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-rw-r--r--doc/specs/Makefile.am27
-rw-r--r--doc/specs/Makefile.in804
-rw-r--r--doc/specs/draft-morgan-pam.raw764
-rw-r--r--doc/specs/parse_l.c1786
-rw-r--r--doc/specs/parse_l.l22
-rw-r--r--doc/specs/parse_y.c1790
-rw-r--r--doc/specs/parse_y.h89
-rw-r--r--doc/specs/parse_y.y297
-rw-r--r--doc/specs/rfc86.0.txt1845
-rw-r--r--doc/specs/std-agent-id.raw95
10 files changed, 7519 insertions, 0 deletions
diff --git a/doc/specs/Makefile.am b/doc/specs/Makefile.am
new file mode 100644
index 0000000..58e14b3
--- /dev/null
+++ b/doc/specs/Makefile.am
@@ -0,0 +1,27 @@
+#
+# Copyright (c) 2005, 2006, 2010 Thorsten Kukuk <kukuk@suse.de>
+#
+
+CLEANFILES = draft-morgan-pam-current.txt *~
+
+EXTRA_DIST = draft-morgan-pam.raw std-agent-id.raw rfc86.0.txt
+
+draft-morgan-pam-current.txt: padout draft-morgan-pam.raw
+ ./padout < $(srcdir)/draft-morgan-pam.raw > draft-morgan-pam-current.txt
+
+AM_YFLAGS = -d
+
+CC = @CC_FOR_BUILD@
+CPPFLAGS = @BUILD_CPPFLAGS@
+CFLAGS = @BUILD_CFLAGS@
+LDFLAGS = @BUILD_LDFLAGS@
+
+padout_CFLAGS = $(WARN_CFLAGS) -Wno-unused-function -Wno-sign-compare
+
+BUILT_SOURCES = parse_y.h
+
+noinst_PROGRAMS = padout
+
+padout_SOURCES = parse_l.l parse_y.y
+
+doc_DATA = draft-morgan-pam-current.txt rfc86.0.txt
diff --git a/doc/specs/Makefile.in b/doc/specs/Makefile.in
new file mode 100644
index 0000000..12bc068
--- /dev/null
+++ b/doc/specs/Makefile.in
@@ -0,0 +1,804 @@
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+
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+
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+# with or without modifications, as long as this notice is preserved.
+
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+# but WITHOUT ANY WARRANTY, to the extent permitted by law; without
+# even the implied warranty of MERCHANTABILITY or FITNESS FOR A
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+
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+draft-morgan-pam-current.txt: padout draft-morgan-pam.raw
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diff --git a/doc/specs/draft-morgan-pam.raw b/doc/specs/draft-morgan-pam.raw
new file mode 100644
index 0000000..8fdb050
--- /dev/null
+++ b/doc/specs/draft-morgan-pam.raw
@@ -0,0 +1,764 @@
+Open-PAM working group ## A.G. Morgan
+Internet Draft: ## Dec 8, 2001
+Document: draft-morgan-pam-08.txt ##
+Expires: June 8, 2002 ##
+Obsoletes: draft-morgan-pam-07.txt##
+
+## Pluggable Authentication Modules (PAM) ##
+
+#$ Status of this memo
+
+This document is a draft specification. Its contents are subject to
+change with revision. The latest version of this draft may be obtained
+from here:
+
+ http://www.kernel.org/pub/linux/libs/pam/pre/doc/
+
+As
+
+ Linux-PAM-'version'-docs.tar.gz
+
+It is also contained in the Linux-PAM tar ball.
+
+#$ Abstract
+
+This document is concerned with the definition of a general
+infrastructure for module based authentication. The infrastructure is
+named Pluggable Authentication Modules (PAM for short).
+
+#$ Introduction
+
+Computers are tools. They provide services to people and other
+computers (collectively we shall call these _users_ entities). In
+order to provide convenient, reliable and individual service to
+different entities, it is common for entities to be labelled. Having
+defined a label as referring to a some specific entity, the label is
+used for the purpose of protecting and allocating data resources.
+
+All modern operating systems have a notion of labelled entities and
+all modern operating systems face a common problem: how to
+authenticate the association of a predefined label with applicant
+entities.
+
+There are as many authentication methods as one might care to count.
+None of them are perfect and none of them are invulnerable. In
+general, any given authentication method becomes weaker over time. It
+is common then for new authentication methods to be developed in
+response to newly discovered weaknesses in the old authentication
+methods.
+
+The problem with inventing new authentication methods is the fact that
+old applications do not support them. This contributes to an inertia
+that discourages the overhaul of weakly protected systems. Another
+problem is that individuals (people) are frequently powerless to layer
+the protective authentication around their systems. They are forced
+to rely on single (lowest common denominator) authentication schemes
+even in situations where this is far from appropriate.
+
+PAM, as discussed in this document, is a generalization of the
+approach first introduced in [#$R#{OSF_RFC_PAM}]. In short, it is a
+general framework of interfaces that abstract the process of
+authentication. With PAM, a service provider can custom protect
+individual services to the level that they deem is appropriate.
+
+PAM has nothing explicit to say about transport layer encryption.
+Within the context of this document encryption and/or compression of
+data exchanges are application specific (strictly between client and
+server) and orthogonal to the process of authentication.
+
+#$ Definitions
+
+Here we pose the authentication problem as one of configuring defined
+interfaces between two entities.
+
+#$$#{players} Players in the authentication process
+
+PAM reserves the following words to specify unique entities in the
+authentication process:
+
+ applicant
+ the entity (user) initiating an application for service
+ [PAM associates the PAM_RUSER _item_ with this requesting user].
+
+ arbitrator
+ the entity (user) under whose identity the service application
+ is negotiated and with whose authority service is granted.
+
+ user
+ the entity (user) whose identity is being authenticated
+ [PAM associates the PAM_USER _item_ with this identity].
+
+ server
+ the application that provides service, or acts as an
+ authenticated gateway to the requested service. This
+ application is completely responsible for the server end of
+ the transport layer connecting the server to the client.
+ PAM makes no assumptions about how data is encapsulated for
+ exchanges between the server and the client, only that full
+ octet sequences can be freely exchanged without corruption.
+
+ client
+ application providing the direct/primary interface to
+ applicant. This application is completely responsible
+ for the client end of the transport layer connecting the
+ server to the client. PAM makes no assumptions about how data
+ is encapsulated for exchanges between the server and the
+ client, only that full octet sequences can be freely
+ exchanged without corruption.
+
+ module
+ authentication binary that provides server-side support for
+ some (arbitrary) authentication method.
+
+ agent
+ authentication binary that provides client-side support for
+ some (arbitrary) authentication method.
+
+Here is a diagram to help orient the reader:
+
+## +-------+ +--------+ ##
+## . . . . .| agent | .| module | ##
+## . +-------+ .+--------+ ##
+## V | . | ##
+## . | V | ##
+## +---------+ +-------+ . +------+ ##
+## | | |libpamc| . |libpam| ##
+## | | +-------+ . +------+ ##
+## |applicant| | . | ##
+## | | +--------+ +----------+ ##
+## | |---| client |-----------| server | ##
+## +---------+ +--------+ +----------+ ##
+
+Solid lines connecting the boxes represent two-way interaction. The
+dotted-directed lines indicate an optional connection between the
+plugin module (agent) and the server (applicant). In the case of the
+module, this represents the module invoking the 'conversation'
+callback function provided to libpam by the server application when it
+initializes the libpam library. In the case of the agent, this may
+be some out-of-PAM API interaction (for example directly displaying a
+dialog box under X).
+
+#$$ Defined Data Types
+
+In this draft, we define two composite data types, the text string and
+the binary prompt. They are the data types used to communicate
+authentication requests and responses.
+
+#$$$#{text_string} text string
+
+The text string is a simple sequence of non-NUL (NUL = 0x00)
+octets. Terminated with a single NUL (0x00) octet. The character set
+employed in the octet sequence may be negotiated out of band, but
+defaults to utf-8.
+
+## --------------------------- ##
+## [ character data | NUL ] ##
+## [ octet sequence | 0x00 ] ##
+## --------------------------- ##
+
+Within the rest of this text, PAM text strings are delimited with a
+pair of double quotes. Example, "this" = {'t';'h';'i';'s';0x00}.
+
+#$$$#{binary_prompt} binary prompt
+
+A binary prompt consists of a stream of octets arranged as follows:
+
+## ---------------------------------------- ##
+## [ u32 | u8 | (length-5 octets) ] ##
+## [ length | control | data ] ##
+## ---------------------------------------- ##
+
+That is, a 32-bit unsigned integer in network byte order, a single
+unsigned byte of control information and a sequence of octets of
+length (length-5). The composition of the _data_ is context dependent
+but is generally not a concern for either the server or the client. It
+is very much the concern of modules and agents.
+
+For purposes of interoperability, we define the following control
+characters as legal.
+
+## value symbol description ##
+## ------------------------------------------------- ##
+## 0x01 PAM_BPC_OK - continuation packet ##
+## 0x02 PAM_BPC_SELECT - initialization packet ##
+## 0x03 PAM_BPC_DONE - termination packet ##
+## 0x04 PAM_BPC_FAIL - unable to execute ##
+
+The following control characters are only legal for exchanges between
+an agent and a client (it is the responsibility of the client to
+enforce this rule in the face of a rogue server):
+
+## 0x41 PAM_BPC_GETENV - obtain client env.var ##
+## 0x42 PAM_BPC_PUTENV - set client env.var ##
+## 0x43 PAM_BPC_TEXT - display message ##
+## 0x44 PAM_BPC_ERROR - display error message ##
+## 0x45 PAM_BPC_PROMPT - echo'd text prompt ##
+## 0x46 PAM_BPC_PASS - non-echo'd text prompt ##
+## 0x46 PAM_BPC_STATUS - ping all active clients##
+## 0x47 PAM_BPC_ABORT - please abort session ##
+
+Note, length is always equal to the total length of the binary
+prompt and represented by a network ordered unsigned 32 bit integer.
