob::PagesConfig> c_pages;
std::shared_ptr<QPDFJob::UOConfig> c_uo;
std::shared_ptr<QPDFJob::EncConfig> c_enc;
};
} // namespace
Handlers::Handlers(bool partial, std::shared_ptr<QPDFJob::Config> c_main) :
partial(partial),
c_main(c_main)
{
initHandlers();
}
void
Handlers::usage(std::string const& message)
{
throw QPDFUsage(message);
}
Handlers::bare_handler_t
Handlers::bindBare(void (Handlers::*f)())
{
return std::bind(std::mem_fn(f), this);
}
Handlers::json_handler_t
Handlers::bindJSON(void (Handlers::*f)(JSON))
{
return std::bind(std::mem_fn(f), this, std::placeholders::_1);
}
void
Handlers::initHandlers()
{
this->json_handlers.push_back(std::make_shared<JSONHandler>());
this->jh = this->json_handlers.back().get();
jh->addDictHandlers(
[](std::string const&, JSON) {},
[this](std::string const&) {
if (!this->partial) {
c_main->checkConfiguration();
}
});
#include <qpdf/auto_job_json_init.hh>
if (this->json_handlers.size() != 1) {
throw std::logic_error("QPDFJob_json: json_handlers size != 1 at end");
}
}
void
Handlers::addBare(bare_handler_t fn)
{
jh->addStringHandler([this, fn](std::string const& path, std::string const& parameter) {
if (!parameter.empty()) {
QTC::TC("qpdf", "QPDFJob json bare not empty");
usage(path + ": value must be the empty string");
} else {
fn();
}
});
}
void
Handlers::addParameter(param_handler_t fn)
{
jh->addStringHandler(
[fn](std::string const& path, std::string const& parameter) { fn(parameter.c_str()); });
}
void
Handlers::addChoices(char const** choices, bool required, param_handler_t fn)
{
jh->addStringHandler(
[fn, choices, required, this](std::string const& path, std::string const& parameter) {
char const* p = parameter.c_str();
bool matches = false;
if ((!required) && (parameter.empty())) {
matches = true;
}
if (!matches) {
for (char const** i = choices; *i; ++i) {
if (strcmp(*i, p) == 0) {
QTC::TC("qpdf", "QPDFJob json choice match");
matches = true;
break;
}
}
}
if (!matches) {
QTC::TC("qpdf", "QPDFJob json choice mismatch");
std::ostringstream msg;
msg << path + ": unexpected value; expected one of ";
bool first = true;
for (char const** i = choices; *i; ++i) {
if (first) {
first = false;
} else {
msg << ", ";
}
msg << *i;
}
usage(msg.str());
}
fn(parameter.c_str());
});
}
void
Handlers::pushKey(std::string const& key)
{
auto new_jh = std::make_shared<JSONHandler>();
this->jh->addDictKeyHandler(key, new_jh);
this->json_handlers.push_back(new_jh);
this->jh = new_jh.get();
}
void
Handlers::beginDict(json_handler_t start_fn, bare_handler_t end_fn)
{
jh->addDictHandlers(
[start_fn](std::string const&, JSON j) { start_fn(j); },
[end_fn](std::string const&) { end_fn(); });
}
void
Handlers::beginArray(json_handler_t start_fn, bare_handler_t end_fn)
{
auto item_jh = std::make_shared<JSONHandler>();
jh->addArrayHandlers(
[start_fn](std::string const&, JSON j) { start_fn(j); },
[end_fn](std::string const&) { end_fn(); },
item_jh);
this->json_handlers.push_back(item_jh);
this->jh = item_jh.get();
}
void
Handlers::ignoreItem()
{
jh->addAnyHandler([](std::string const&, JSON) {});
}
void
Handlers::popHandler()
{
this->json_handlers.pop_back();
this->jh = this->json_handlers.back().get();
}
void
Handlers::handle(JSON& j)
{
this->json_handlers.back()->handle(".", j);
}
void
Handlers::setupInputFile()
{
addParameter([this](char const* p) { c_main->inputFile(p); });
}
void
Handlers::setupPassword()
{
addParameter([this](char const* p) { c_main->password(p); });
}
void
Handlers::setupEmpty()
{
addBare([this]() { c_main->emptyInput(); });
}
void
Handlers::setupOutputFile()
{
addParameter([this](char const* p) { c_main->outputFile(p); });
}
void
Handlers::setupReplaceInput()
{
addBare([this]() { c_main->replaceInput(); });
}
void
Handlers::beginEncrypt(JSON j)
{
// This method is only called if the overall JSON structure matches the schema, so we already
// know that keys that are present have the right types.