+
+#$$$$#{agent_ids} PAM_BPC_SELECT binary prompts
+
+Binary prompts of control type PAM_BPC_SELECT have a defined
+data part. It is composed of three elements:
+
+ {agent_id;'/';data}
+
+The agent_id is a sequence of characters satisfying the following
+regexp:
+
+ /^[a-z0-9\_]+(@[a-z0-9\_.]+)?$/
+
+and has a specific form for each independent agent.
+
+o Agent_ids that do not contain an at-sign (@) are to be considered as
+ representing some authentication mode that is a "public
+ standard" see reference [#$R#{PAM_STD_AGENTIDS}]. Registered names
+ MUST NOT contain an at-sign (@).
+
+o Anyone can define additional agents by using names in the format
+ name@domainname, e.g. "ouragent@example.com". The part following
+ the at-sign MUST be a valid fully qualified internet domain name
+ [RFC-1034] controlled by the person or organization defining the
+ name. (Said another way, if you control the email address that
+ your agent has as an identifier, they you are entitled to use
+ this identifier.) It is up to each domain how it manages its local
+ namespace.
+
+The '/' character is a mandatory delimiter, indicating the end of the
+agent_id. The trailing data is of a format specific to the agent with
+the given agent_id.
+
+
+#$$ Special cases
+
+In a previous section (#{players}) we identified the most general
+selection of authentication participants. In the case of network
+authentication, it is straightforward to ascribe identities to the
+defined participants. However, there are also special (less general)
+cases that we recognize here.
+
+The primary authentication step, when a user is directly introduced
+into a computer system (log's on to a workstation) is a special case.
+In this situation, the client and the server are generally one
+application. Before authenticating such a user, the applicant is
+formally unknown: PAM_RUSER is NULL.
+
+Some client-server implementations (telnet for example) provide
+effective full tty connections. In these cases, the four simple text
+string prompting cases (see below) can be handled as in the primary
+login step. In other words, the server absorbs most of the overhead of
+propagating authentication messages. In these cases, there needs to be
+special client/server support for handling binary prompts.
+
+In some circumstances, a legacy network transfer protocol can carry
+authentication information. In such cases, a desire to support legacy
+clients (with no client-side support for PAM) will neccessitate the
+'hardcoding' of an agent protocol into the server application. Whilst
+against the spirit of PAM, this special casing can be managed by the
+server's 'conversation function' (see below). The guiding principle
+when implementing such support is for the application developer to
+relegate the authentication process to the PAM module -- simply
+performing a transcription of data from binary-prompt to legacy
+network 'packet' and visa-versa for propagating replies back to the
+driving PAM module. A common case of this is with network protocols
+that define an initialization packet of "user+password". In such cases
+one should attempt to support the "userpass" agent-id and its defined
+protocol.
+
+#$ Defined interfaces for information flow
+
+Here, we discuss the information exchange interfaces between the
+players in the authentication process. It should be understood that
+the server side is responsible for driving the authentication of the
+applicant. Notably, every request received by the client from the
+server must be matched with a single response from the client to the
+server.
+
+#$$#{applicant_client} Applicant <-> client
+
+Once the client is invoked, requests to the applicant entity are
+initiated by the client application. General clients are able to make
+the following requests directly to an applicant:
+
+ echo text string
+ echo error text string
+ prompt with text string for echo'd text string input
+ prompt with text string for concealed text string input
+
+the nature of the interface provided by the client for the benefit of
+the applicant entity is client specific and not defined by PAM.
+
+#$$#{client_agent} Client <-> agent
+
+In general, authentication schemes require more modes of exchange than
+the four defined in the previous section (#{applicant_client}). This
+provides a role for client-loadable agents. The client and agent
+exchange binary-messages that can have one of the following forms:
+
+ client -> agent
+ binary prompt agent expecting binary prompt reply to client
+
+ agent -> client
+ binary prompt reply from agent to clients binary prompt
+
+Following the acceptance of a binary prompt by the agent, the agent
+may attempt to exchange information with the client before returning
+its binary prompt reply. Permitted exchanges are binary prompts of the
+following types:
+
+ agent -> client
+ set environment variable (A)
+ get environment variable (B)
+ echo text string (C)
+ echo error text string (D)
+ prompt for echo'd text string input (E)
+ prompt for concealed text string input (F)
+
+In response to these prompts, the client must legitimately respond
+with a corresponding binary prompt reply. We list a complete set of
+example exchanges, including each type of legitimate response (passes
+and a single fail):
+
+## Type | Agent request | Client response ##
+## --------------------------------------------------------------- ##
+## (A) | {13;PAM_BPC_PUTENV;"FOO=BAR"} | {5;PAM_BPC_OK;} ##
+## | {10;PAM_BPC_PUTENV;"FOO="} | {5;PAM_BPC_OK;} ##
+## | {9;PAM_BPC_PUTENV;"FOO"} (*) | {5;PAM_BPC_OK;} ##
+## | {9;PAM_BPC_PUTENV;"BAR"} (*) | {5;PAM_BPC_FAIL;} ##
+## --------------------------------------------------------------- ##
+## (B) | {10;PAM_BPC_GETENV;"TERM"} | {11;PAM_BPC_OK;"vt100"} ##
+## | {9;PAM_BPC_GETENV;"FOO"} | {5;PAM_BPC_FAIL;} ##
+## --------------------------------------------------------------- ##
+## (C) | {12;PAM_BPC_TEXT;"hello!"} | {5;PAM_BPC_OK;} ##
+## | {12;PAM_BPC_TEXT;"hello!"} | {5;PAM_BPC_FAIL;} ##
+## --------------------------------------------------------------- ##
+## (D) | {11;PAM_BPC_ERROR;"ouch!"} | {5;PAM_BPC_OK;} ##
+## | {11;PAM_BPC_ERROR;"ouch!"} | {5;PAM_BPC_FAIL;} ##
+## --------------------------------------------------------------- ##
+## (E) | {13;PAM_BPC_PROMPT;"login: "} | {9;PAM_BPC_OK;"joe"} ##
+## | {13;PAM_BPC_PROMPT;"login: "} | {6;PAM_BPC_OK;""} ##
+## | {13;PAM_BPC_PROMPT;"login: "} | {5;PAM_BPC_FAIL;} ##
+## --------------------------------------------------------------- ##
+## (F) | {16;PAM_BPC_PASS;"password: "} | {9;PAM_BPC_OK;"XYZ"} ##
+## | {16;PAM_BPC_PASS;"password: "} | {6;PAM_BPC_OK;""} ##
+## | {16;PAM_BPC_PASS;"password: "} | {5;PAM_BPC_FAIL;} ##
+
+(*) Used to attempt the removal of a pre-existing environment
+variable.
+
+#$$ Client <-> server
+
+Once the client has established a connection with the server (the
+nature of the transport protocol is not specified by PAM), the server
+is responsible for driving the authentication process.
+
+General servers can request the following from the client:
+
+ (to be forwarded by the client to the applicant)
+ echo text string
+ echo error text string
+ prompt for echo'd text string response
+ prompt for concealed text string response
+
+ (to be forwarded by the client to the appropriate agent)
+ binary prompt for a binary prompt response
+
+Client side agents are required to process binary prompts. The
+agents' binary prompt responses are returned to the server.
+
+#$$ Server <-> module
+
+Modules drive the authentication process. The server provides a
+conversation function with which it encapsulates module-generated
+requests and exchanges them with the client. Every message sent by a
+module should be acknowledged.
+
+General conversation functions can support the following five
+conversation requests:
+
+ echo text string
+ echo error string
+ prompt for echo'd text string response
+ prompt for concealed text string response
+ binary prompt for binary prompt response
+
+The server is responsible for redirecting these requests to the
+client.
+
+#$ C API for application interfaces (client and server)
+
+#$$ Applicant <-> client
+
+No API is defined for this interface. The interface is considered to
+be specific to the client application. Example applications include
+terminal login, (X)windows login, machine file transfer applications.
+
+All that is important is that the client application is able to
+present the applicant with textual output and to receive textual
+input from the applicant. The forms of textual exchange are listed
+in an earlier section (#{applicant_client}). Other methods of
+data input/output are better suited to being handled via an
+authentication agent.
+
+#$$ Client <-> agent
+
+The client makes use of a general API for communicating with
+agents. The client is not required to communicate directly with
+available agents, instead a layer of abstraction (in the form of a
+library: libpamc) takes care of loading and maintaining communication
+with all requested agents. This layer of abstraction will choose which
+agents to interact with based on the content of binary prompts it
+receives that have the control type PAM_BPC_SELECT.
+
+#$$$ Client <-> libpamc
+
+#$$$$ Compilation information
+
+The C-header file provided for client-agent abstraction is included
+with the following source line:
+
+ \#include <security/pam_client.h>
+
+The library providing the corresponding client-agent abstraction
+functions is, libpamc.
+
+ cc .... -lpamc
+
+#$$$$ Initializing libpamc
+
+The libpamc library is initialized with a call to the following
+function:
+
+ pamc_handle_t pamc_start(void);
+
+This function is responsible for configuring the library and
+registering the location of available agents. The location of the
+available agents on the system is implementation specific.
+
+pamc_start() function returns NULL on failure. Otherwise, the return
+value is a pointer to an opaque data type which provides a handle to
+the libpamc library. On systems where threading is available, the
+libpamc libraray is thread safe provided a single (pamc_handler_t *)
+is used by each thread.
+
+#$$$$ Client (Applicant) selection of agents
+
+For the purpose of applicant and client review of available agents,
+the following function is provided.
+
+ char **pamc_list_agents(pamc_handle_t pch);
+
+This returns a list of pointers to the agent_id's of the agents which
+are available on the system. The list is terminated by a NULL pointer.
+It is the clients responsibility to free this memory area by calling
+free() on each agent id and the block of agent_id pointers in the
+result.
+
+PAM represents a server-driven authentication model, so by default
+any available agent may be invoked in the authentication process.
+
+#$$$$$ Client demands agent
+
+If the client requires that a specific authentication agent is
+satisfied during the authentication process, then the client should
+call the following function, immediately after obtaining a
+pamc_handle_t from pamc_start().
+
+ int pamc_load(pamc_handle_t pch, const char *agent_id);
+
+agent_id is a PAM text string (see section #{agent_ids}) and is not
+suffixed with a '/' delimiter. The return value for this function is:
+
+ PAM_BPC_TRUE - agent located and loaded.
+ PAM_BPC_FALSE - agent is not available.
+
+Note, although the agent is loaded, no data is fed to it. The agent's
+opportunity to inform the client that it does not trust the server is
+when the agent is shutdown.
+
+#$$$$$ Client marks agent as unusable
+
+The applicant might prefer that a named agent is marked as not
+available. To do this, the client would invoke the following function
+immediately after obtaining a pamc_handle_t from pam_start().
+
+ int pamc_disable(pamc_handle_t pch, const char *agent_id);
+
+here agent_id is a PAM text string containing an agent_id (section
+#{agent_ids}).
+
+The return value for this function is:
+
+ PAM_BPC_TRUE - agent is disabled. This is the response
+ independent of whether the agent is locally
+ available.
+
+ PAM_BPC_FALSE - agent cannot be disabled (this may be because
+ it has already been invoked).
+
+#$$$$ Allocating and manipulating binary prompts
+
+All conversation between an client and an agent takes place with
+respect to binary prompts. A binary prompt (see section #{binary_prompt}), is
+obtained, resized and deleted via the following C-macro:
+
+ CREATION of a binary prompt with control X1 and data length Y1:
+
+ pamc_bp_t prompt = NULL;
+ PAM_BP_RENEW(&prompt, X1, Y1);
+
+ REPLACEMENT of a binary prompt with a control X2 and data length Y2:
+
+ PAM_BP_RENEW(&prompt, X2, Y2);
+
+ DELETION of a binary prompt (the referenced prompt is scrubbed):
+
+ PAM_BP_RENEW(&prompt, 0, 0);
+
+Note, the PAM_BP_RENEW macro always overwrites any prompt that you
+call it with, deleting and liberating the old contents in a secure
+fashion. Also note that PAM_BP_RENEW, when returning a prompt of data
+size Y1>0, will always append a '\0' byte to the end of the prompt (at
+data offset Y1). It is thus, by definition, acceptable to treat the
+data contents of a binary packet as a text string (see #{text_string}).
+
+ FILLING a binary prompt from a memory pointer U1 from offset O1 of
+ length L1:
+
+ PAM_BP_FILL(prompt, O1, L1, U1);
+
+ the CONTROL type for the packet can be obtained as follows:
+
+ control = PAM_PB_CONTROL(prompt);
+
+ the LENGTH of a data within the prompt (_excluding_ its header
+ information) can be obtained as follows:
+
+ length = PAM_BP_LENGTH(prompt);
+
+ the total SIZE of the prompt (_including_ its header information)
+ can be obtained as follows:
+
+ size = PAM_BP_SIZE(prompt);
+
+ EXTRACTING data from a binary prompt from offset O2 of length L2 to
+ a memory pointer U2:
+
+ PAM_BP_EXTRACT(prompt, O2, L2, U2);
+
+ If you require direct access to the raw prompt DATA, you should use
+ the following macro:
+
+ __u8 *raw_data = PAM_BP_DATA(prompt);
+
+#$$$$ Client<->agent conversations
+
+All exchanges of binary prompts with agents are handled with the
+single function:
+
+ int pamc_converse(pamc_handle_t *pch, pamc_bp_t *prompt_p);
+
+The return value for pamc_converse(...) is PAM_BPC_TRUE when there is
+a response packet and PAM_BPC_FALSE when the client is unable to
+handle the request represented by the original prompt. In this latter
+case, *prompt_p is set to NULL.
+
+This function takes a binary prompt and returns a replacement binary
+prompt that is either a request from an agent to be acted upon by the
+client or the 'result' which should be forwarded to the server. In the
+former case, the following macro will return 1 (PAM_BPC_TRUE) and in
+all other cases, 0 (PAM_BPC_FALSE):
+
+ PAM_BPC_FOR_CLIENT(/* pamc_bp_t */ prompt)
+
+Note, all non-NULL binary prompts returned by pamc_converse(...), are
+terminated with a '\0', even when the full length of the prompt (as
+returned by the agent) does not contain this delimiter. This is a
+defined property of the PAM_BP_RENEW macro, and can be relied upon.
+
+Important security note: in certain implementations, agents are
+implemented by executable binaries, which are transparently loaded and
+managed by the PAM client library. To ensure there is never a leakage
+of elevated privilege to an unprivileged agent, the client application
+should go to some effort to lower its level of privilege. It remains
+the responsibility of the applicant and the client to ensure that it
+is not compromised by a rogue agent.
+
+#$$$$ Status of agents
+
+ int pamc_status(pamc_handle_t *pch, pamc_bp_t *prompt_p);
+
+At any time, the client may ping all active agents for their status
+(with a PAM_BPC_STATUS binary prompt). If any agent replies with
+PAM_BPC_ABORT, the client is responsible for terminating the
+connection to the server and then terminating all agents with a call
+to pamc_end(). In such cases, the return value of pamc_status() is
+PAM_BPC_FALSE.
+
+If the return status of pamc_status() is PAM_BPC_TRUE and *prompt_p is
+non-NULL, then an agent is requesting access to a server module.
+
+XXX - how this information gets propagated to the server, and
+ ultimately to the server's module is yet to be determined.
+
+#$$$$ Termination of agents
+
+When closing the authentication session and severing the connection
+between a client and a selection of agents, the following function is
+used:
+
+ int pamc_end(pamc_handle_t *pch);
+
+Following a call to pamc_end, the pamc_handle_t will be invalid.
+
+The return value for this function is one of the following:
+
+ PAM_BPC_TRUE - all invoked agents are content with
+ authentication (the server is _not_ judged
+ _un_trustworthy by any agent)
+
+ PAM_BPC_FALSE - one or more agents were unsatisfied at
+ being terminated. In general, the client
+ should terminate its connection to the
+ server and indicate to the applicant that
+ the server is untrusted.
+
+#$$$ libpamc <-> agents
+
+The agents are manipulated from within libpamc. Each agent is an
+executable in its own right. This permits the agent to have access to
+sensitive data not accessible directly from the client. The mode of
+communication between libpamc and an agent is through a pair of
+pipes. The agent reads binary prompts (section #{binary_prompt})
+through its standard input file descriptor and writes response (to the
+server) binary prompts and instruction binary prompts (instructions
+for the client) through its standard output file descriptor.
+
+#$$ Client <-> server
+
+This interface is concerned with the exchange of text and binary
+prompts between the client application and the server application. No
+API is provided for this as it is considered specific to the transport
+protocol shared by the client and the server.
+
+#$$ Server <-> modules
+
+The server makes use of a general API for communicating with
+modules. The client is not required to communicate directly with
+available modules. By abstracting the authentication interface, it
+becomes possible for the local administrator to make a run time
+decision about the authentication method adopted by the server.
+
+#$$$ Functions and definitions available to servers and modules
+
+[This section will document the following functions
+
+ pam_set_item()
+ pam_get_item()
+ pam_fail_delay(pam_handle_t *pamh, unsigned int micro_sec)
+ pam_get_env(pam_handle_t *pamh, const char *varname)
+ pam_strerror(pam_handle_t *pamh, int pam_errno)
+
+Event driven support (XXX work in progress)
+
+ pam_register_event() - app or module associates an event poller/handler
+ pam_select_event() - query for any outstanding event and act on any
+]
+
+#$$$ Server <-> libpam
+
+[This section will document the following pam_ calls:
+
+ pam_start
+ pam_end
+ pam_authenticate (*)
+ pam_setcred
+ pam_acct_mgmt
+ pam_open_session
+ pam_close_session
+ pam_chauthtok (*)
+
+The asterisked functions may return PAM_INCOMPLETE. In such cases, the
+application should be aware that the conversation function was called
+and that it returned PAM_CONV_AGAIN to a module. The correct action
+for the application to take in response to receiving PAM_INCOMPLETE,
+is to acquire the replies so that the next time the conversation
+function is called it will be able to provide the desired
+responses. And then recall pam_authenticate (pam_chauthtok) with the
+same arguments. Libpam will arrange that the module stack is resumed
+from the module that returned before. This functionality is required
+for programs whose user interface is maintained by an event loop. ]
+
+#$$$ libpam <-> modules
+
+[This section will document the following pam_ and pam_sm_ calls:
+
+functions provided by libpam
+
+ pam_set_data
+ pam_get_data
+
+functions provided to libpam by each module
+
+ groups:
+ AUTHENTICATION
+ pam_sm_authenticate
+ pam_sm_setcred
+ ACCOUNT
+ pam_sm_acct_mgmt
+ SESSION
+ pam_sm_open_session
+ pam_sm_close_session
+ AUTHENTICATION TOKEN MANAGEMENT
+ pam_sm_chauthtok
+]
+
+#$$$ The conversation function
+
+The server application, as part of its initialization of libpam,
+provides a conversation function for use by modules and libpam. The
+purpose of the conversation function is to enable direct communication
+to the applicant ultimately via the client and selected agents.
+
+[ this section will contain a definition for the conversation
+ function, the conversation structure (appdata etc), and legitimate
+ return codes for the application supplied function.
+
+ PAM_SUCCESS - ok conversation completed
+ PAM_CONV_ERR - conversation failed
+ PAM_CONV_AGAIN - application needs control to complete conv
+ PAM_CONV_RECONSIDER - application believes module should check if
+ it still needs to converse for this info
+ ]
+
+#$ Security considerations
+
+This document is devoted to standardizing authentication
+infrastructure: everything in this document has implications for
+security.
+
+#$ Contact
+
+The email list for discussing issues related to this document is
+<pam-list@redhat.com>.