int key_len = 0;
std::string user_password;
std::string owner_password;
bool user_password_seen = false;
bool owner_password_seen = false;
j.forEachDictItem([&](std::string const& key, JSON value) {
if ((key == "40bit") || (key == "128bit") || (key == "256bit")) {
if (key_len != 0) {
QTC::TC("qpdf", "QPDFJob json encrypt duplicate key length");
usage("exactly one of 40bit, 128bit, or 256bit must be given");
}
key_len = QUtil::string_to_int(key.c_str());
} else if (key == "userPassword") {
user_password_seen = value.getString(user_password);
} else if (key == "ownerPassword") {
owner_password_seen = value.getString(owner_password);
}
});
if (key_len == 0) {
QTC::TC("qpdf", "QPDFJob json encrypt no key length");
usage("exactly one of 40bit, 128bit, or 256bit must be given; an empty dictionary may be "
"supplied for one of them to set the key length without imposing any restrictions");
}
if (!(user_password_seen && owner_password_seen)) {
QTC::TC("qpdf", "QPDFJob json encrypt missing password");
usage("the user and owner password are both required; use the empty string for the user "
"password if you don't want a password");
}
this->c_enc = c_main->encrypt(key_len, user_password, owner_password);
}
void
Handlers::endEncrypt()
{
this->c_enc->endEncrypt();
this->c_enc = nullptr;
}
void
Handlers::setupEncryptUserPassword()
{
// handled in beginEncrypt
ignoreItem();
}
void
Handlers::setupEncryptOwnerPassword()
{
// handled in beginEncrypt
ignoreItem();
}
void
Handlers::beginEncrypt40bit(JSON)
{
// nothing needed
}
void
Handlers::endEncrypt40bit()
{
// nothing needed
}
void
Handlers::beginEncrypt128bit(JSON)
{
// nothing needed
}
void
Handlers::endEncrypt128bit()
{
// nothing needed
}
void
Handlers::beginEncrypt256bit(JSON)
{
// nothing needed
}
void
Handlers::endEncrypt256bit()
{
// nothing needed
}
void
Handlers::beginJsonKeyArray(JSON)
{
// nothing needed
}
void
Handlers::endJsonKeyArray()
{
// nothing needed
}
void
Handlers::beginJsonObjectArray(JSON)
{
// nothing needed
}
void
Handlers::endJsonObjectArray()
{
// nothing needed
}
void
Handlers::beginAddAttachmentArray(JSON)
{
// nothing needed
}
void
Handlers::endAddAttachmentArray()
{
// nothing needed
}
void
Handlers::beginAddAttachment(JSON)
{
this->c_att = c_main->addAttachment();
}
void
Handlers::endAddAttachment()
{
this->c_att->endAddAttachment();
this->c_att = nullptr;
}
void
Handlers::setupAddAttachmentFile()
{
addParameter([this](char const* p) { c_att->file(p); });
}
void
Handlers::beginRemoveAttachmentArray(JSON)
{
// nothing needed
}
void
Handlers::endRemoveAttachmentArray()
{
// nothing needed
}
void
Handlers::beginCopyAttachmentsFromArray(JSON)
{
// nothing needed
}
void
Handlers::endCopyAttachmentsFromArray()
{
// nothing needed
}
void
Handlers::beginCopyAttachmentsFrom(JSON)
{
this->c_copy_att = c_main->copyAttachmentsFrom();
}
void
Handlers::endCopyAttachmentsFrom()
{
this->c_copy_att->endCopyAttachmentsFrom();
this->c_copy_att = nullptr;
}
void
Handlers::setupCopyAttachmentsFromFile()
{
addParameter([this](char const* p) { c_copy_att->file(p); });
}
void
Handlers::setupCopyAttachmentsFromPassword()
{
addParameter([this](char const* p) { c_copy_att->password(p); });
}
void
Handlers::beginPagesArray(JSON)
{
this->c_pages = c_main->pages();
}
void
Handlers::endPagesArray()
{
c_pages->endPages();
c_pages = nullptr;
}
void
Handlers::beginPages(JSON j)
{
std::string file;
std::string range("1-z");
std::string password;
bool file_seen = false;
bool password_seen = false;
j.forEachDictItem([&](std::string const& key, JSON value) {
if (key == "file") {
file_seen = value.getString(file);
} else if (key == "range") {
value.getString(range);
} else if (key == "password") {
password_seen = value.getString(password);
}
});
if (!file_seen) {
QTC::TC("qpdf", "QPDFJob json pages no file");
usage("file is required in page specification");
}
this->c_pages->pageSpec(file, range, password_seen ? password.c_str() : nullptr);
}
void
Handlers::endPages()
{
// nothing needed
}
void
Handlers::setupPagesFile()
{
// handled in beginPages
ignoreItem();
}
void
Handlers::setupPagesPassword()
{
// handled in beginPages
ignoreItem();
}
void
Handlers::setupPagesRange()
{
// handled in beginPages
ignoreItem();
}
void
Handlers::beginOverlay(JSON)
{
this->c_uo = c_main->overlay();
}
void
Handlers::endOverlay()
{
c_uo->endUnderlayOverlay();
c_uo = nullptr;
}
void
Handlers::setupOverlayFile()
{
addParameter([this](char const* p) { c_uo->file(p); });
}
void
Handlers::setupOverlayPassword()
{
addParameter([this](char const* p) { c_uo->password(p); });
}
void
Handlers::beginUnderlay(JSON)
{
this->c_uo = c_main->underlay();
}
void
Handlers::endUnderlay()
{
c_uo->endUnderlayOverlay();
c_uo = nullptr;
}
void
Handlers::setupUnderlayFile()
{
addParameter([this](char const* p) { c_uo->file(p); });
}
void
Handlers::setupUnderlayPassword()
{
addParameter([this](char const* p) { c_uo->password(p); });
}
void
QPDFJob::initializeFromJson(std::string const& json, bool partial)
{
std::list<std::string> errors;
JSON j = JSON::parse(json);
if (!j.checkSchema(JOB_SCHEMA, JSON::f_optional, errors)) {
std::ostringstream msg;
msg << m->message_prefix << ": job json has errors:";
for (auto const& error: errors) {
msg << std::endl << " " << error;
}
throw std::runtime_error(msg.str());
}
Handlers(partial, config()).handle(j);
}