+
+#$ References
+
+[#{OSF_RFC_PAM}] OSF RFC 86.0, "Unified Login with Pluggable Authentication
+ Modules (PAM)", October 1995
+
+[#{PAM_STD_AGENTIDS}] Definitions for standard agents, "REGISTERED
+ AGENTS AND THEIR AGENT-ID'S", to be found here:
+
+## http://www.kernel.org/pub/linux/libs/pam/pre/doc/std-agent-ids.txt ##
+
+#$ Author's Address
+
+Andrew G. Morgan
+Email: morgan@kernel.org
+
+## $Id$ ##
diff --git a/doc/specs/parse_l.c b/doc/specs/parse_l.c
new file mode 100644
index 0000000..3018e59
--- /dev/null
+++ b/doc/specs/parse_l.c
@@ -0,0 +1,1786 @@
+
+#line 3 "parse_l.c"
+
+#define YY_INT_ALIGNED short int
+
+/* A lexical scanner generated by flex */
+
+#define FLEX_SCANNER
+#define YY_FLEX_MAJOR_VERSION 2
+#define YY_FLEX_MINOR_VERSION 6
+#define YY_FLEX_SUBMINOR_VERSION 4
+#if YY_FLEX_SUBMINOR_VERSION > 0
+#define FLEX_BETA
+#endif
+
+/* First, we deal with platform-specific or compiler-specific issues. */
+
+/* begin standard C headers. */
+/* Feature test macros. Flex uses functions that require a minimum set of
+ * macros defined. As defining some macros may hide function declarations that
+ * user code might use, be conservative and respect user's definitions as much
+ * as possible. In glibc, feature test macros may not be all set up until one
+ * of the libc header (that includes <features.h>) is included. This creates
+ * a circular dependency when we check the macros. <assert.h> is the safest
+ * header we can include and does not declare too many functions we don't need.
+ */
+#if !defined(__GNU_LIBRARY__) && defined(__STDC__)
+#include <assert.h>
+#endif
+#if !(defined(_POSIX_C_SOURCE) || defined(_XOPEN_SOURCE) || \
+ defined(_POSIX_SOURCE))
+# define _POSIX_C_SOURCE 1 /* Required for fileno() */
+# define _POSIX_SOURCE 1
+#endif
+#include <stdio.h>
+#include <string.h>
+#include <errno.h>
+#include <stdlib.h>
+
+/* end standard C headers. */
+
+/* begin standard C++ headers. */
+
+/* flex integer type definitions */
+
+#ifndef YYFLEX_INTTYPES_DEFINED
+#define YYFLEX_INTTYPES_DEFINED
+
+/* Prefer C99 integer types if available. */
+# if defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L
+/* Include <inttypes.h> and not <stdint.h> because Solaris 2.6 has the former
+ * and not the latter.
+ */
+#include <inttypes.h>
+# define YYFLEX_USE_STDINT
+# else
+# if defined(_MSC_VER) && _MSC_VER >= 1600
+/* Visual C++ 2010 does not define __STDC_VERSION__ and has <stdint.h> but not
+ * <inttypes.h>.
+ */
+#include <stdint.h>
+# define YYFLEX_USE_STDINT
+# endif
+# endif
+# ifdef YYFLEX_USE_STDINT
+typedef int8_t flex_int8_t;
+typedef uint8_t flex_uint8_t;
+typedef int16_t flex_int16_t;
+typedef uint16_t flex_uint16_t;
+typedef int32_t flex_int32_t;
+typedef uint32_t flex_uint32_t;
+# else
+typedef unsigned char flex_uint8_t;
+typedef short int flex_int16_t;
+typedef unsigned short int flex_uint16_t;
+# ifdef __STDC__
+typedef signed char flex_int8_t;
+/* ISO C only requires at least 16 bits for int. */
+#include <limits.h>
+# if UINT_MAX >= 4294967295
+# define YYFLEX_INT32_DEFINED
+typedef int flex_int32_t;
+typedef unsigned int flex_uint32_t;
+# endif
+# else
+typedef char flex_int8_t;
+# endif
+# ifndef YYFLEX_INT32_DEFINED
+typedef long int flex_int32_t;
+typedef unsigned long int flex_uint32_t;
+# endif
+# endif
+#endif /* YYFLEX_INTTYPES_DEFINED */
+
+/* TODO: this is always defined, so inline it */
+#define yyconst const
+
+#if defined(__GNUC__) && __GNUC__ >= 3
+#define yynoreturn __attribute__((__noreturn__))
+#define YY_ATTRIBUTE_UNUSED __attribute__ ((__unused__))
+#else
+#define yynoreturn
+#define YY_ATTRIBUTE_UNUSED /* __attribute__ ((__unused__)) */
+#endif
+
+/* Returned upon end-of-file. */
+#define YY_NULL 0
+
+/* Promotes a possibly negative, possibly signed char to an
+ * integer in range [0..255] for use as an array index.
+ */
+#define YY_SC_TO_UI(c) ((YY_CHAR) (c))
+
+/* Enter a start condition. This macro really ought to take a parameter,
+ * but we do it the disgusting crufty way forced on us by the ()-less
+ * definition of BEGIN.
+ */
+#define BEGIN (yy_start) = 1 + 2 *
+/* Translate the current start state into a value that can be later handed
+ * to BEGIN to return to the state. The YYSTATE alias is for lex
+ * compatibility.
+ */
+#define YY_START (((yy_start) - 1) / 2)
+#define YYSTATE YY_START
+/* Action number for EOF rule of a given start state. */
+#define YY_STATE_EOF(state) (YY_END_OF_BUFFER + state + 1)
+/* Special action meaning "start processing a new file". */
+#define YY_NEW_FILE yyrestart( yyin )
+#define YY_END_OF_BUFFER_CHAR 0
+
+/* Size of default input buffer. */
+#ifndef YY_BUF_SIZE
+#ifdef __ia64__
+/* On IA-64, the buffer size is 16k, not 8k.
+ * Moreover, YY_BUF_SIZE is 2*YY_READ_BUF_SIZE in the general case.
+ * Ditto for the __ia64__ case accordingly.
+ */
+#define YY_BUF_SIZE 32768
+#else
+#define YY_BUF_SIZE 16384
+#endif /* __ia64__ */
+#endif
+
+/* The state buf must be large enough to hold one state per character in the main buffer.
+ */
+#define YY_STATE_BUF_SIZE ((YY_BUF_SIZE + 2) * sizeof(yy_state_type))
+
+#ifndef YY_TYPEDEF_YY_BUFFER_STATE
+#define YY_TYPEDEF_YY_BUFFER_STATE
+typedef struct yy_buffer_state *YY_BUFFER_STATE;
+#endif
+
+#ifndef YY_TYPEDEF_YY_SIZE_T
+#define YY_TYPEDEF_YY_SIZE_T
+typedef size_t yy_size_t;
+#endif
+
+extern int yyleng;
+
+extern FILE *yyin, *yyout;
+
+#define EOB_ACT_CONTINUE_SCAN 0
+#define EOB_ACT_END_OF_FILE 1
+#define EOB_ACT_LAST_MATCH 2
+
+ #define YY_LESS_LINENO(n)
+ #define YY_LINENO_REWIND_TO(ptr)
+
+/* Return all but the first "n" matched characters back to the input stream. */
+#define yyless(n) \
+ do \
+ { \
+ /* Undo effects of setting up yytext. */ \
+ int yyless_macro_arg = (n); \
+ YY_LESS_LINENO(yyless_macro_arg);\
+ *yy_cp = (yy_hold_char); \
+ YY_RESTORE_YY_MORE_OFFSET \
+ (yy_c_buf_p) = yy_cp = yy_bp + yyless_macro_arg - YY_MORE_ADJ; \
+ YY_DO_BEFORE_ACTION; /* set up yytext again */ \
+ } \
+ while ( 0 )
+#define unput(c) yyunput( c, (yytext_ptr) )
+
+#ifndef YY_STRUCT_YY_BUFFER_STATE
+#define YY_STRUCT_YY_BUFFER_STATE
+struct yy_buffer_state
+ {
+ FILE *yy_input_file;
+
+ char *yy_ch_buf; /* input buffer */
+ char *yy_buf_pos; /* current position in input buffer */
+
+ /* Size of input buffer in bytes, not including room for EOB
+ * characters.
+ */
+ int yy_buf_size;
+
+ /* Number of characters read into yy_ch_buf, not including EOB
+ * characters.
+ */
+ int yy_n_chars;
+
+ /* Whether we "own" the buffer - i.e., we know we created it,
+ * and can realloc() it to grow it, and should free() it to
+ * delete it.
+ */
+ int yy_is_our_buffer;
+
+ /* Whether this is an "interactive" input source; if so, and
+ * if we're using stdio for input, then we want to use getc()
+ * instead of fread(), to make sure we stop fetching input after
+ * each newline.
+ */
+ int yy_is_interactive;
+
+ /* Whether we're considered to be at the beginning of a line.
+ * If so, '^' rules will be active on the next match, otherwise
+ * not.
+ */
+ int yy_at_bol;
+
+ int yy_bs_lineno; /**< The line count. */
+ int yy_bs_column; /**< The column count. */
+
+ /* Whether to try to fill the input buffer when we reach the
+ * end of it.
+ */
+ int yy_fill_buffer;
+
+ int yy_buffer_status;
+
+#define YY_BUFFER_NEW 0
+#define YY_BUFFER_NORMAL 1
+ /* When an EOF's been seen but there's still some text to process
+ * then we mark the buffer as YY_EOF_PENDING, to indicate that we
+ * shouldn't try reading from the input source any more. We might
+ * still have a bunch of tokens to match, though, because of
+ * possible backing-up.
+ *
+ * When we actually see the EOF, we change the status to "new"
+ * (via yyrestart()), so that the user can continue scanning by
+ * just pointing yyin at a new input file.
+ */
+#define YY_BUFFER_EOF_PENDING 2
+
+ };
+#endif /* !YY_STRUCT_YY_BUFFER_STATE */
+
+/* Stack of input buffers. */
+static size_t yy_buffer_stack_top = 0; /**< index of top of stack. */
+static size_t yy_buffer_stack_max = 0; /**< capacity of stack. */
+static YY_BUFFER_STATE * yy_buffer_stack = NULL; /**< Stack as an array. */
+
+/* We provide macros for accessing buffer states in case in the
+ * future we want to put the buffer states in a more general
+ * "scanner state".
+ *
+ * Returns the top of the stack, or NULL.
+ */
+#define YY_CURRENT_BUFFER ( (yy_buffer_stack) \
+ ? (yy_buffer_stack)[(yy_buffer_stack_top)] \
+ : NULL)
+/* Same as previous macro, but useful when we know that the buffer stack is not
+ * NULL or when we need an lvalue. For internal use only.
+ */
+#define YY_CURRENT_BUFFER_LVALUE (yy_buffer_stack)[(yy_buffer_stack_top)]
+
+/* yy_hold_char holds the character lost when yytext is formed. */
+static char yy_hold_char;
+static int yy_n_chars; /* number of characters read into yy_ch_buf */
+int yyleng;
+
+/* Points to current character in buffer. */
+static char *yy_c_buf_p = NULL;
+static int yy_init = 0; /* whether we need to initialize */
+static int yy_start = 0; /* start state number */
+
+/* Flag which is used to allow yywrap()'s to do buffer switches
+ * instead of setting up a fresh yyin. A bit of a hack ...
+ */
+static int yy_did_buffer_switch_on_eof;
+
+void yyrestart ( FILE *input_file );
+void yy_switch_to_buffer ( YY_BUFFER_STATE new_buffer );
+YY_BUFFER_STATE yy_create_buffer ( FILE *file, int size );
+void yy_delete_buffer ( YY_BUFFER_STATE b );
+void yy_flush_buffer ( YY_BUFFER_STATE b );
+void yypush_buffer_state ( YY_BUFFER_STATE new_buffer );
+void yypop_buffer_state ( void );
+
+static void yyensure_buffer_stack ( void );
+static void yy_load_buffer_state ( void );
+static void yy_init_buffer ( YY_BUFFER_STATE b, FILE *file );
+#define YY_FLUSH_BUFFER yy_flush_buffer( YY_CURRENT_BUFFER )
+
+YY_BUFFER_STATE yy_scan_buffer ( char *base, yy_size_t size );
+YY_BUFFER_STATE yy_scan_string ( const char *yy_str );
+YY_BUFFER_STATE yy_scan_bytes ( const char *bytes, int len );
+
+void *yyalloc ( yy_size_t );
+void *yyrealloc ( void *, yy_size_t );
+void yyfree ( void * );
+
+#define yy_new_buffer yy_create_buffer
+#define yy_set_interactive(is_interactive) \
+ { \
+ if ( ! YY_CURRENT_BUFFER ){ \
+ yyensure_buffer_stack (); \
+ YY_CURRENT_BUFFER_LVALUE = \
+ yy_create_buffer( yyin, YY_BUF_SIZE ); \
+ } \
+ YY_CURRENT_BUFFER_LVALUE->yy_is_interactive = is_interactive; \
+ }
+#define yy_set_bol(at_bol) \
+ { \
+ if ( ! YY_CURRENT_BUFFER ){\
+ yyensure_buffer_stack (); \
+ YY_CURRENT_BUFFER_LVALUE = \
+ yy_create_buffer( yyin, YY_BUF_SIZE ); \
+ } \
+ YY_CURRENT_BUFFER_LVALUE->yy_at_bol = at_bol; \
+ }
+#define YY_AT_BOL() (YY_CURRENT_BUFFER_LVALUE->yy_at_bol)
+
+/* Begin user sect3 */
+
+#define yywrap() (/*CONSTCOND*/1)
+#define YY_SKIP_YYWRAP
+typedef flex_uint8_t YY_CHAR;
+
+FILE *yyin = NULL, *yyout = NULL;
+
+typedef int yy_state_type;
+
+extern int yylineno;
+int yylineno = 1;
+
+extern char *yytext;
+#ifdef yytext_ptr
+#undef yytext_ptr
+#endif
+#define yytext_ptr yytext
+
+static yy_state_type yy_get_previous_state ( void );
+static yy_state_type yy_try_NUL_trans ( yy_state_type current_state );
+static int yy_get_next_buffer ( void );
+static void yynoreturn yy_fatal_error ( const char* msg );
+
+/* Done after the current pattern has been matched and before the
+ * corresponding action - sets up yytext.
+ */
+#define YY_DO_BEFORE_ACTION \
+ (yytext_ptr) = yy_bp; \
+ yyleng = (int) (yy_cp - yy_bp); \
+ (yy_hold_char) = *yy_cp; \
+ *yy_cp = '\0'; \
+ (yy_c_buf_p) = yy_cp;
+#define YY_NUM_RULES 8
+#define YY_END_OF_BUFFER 9
+/* This struct is not used in this scanner,
+ but its presence is necessary. */
+struct yy_trans_info
+ {
+ flex_int32_t yy_verify;
+ flex_int32_t yy_nxt;
+ };
+static const flex_int16_t yy_accept[19] =
+ { 0,
+ 0, 0, 9, 6, 7, 3, 6, 4, 1, 0,
+ 5, 0, 1, 0, 1, 0, 2, 0
+ } ;
+
+static const YY_CHAR yy_ec[256] =
+ { 0,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 2,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 3, 4, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 5, 5, 5,
+ 5, 5, 5, 5, 5, 5, 5, 1, 1, 1,
+ 6, 1, 1, 1, 7, 7, 7, 7, 7, 7,
+ 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
+ 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
+ 1, 8, 1, 1, 9, 1, 7, 7, 7, 7,
+
+ 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
+ 7, 7, 7, 7, 7, 7, 7, 7, 7, 7,
+ 7, 7, 10, 1, 11, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+ 1, 1, 1, 1, 1
+ } ;
+
+static const YY_CHAR yy_meta[12] =
+ { 0,
+ 1, 1, 1, 1, 2, 1, 2, 1, 2, 1,
+ 2
+ } ;
+
+static const flex_int16_t yy_base[21] =
+ { 0,
+ 0, 7, 21, 30, 30, 13, 17, 30, 20, 12,
+ 30, 13, 10, 2, 7, 0, 30, 30, 27, 2
+ } ;
+
+static const flex_int16_t yy_def[21] =
+ { 0,
+ 19, 19, 18, 18, 18, 18, 18, 18, 18, 18,
+ 18, 18, 9, 20, 18, 20, 18, 0, 18, 18
+ } ;
+
+static const flex_int16_t yy_nxt[42] =
+ { 0,
+ 18, 5, 6, 16, 18, 18, 18, 7, 5, 6,
+ 17, 15, 17, 18, 7, 8, 9, 15, 14, 11,
+ 18, 18, 10, 9, 18, 12, 13, 4, 4, 3,
+ 18, 18, 18, 18, 18, 18, 18, 18, 18, 18,
+ 18
+ } ;
+
+static const flex_int16_t yy_chk[42] =
+ { 0,
+ 0, 1, 1, 20, 0, 0, 0, 1, 2, 2,
+ 16, 15, 14, 13, 2, 6, 6, 12, 10, 7,
+ 3, 0, 6, 9, 0, 9, 9, 19, 19, 18,
+ 18, 18, 18, 18, 18, 18, 18, 18, 18, 18,
+ 18
+ } ;
+
+static yy_state_type yy_last_accepting_state;
+static char *yy_last_accepting_cpos;
+
+extern int yy_flex_debug;
+int yy_flex_debug = 0;
+
+/* The intent behind this definition is that it'll catch
+ * any uses of REJECT which flex missed.
+ */
+#define REJECT reject_used_but_not_detected
+#define yymore() yymore_used_but_not_detected
+#define YY_MORE_ADJ 0
+#define YY_RESTORE_YY_MORE_OFFSET
+char *yytext;
+#line 1 "parse_l.l"
+#line 2 "parse_l.l"
+#ifdef HAVE_CONFIG_H
+# include <config.h>
+#endif
+
+#include <stdio.h>
+
+#include "parse_y.h"
+#line 465 "parse_l.c"
+#line 466 "parse_l.c"
+
+#define INITIAL 0
+
+#ifndef YY_NO_UNISTD_H
+/* Special case for "unistd.h", since it is non-ANSI. We include it way
+ * down here because we want the user's section 1 to have been scanned first.
+ * The user has a chance to override it with an option.
+ */
+#include <unistd.h>
+#endif
+
+#ifndef YY_EXTRA_TYPE
+#define YY_EXTRA_TYPE void *
+#endif
+
+static int yy_init_globals ( void );
+
+/* Accessor methods to globals.
+ These are made visible to non-reentrant scanners for convenience. */
+
+int yylex_destroy ( void );
+
+int yyget_debug ( void );
+
+void yyset_debug ( int debug_flag );
+
+YY_EXTRA_TYPE yyget_extra ( void );
+
+void yyset_extra ( YY_EXTRA_TYPE user_defined );
+
+FILE *yyget_in ( void );
+
+void yyset_in ( FILE * _in_str );
+
+FILE *yyget_out ( void );
+
+void yyset_out ( FILE * _out_str );
+
+ int yyget_leng ( void );
+
+char *yyget_text ( void );
+
+int yyget_lineno ( void );
+
+void yyset_lineno ( int _line_number );
+
+/* Macros after this point can all be overridden by user definitions in
+ * section 1.
+ */
+
+#ifndef YY_SKIP_YYWRAP
+#ifdef __cplusplus
+extern "C" int yywrap ( void );
+#else
+extern int yywrap ( void );
+#endif
+#endif
+
+#ifndef YY_NO_UNPUT
+
+ static void yyunput ( int c, char *buf_ptr );
+
+#endif
+
+#ifndef yytext_ptr
+static void yy_flex_strncpy ( char *, const char *, int );
+#endif
+
+#ifdef YY_NEED_STRLEN
+static int yy_flex_strlen ( const char * );
+#endif
+
+#ifndef YY_NO_INPUT
+#ifdef __cplusplus
+static int yyinput ( void );
+#else
+static int input ( void );
+#endif
+
+#endif
+
+/* Amount of stuff to slurp up with each read. */
+#ifndef YY_READ_BUF_SIZE
+#ifdef __ia64__
+/* On IA-64, the buffer size is 16k, not 8k */
+#define YY_READ_BUF_SIZE 16384
+#else
+#define YY_READ_BUF_SIZE 8192
+#endif /* __ia64__ */
+#endif
+
+/* Copy whatever the last rule matched to the standard output. */
+#ifndef ECHO
+/* This used to be an fputs(), but since the string might contain NUL's,
+ * we now use fwrite().
+ */
+#define ECHO do { if (fwrite( yytext, (size_t) yyleng, 1, yyout )) {} } while (0)
+#endif
+
+/* Gets input and stuffs it into "buf". number of characters read, or YY_NULL,
+ * is returned in "result".
+ */
+#ifndef YY_INPUT
+#define YY_INPUT(buf,result,max_size) \
+ if ( YY_CURRENT_BUFFER_LVALUE->yy_is_interactive ) \
+ { \
+ int c = '*'; \
+ int n; \
+ for ( n = 0; n < max_size && \
+ (c = getc( yyin )) != EOF && c != '\n'; ++n ) \
+ buf[n] = (char) c; \
+ if ( c == '\n' ) \
+ buf[n++] = (char) c; \
+ if ( c == EOF && ferror( yyin ) ) \
+ YY_FATAL_ERROR( "input in flex scanner failed" ); \
+ result = n; \
+ } \
+ else \
+ { \
+ errno=0; \
+ while ( (result = (int) fread(buf, 1, (yy_size_t) max_size, yyin)) == 0 && ferror(yyin)) \
+ { \
+ if( errno != EINTR) \
+ { \
+ YY_FATAL_ERROR( "input in flex scanner failed" ); \
+ break; \
+ } \
+ errno=0; \
+ clearerr(yyin); \
+ } \
+ }\
+\
+
+#endif
+
+/* No semi-colon after return; correct usage is to write "yyterminate();" -
+ * we don't want an extra ';' after the "return" because that will cause
+ * some compilers to complain about unreachable statements.
+ */
+#ifndef yyterminate
+#define yyterminate() return YY_NULL
+#endif
+
+/* Number of entries by which start-condition stack grows. */
+#ifndef YY_START_STACK_INCR
+#define YY_START_STACK_INCR 25
+#endif
+
+/* Report a fatal error. */
+#ifndef YY_FATAL_ERROR
+#define YY_FATAL_ERROR(msg) yy_fatal_error( msg )
+#endif
+
+/* end tables serialization structures and prototypes */
+
+/* Default declaration of generated scanner - a define so the user can
+ * easily add parameters.
+ */
+#ifndef YY_DECL
+#define YY_DECL_IS_OURS 1
+
+extern int yylex (void);
+
+#define YY_DECL int yylex (void)
+#endif /* !YY_DECL */
+
+/* Code executed at the beginning of each rule, after yytext and yyleng
+ * have been set up.
+ */
+#ifndef YY_USER_ACTION
+#define YY_USER_ACTION
+#endif
+
+/* Code executed at the end of each rule. */
+#ifndef YY_BREAK
+#define YY_BREAK /*LINTED*/break;
+#endif
+
+#define YY_RULE_SETUP \
+ YY_USER_ACTION
+
+/** The main scanner function which does all the work.
+ */
+YY_DECL
+{
+ yy_state_type yy_current_state;
+ char *yy_cp, *yy_bp;
+ int yy_act;
+
+ if ( !(yy_init) )
+ {
+ (yy_init) = 1;
+
+#ifdef YY_USER_INIT
+ YY_USER_INIT;
+#endif
+
+ if ( ! (yy_start) )
+ (yy_start) = 1; /* first start state */
+
+ if ( ! yyin )
+ yyin = stdin;
+
+ if ( ! yyout )
+ yyout = stdout;
+
+ if ( ! YY_CURRENT_BUFFER ) {
+ yyensure_buffer_stack ();
+ YY_CURRENT_BUFFER_LVALUE =
+ yy_create_buffer( yyin, YY_BUF_SIZE );
+ }
+
+ yy_load_buffer_state( );
+ }
+
+ {
+#line 12 "parse_l.l"
+
+
+#line 686 "parse_l.c"
+
+ while ( /*CONSTCOND*/1 ) /* loops until end-of-file is reached */
+ {
+ yy_cp = (yy_c_buf_p);
+
+ /* Support of yytext. */
+ *yy_cp = (yy_hold_char);
+
+ /* yy_bp points to the position in yy_ch_buf of the start of
+ * the current run.
+ */
+ yy_bp = yy_cp;
+
+ yy_current_state = (yy_start);
+yy_match:
+ do
+ {
+ YY_CHAR yy_c = yy_ec[YY_SC_TO_UI(*yy_cp)] ;
+ if ( yy_accept[yy_current_state] )
+ {
+ (yy_last_accepting_state) = yy_current_state;
+ (yy_last_accepting_cpos) = yy_cp;
+ }
+ while ( yy_chk[yy_base[yy_current_state] + yy_c] != yy_current_state )
+ {
+ yy_current_state = (int) yy_def[yy_current_state];
+ if ( yy_current_state >= 19 )
+ yy_c = yy_meta[yy_c];
+ }
+ yy_current_state = yy_nxt[yy_base[yy_current_state] + yy_c];
+ ++yy_cp;
+ }
+ while ( yy_base[yy_current_state] != 30 );
+
+yy_find_action:
+ yy_act = yy_accept[yy_current_state];
+ if ( yy_act == 0 )
+ { /* have to back up */
+ yy_cp = (yy_last_accepting_cpos);
+ yy_current_state = (yy_last_accepting_state);
+ yy_act = yy_accept[yy_current_state];
+ }
+
+ YY_DO_BEFORE_ACTION;
+
+do_action: /* This label is used only to access EOF actions. */
+
+ switch ( yy_act )
+ { /* beginning of action switch */
+ case 0: /* must back up */
+ /* undo the effects of YY_DO_BEFORE_ACTION */
+ *yy_cp = (yy_hold_char);
+ yy_cp = (yy_last_accepting_cpos);
+ yy_current_state = (yy_last_accepting_state);
+ goto yy_find_action;
+
+case 1:
+YY_RULE_SETUP
+#line 14 "parse_l.l"
+return NEW_COUNTER;
+ YY_BREAK
+case 2:
+YY_RULE_SETUP
+#line 15 "parse_l.l"
+return LABEL;
+ YY_BREAK
+case 3:
+YY_RULE_SETUP
+#line 16 "parse_l.l"
+return NO_INDENT;
+ YY_BREAK
+case 4:
+YY_RULE_SETUP
+#line 17 "parse_l.l"
+return RIGHT;
+ YY_BREAK
+case 5:
+YY_RULE_SETUP
+#line 18 "parse_l.l"
+return HASH;
+ YY_BREAK
+case 6:
+YY_RULE_SETUP
+#line 19 "parse_l.l"
+return CHAR;
+ YY_BREAK
+case 7:
+/* rule 7 can match eol */
+YY_RULE_SETUP
+#line 20 "parse_l.l"
+return NEWLINE;
+ YY_BREAK
+case 8:
+YY_RULE_SETUP
+#line 22 "parse_l.l"
+ECHO;
+ YY_BREAK
+#line 784 "parse_l.c"
+case YY_STATE_EOF(INITIAL):
+ yyterminate();
+
+ case YY_END_OF_BUFFER:
+ {
+ /* Amount of text matched not including the EOB char. */
+ int yy_amount_of_matched_text = (int) (yy_cp - (yytext_ptr)) - 1;
+
+ /* Undo the effects of YY_DO_BEFORE_ACTION. */
+ *yy_cp = (yy_hold_char);
+ YY_RESTORE_YY_MORE_OFFSET
+
+ if ( YY_CURRENT_BUFFER_LVALUE->yy_buffer_status == YY_BUFFER_NEW )
+ {
+ /* We're scanning a new file or input source. It's
+ * possible that this happened because the user
+ * just pointed yyin at a new source and called
+ * yylex(). If so, then we have to assure
+ * consistency between YY_CURRENT_BUFFER and our
+ * globals. Here is the right place to do so, because
+ * this is the first action (other than possibly a
+ * back-up) that will match for the new input source.
+ */
+ (yy_n_chars) = YY_CURRENT_BUFFER_LVALUE->yy_n_chars;
+ YY_CURRENT_BUFFER_LVALUE->yy_input_file = yyin;
+ YY_CURRENT_BUFFER_LVALUE->yy_buffer_status = YY_BUFFER_NORMAL;
+ }
+
+ /* Note that here we test for yy_c_buf_p "<=" to the position
+ * of the first EOB in the buffer, since yy_c_buf_p will
+ * already have been incremented past the NUL character
+ * (since all states make transitions on EOB to the
+ * end-of-buffer state). Contrast this with the test
+ * in input().
+ */
+ if ( (yy_c_buf_p) <= &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)] )
+ { /* This was really a NUL. */
+ yy_state_type yy_next_state;
+
+ (yy_c_buf_p) = (yytext_ptr) + yy_amount_of_matched_text;
+
+ yy_current_state = yy_get_previous_state( );
+
+ /* Okay, we're now positioned to make the NUL
+ * transition. We couldn't have
+ * yy_get_previous_state() go ahead and do it
+ * for us because it doesn't know how to deal
+ * with the possibility of jamming (and we don't
+ * want to build jamming into it because then it
+ * will run more slowly).
+ */
+
+ yy_next_state = yy_try_NUL_trans( yy_current_state );
+
+ yy_bp = (yytext_ptr) + YY_MORE_ADJ;
+
+ if ( yy_next_state )
+ {
+ /* Consume the NUL. */
+ yy_cp = ++(yy_c_buf_p);
+ yy_current_state = yy_next_state;
+ goto yy_match;
+ }
+
+ else
+ {
+ yy_cp = (yy_c_buf_p);
+ goto yy_find_action;
+ }
+ }
+
+ else switch ( yy_get_next_buffer( ) )
+ {
+ case EOB_ACT_END_OF_FILE:
+ {
+ (yy_did_buffer_switch_on_eof) = 0;
+
+ if ( yywrap( ) )
+ {
+ /* Note: because we've taken care in
+ * yy_get_next_buffer() to have set up
+ * yytext, we can now set up
+ * yy_c_buf_p so that if some total
+ * hoser (like flex itself) wants to
+ * call the scanner after we return the
+ * YY_NULL, it'll still work - another
+ * YY_NULL will get returned.
+ */
+ (yy_c_buf_p) = (yytext_ptr) + YY_MORE_ADJ;
+
+ yy_act = YY_STATE_EOF(YY_START);
+ goto do_action;
+ }
+
+ else
+ {
+ if ( ! (yy_did_buffer_switch_on_eof) )
+ YY_NEW_FILE;
+ }
+ break;
+ }
+
+ case EOB_ACT_CONTINUE_SCAN:
+ (yy_c_buf_p) =
+ (yytext_ptr) + yy_amount_of_matched_text;
+
+ yy_current_state = yy_get_previous_state( );
+
+ yy_cp = (yy_c_buf_p);
+ yy_bp = (yytext_ptr) + YY_MORE_ADJ;
+ goto yy_match;
+
+ case EOB_ACT_LAST_MATCH:
+ (yy_c_buf_p) =
+ &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)];
+
+ yy_current_state = yy_get_previous_state( );
+
+ yy_cp = (yy_c_buf_p);
+ yy_bp = (yytext_ptr) + YY_MORE_ADJ;
+ goto yy_find_action;
+ }
+ break;
+ }
+
+ default:
+ YY_FATAL_ERROR(
+ "fatal flex scanner internal error--no action found" );
+ } /* end of action switch */
+ } /* end of scanning one token */
+ } /* end of user's declarations */
+} /* end of yylex */
+
+/* yy_get_next_buffer - try to read in a new buffer
+ *
+ * Returns a code representing an action:
+ * EOB_ACT_LAST_MATCH -
+ * EOB_ACT_CONTINUE_SCAN - continue scanning from current position
+ * EOB_ACT_END_OF_FILE - end of file
+ */
+static int yy_get_next_buffer (void)
+{
+ char *dest = YY_CURRENT_BUFFER_LVALUE->yy_ch_buf;
+ char *source = (yytext_ptr);
+ int number_to_move, i;
+ int ret_val;
+
+ if ( (yy_c_buf_p) > &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars) + 1] )
+ YY_FATAL_ERROR(
+ "fatal flex scanner internal error--end of buffer missed" );
+
+ if ( YY_CURRENT_BUFFER_LVALUE->yy_fill_buffer == 0 )
+ { /* Don't try to fill the buffer, so this is an EOF. */
+ if ( (yy_c_buf_p) - (yytext_ptr) - YY_MORE_ADJ == 1 )
+ {
+ /* We matched a single character, the EOB, so
+ * treat this as a final EOF.
+ */
+ return EOB_ACT_END_OF_FILE;
+ }
+
+ else
+ {
+ /* We matched some text prior to the EOB, first
+ * process it.
+ */
+ return EOB_ACT_LAST_MATCH;
+ }
+ }
+
+ /* Try to read more data. */
+
+ /* First move last chars to start of buffer. */
+ number_to_move = (int) ((yy_c_buf_p) - (yytext_ptr) - 1);
+
+ for ( i = 0; i < number_to_move; ++i )
+ *(dest++) = *(source++);
+
+ if ( YY_CURRENT_BUFFER_LVALUE->yy_buffer_status == YY_BUFFER_EOF_PENDING )
+ /* don't do the read, it's not guaranteed to return an EOF,
+ * just force an EOF
+ */
+ YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars) = 0;
+
+ else
+ {
+ int num_to_read =
+ YY_CURRENT_BUFFER_LVALUE->yy_buf_size - number_to_move - 1;
+
+ while ( num_to_read <= 0 )
+ { /* Not enough room in the buffer - grow it. */
+
+ /* just a shorter name for the current buffer */
+ YY_BUFFER_STATE b = YY_CURRENT_BUFFER_LVALUE;
+
+ int yy_c_buf_p_offset =
+ (int) ((yy_c_buf_p) - b->yy_ch_buf);
+
+ if ( b->yy_is_our_buffer )
+ {
+ int new_size = b->yy_buf_size * 2;
+
+ if ( new_size <= 0 )
+ b->yy_buf_size += b->yy_buf_size / 8;
+ else
+ b->yy_buf_size *= 2;
+
+ b->yy_ch_buf = (char *)
+ /* Include room in for 2 EOB chars. */
+ yyrealloc( (void *) b->yy_ch_buf,
+ (yy_size_t) (b->yy_buf_size + 2) );
+ }
+ else
+ /* Can't grow it, we don't own it. */
+ b->yy_ch_buf = NULL;
+
+ if ( ! b->yy_ch_buf )
+ YY_FATAL_ERROR(
+ "fatal error - scanner input buffer overflow" );
+
+ (yy_c_buf_p) = &b->yy_ch_buf[yy_c_buf_p_offset];
+
+ num_to_read = YY_CURRENT_BUFFER_LVALUE->yy_buf_size -
+ number_to_move - 1;
+
+ }
+
+ if ( num_to_read > YY_READ_BUF_SIZE )
+ num_to_read = YY_READ_BUF_SIZE;
+
+ /* Read in more data. */
+ YY_INPUT( (&YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[number_to_move]),
+ (yy_n_chars), num_to_read );
+
+ YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars);
+ }
+
+ if ( (yy_n_chars) == 0 )
+ {
+ if ( number_to_move == YY_MORE_ADJ )
+ {
+ ret_val = EOB_ACT_END_OF_FILE;
+ yyrestart( yyin );
+ }
+
+ else
+ {
+ ret_val = EOB_ACT_LAST_MATCH;
+ YY_CURRENT_BUFFER_LVALUE->yy_buffer_status =
+ YY_BUFFER_EOF_PENDING;
+ }
+ }
+
+ else
+ ret_val = EOB_ACT_CONTINUE_SCAN;
+
+ if (((yy_n_chars) + number_to_move) > YY_CURRENT_BUFFER_LVALUE->yy_buf_size) {
+ /* Extend the array by 50%, plus the number we really need. */
+ int new_size = (yy_n_chars) + number_to_move + ((yy_n_chars) >> 1);
+ YY_CURRENT_BUFFER_LVALUE->yy_ch_buf = (char *) yyrealloc(
+ (void *) YY_CURRENT_BUFFER_LVALUE->yy_ch_buf, (yy_size_t) new_size );
+ if ( ! YY_CURRENT_BUFFER_LVALUE->yy_ch_buf )
+ YY_FATAL_ERROR( "out of dynamic memory in yy_get_next_buffer()" );
+ /* "- 2" to take care of EOB's */
+ YY_CURRENT_BUFFER_LVALUE->yy_buf_size = (int) (new_size - 2);
+ }
+
+ (yy_n_chars) += number_to_move;
+ YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)] = YY_END_OF_BUFFER_CHAR;
+ YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars) + 1] = YY_END_OF_BUFFER_CHAR;
+
+ (yytext_ptr) = &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[0];
+
+ return ret_val;
+}
+
+/* yy_get_previous_state - get the state just before the EOB char was reached */
+
+ static yy_state_type yy_get_previous_state (void)
+{
+ yy_state_type yy_current_state;
+ char *yy_cp;
+
+ yy_current_state = (yy_start);
+
+ for ( yy_cp = (yytext_ptr) + YY_MORE_ADJ; yy_cp < (yy_c_buf_p); ++yy_cp )
+ {
+ YY_CHAR yy_c = (*yy_cp ? yy_ec[YY_SC_TO_UI(*yy_cp)] : 1);
+ if ( yy_accept[yy_current_state] )
+ {
+ (yy_last_accepting_state) = yy_current_state;
+ (yy_last_accepting_cpos) = yy_cp;
+ }
+ while ( yy_chk[yy_base[yy_current_state] + yy_c] != yy_current_state )
+ {
+ yy_current_state = (int) yy_def[yy_current_state];
+ if ( yy_current_state >= 19 )
+ yy_c = yy_meta[yy_c];
+ }
+ yy_current_state = yy_nxt[yy_base[yy_current_state] + yy_c];
+ }
+
+ return yy_current_state;
+}
+
+/* yy_try_NUL_trans - try to make a transition on the NUL character
+ *
+ * synopsis
+ * next_state = yy_try_NUL_trans( current_state );
+ */
+ static yy_state_type yy_try_NUL_trans (yy_state_type yy_current_state )
+{
+ int yy_is_jam;
+ char *yy_cp = (yy_c_buf_p);
+
+ YY_CHAR yy_c = 1;
+ if ( yy_accept[yy_current_state] )
+ {
+ (yy_last_accepting_state) = yy_current_state;
+ (yy_last_accepting_cpos) = yy_cp;
+ }
+ while ( yy_chk[yy_base[yy_current_state] + yy_c] != yy_current_state )
+ {
+ yy_current_state = (int) yy_def[yy_current_state];
+ if ( yy_current_state >= 19 )
+ yy_c = yy_meta[yy_c];
+ }
+ yy_current_state = yy_nxt[yy_base[yy_current_state] + yy_c];
+ yy_is_jam = (yy_current_state == 18);
+
+ return yy_is_jam ? 0 : yy_current_state;
+}
+
+#ifndef YY_NO_UNPUT
+
+ static void yyunput (int c, char * yy_bp )
+{
+ char *yy_cp;
+
+ yy_cp = (yy_c_buf_p);
+
+ /* undo effects of setting up yytext */
+ *yy_cp = (yy_hold_char);
+
+ if ( yy_cp < YY_CURRENT_BUFFER_LVALUE->yy_ch_buf + 2 )
+ { /* need to shift things up to make room */
+ /* +2 for EOB chars. */
+ int number_to_move = (yy_n_chars) + 2;
+ char *dest = &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[
+ YY_CURRENT_BUFFER_LVALUE->yy_buf_size + 2];
+ char *source =
+ &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[number_to_move];
+
+ while ( source > YY_CURRENT_BUFFER_LVALUE->yy_ch_buf )
+ *--dest = *--source;
+
+ yy_cp += (int) (dest - source);
+ yy_bp += (int) (dest - source);
+ YY_CURRENT_BUFFER_LVALUE->yy_n_chars =
+ (yy_n_chars) = (int) YY_CURRENT_BUFFER_LVALUE->yy_buf_size;
+
+ if ( yy_cp < YY_CURRENT_BUFFER_LVALUE->yy_ch_buf + 2 )
+ YY_FATAL_ERROR( "flex scanner push-back overflow" );
+ }
+
+ *--yy_cp = (char) c;
+
+ (yytext_ptr) = yy_bp;
+ (yy_hold_char) = *yy_cp;
+ (yy_c_buf_p) = yy_cp;
+}
+
+#endif
+
+#ifndef YY_NO_INPUT
+#ifdef __cplusplus
+ static int yyinput (void)
+#else
+ static int input (void)
+#endif
+
+{
+ int c;
+
+ *(yy_c_buf_p) = (yy_hold_char);
+
+ if ( *(yy_c_buf_p) == YY_END_OF_BUFFER_CHAR )
+ {
+ /* yy_c_buf_p now points to the character we want to return.
+ * If this occurs *before* the EOB characters, then it's a
+ * valid NUL; if not, then we've hit the end of the buffer.
+ */
+ if ( (yy_c_buf_p) < &YY_CURRENT_BUFFER_LVALUE->yy_ch_buf[(yy_n_chars)] )
+ /* This was really a NUL. */
+ *(yy_c_buf_p) = '\0';
+
+ else
+ { /* need more input */
+ int offset = (int) ((yy_c_buf_p) - (yytext_ptr));
+ ++(yy_c_buf_p);
+
+ switch ( yy_get_next_buffer( ) )
+ {
+ case EOB_ACT_LAST_MATCH:
+ /* This happens because yy_g_n_b()
+ * sees that we've accumulated a
+ * token and flags that we need to
+ * try matching the token before
+ * proceeding. But for input(),
+ * there's no matching to consider.
+ * So convert the EOB_ACT_LAST_MATCH
+ * to EOB_ACT_END_OF_FILE.
+ */
+
+ /* Reset buffer status. */
+ yyrestart( yyin );
+
+ /*FALLTHROUGH*/
+
+ case EOB_ACT_END_OF_FILE:
+ {
+ if ( yywrap( ) )
+ return 0;
+
+ if ( ! (yy_did_buffer_switch_on_eof) )
+ YY_NEW_FILE;
+#ifdef __cplusplus
+ return yyinput();
+#else
+ return input();
+#endif
+ }
+
+ case EOB_ACT_CONTINUE_SCAN:
+ (yy_c_buf_p) = (yytext_ptr) + offset;
+ break;
+ }
+ }
+ }
+
+ c = *(unsigned char *) (yy_c_buf_p); /* cast for 8-bit char's */
+ *(yy_c_buf_p) = '\0'; /* preserve yytext */
+ (yy_hold_char) = *++(yy_c_buf_p);
+
+ return c;
+}
+#endif /* ifndef YY_NO_INPUT */
+
+/** Immediately switch to a different input stream.
+ * @param input_file A readable stream.
+ *
+ * @note This function does not reset the start condition to @c INITIAL .
+ */
+ void yyrestart (FILE * input_file )
+{
+
+ if ( ! YY_CURRENT_BUFFER ){
+ yyensure_buffer_stack ();
+ YY_CURRENT_BUFFER_LVALUE =
+ yy_create_buffer( yyin, YY_BUF_SIZE );
+ }
+
+ yy_init_buffer( YY_CURRENT_BUFFER, input_file );
+ yy_load_buffer_state( );
+}
+
+/** Switch to a different input buffer.
+ * @param new_buffer The new input buffer.
+ *
+ */
+ void yy_switch_to_buffer (YY_BUFFER_STATE new_buffer )
+{
+
+ /* TODO. We should be able to replace this entire function body
+ * with
+ * yypop_buffer_state();
+ * yypush_buffer_state(new_buffer);
+ */
+ yyensure_buffer_stack ();
+ if ( YY_CURRENT_BUFFER == new_buffer )
+ return;
+
+ if ( YY_CURRENT_BUFFER )
+ {
+ /* Flush out information for old buffer. */
+ *(yy_c_buf_p) = (yy_hold_char);
+ YY_CURRENT_BUFFER_LVALUE->yy_buf_pos = (yy_c_buf_p);
+ YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars);
+ }
+
+ YY_CURRENT_BUFFER_LVALUE = new_buffer;
+ yy_load_buffer_state( );
+
+ /* We don't actually know whether we did this switch during
+ * EOF (yywrap()) processing, but the only time this flag
+ * is looked at is after yywrap() is called, so it's safe
+ * to go ahead and always set it.
+ */
+ (yy_did_buffer_switch_on_eof) = 1;
+}
+
+static void yy_load_buffer_state (void)
+{
+ (yy_n_chars) = YY_CURRENT_BUFFER_LVALUE->yy_n_chars;
+ (yytext_ptr) = (yy_c_buf_p) = YY_CURRENT_BUFFER_LVALUE->yy_buf_pos;
+ yyin = YY_CURRENT_BUFFER_LVALUE->yy_input_file;
+ (yy_hold_char) = *(yy_c_buf_p);
+}
+
+/** Allocate and initialize an input buffer state.
+ * @param file A readable stream.
+ * @param size The character buffer size in bytes. When in doubt, use @c YY_BUF_SIZE.
+ *
+ * @return the allocated buffer state.
+ */
+ YY_BUFFER_STATE yy_create_buffer (FILE * file, int size )
+{
+ YY_BUFFER_STATE b;
+
+ b = (YY_BUFFER_STATE) yyalloc( sizeof( struct yy_buffer_state ) );
+ if ( ! b )
+ YY_FATAL_ERROR( "out of dynamic memory in yy_create_buffer()" );
+
+ b->yy_buf_size = size;
+
+ /* yy_ch_buf has to be 2 characters longer than the size given because
+ * we need to put in 2 end-of-buffer characters.
+ */
+ b->yy_ch_buf = (char *) yyalloc( (yy_size_t) (b->yy_buf_size + 2) );
+ if ( ! b->yy_ch_buf )
+ YY_FATAL_ERROR( "out of dynamic memory in yy_create_buffer()" );
+
+ b->yy_is_our_buffer = 1;
+
+ yy_init_buffer( b, file );
+
+ return b;
+}
+
+/** Destroy the buffer.
+ * @param b a buffer created with yy_create_buffer()
+ *
+ */
+ void yy_delete_buffer (YY_BUFFER_STATE b )
+{
+
+ if ( ! b )
+ return;
+
+ if ( b == YY_CURRENT_BUFFER ) /* Not sure if we should pop here. */
+ YY_CURRENT_BUFFER_LVALUE = (YY_BUFFER_STATE) 0;
+
+ if ( b->yy_is_our_buffer )
+ yyfree( (void *) b->yy_ch_buf );
+
+ yyfree( (void *) b );
+}
+
+/* Initializes or reinitializes a buffer.
+ * This function is sometimes called more than once on the same buffer,
+ * such as during a yyrestart() or at EOF.
+ */
+ static void yy_init_buffer (YY_BUFFER_STATE b, FILE * file )
+
+{
+ int oerrno = errno;
+
+ yy_flush_buffer( b );
+
+ b->yy_input_file = file;
+ b->yy_fill_buffer = 1;
+
+ /* If b is the current buffer, then yy_init_buffer was _probably_
+ * called from yyrestart() or through yy_get_next_buffer.
+ * In that case, we don't want to reset the lineno or column.
+ */
+ if (b != YY_CURRENT_BUFFER){
+ b->yy_bs_lineno = 1;
+ b->yy_bs_column = 0;
+ }
+
+ b->yy_is_interactive = file ? (isatty( fileno(file) ) > 0) : 0;
+
+ errno = oerrno;
+}
+
+/** Discard all buffered characters. On the next scan, YY_INPUT will be called.
+ * @param b the buffer state to be flushed, usually @c YY_CURRENT_BUFFER.
+ *
+ */
+ void yy_flush_buffer (YY_BUFFER_STATE b )
+{
+ if ( ! b )
+ return;
+
+ b->yy_n_chars = 0;
+
+ /* We always need two end-of-buffer characters. The first causes
+ * a transition to the end-of-buffer state. The second causes
+ * a jam in that state.
+ */
+ b->yy_ch_buf[0] = YY_END_OF_BUFFER_CHAR;
+ b->yy_ch_buf[1] = YY_END_OF_BUFFER_CHAR;
+
+ b->yy_buf_pos = &b->yy_ch_buf[0];
+
+ b->yy_at_bol = 1;
+ b->yy_buffer_status = YY_BUFFER_NEW;
+
+ if ( b == YY_CURRENT_BUFFER )
+ yy_load_buffer_state( );
+}
+
+/** Pushes the new state onto the stack. The new state becomes
+ * the current state. This function will allocate the stack
+ * if necessary.
+ * @param new_buffer The new state.
+ *
+ */
+void yypush_buffer_state (YY_BUFFER_STATE new_buffer )
+{
+ if (new_buffer == NULL)
+ return;
+
+ yyensure_buffer_stack();
+
+ /* This block is copied from yy_switch_to_buffer. */
+ if ( YY_CURRENT_BUFFER )
+ {
+ /* Flush out information for old buffer. */
+ *(yy_c_buf_p) = (yy_hold_char);
+ YY_CURRENT_BUFFER_LVALUE->yy_buf_pos = (yy_c_buf_p);
+ YY_CURRENT_BUFFER_LVALUE->yy_n_chars = (yy_n_chars);
+ }
+
+ /* Only push if top exists. Otherwise, replace top. */
+ if (YY_CURRENT_BUFFER)
+ (yy_buffer_stack_top)++;
+ YY_CURRENT_BUFFER_LVALUE = new_buffer;
+
+ /* copied from yy_switch_to_buffer. */
+ yy_load_buffer_state( );
+ (yy_did_buffer_switch_on_eof) = 1;
+}
+
+/** Removes and deletes the top of the stack, if present.
+ * The next element becomes the new top.
+ *
+ */
+void yypop_buffer_state (void)
+{
+ if (!YY_CURRENT_BUFFER)
+ return;
+
+ yy_delete_buffer(YY_CURRENT_BUFFER );
+ YY_CURRENT_BUFFER_LVALUE = NULL;
+ if ((yy_buffer_stack_top) > 0)
+ --(yy_buffer_stack_top);
+
+ if (YY_CURRENT_BUFFER) {
+ yy_load_buffer_state( );
+ (yy_did_buffer_switch_on_eof) = 1;
+ }
+}
+
+/* Allocates the stack if it does not exist.
+ * Guarantees space for at least one push.
+ */
+static void yyensure_buffer_stack (void)
+{
+ yy_size_t num_to_alloc;
+
+ if (!(yy_buffer_stack)) {
+
+ /* First allocation is just for 2 elements, since we don't know if this
+ * scanner will even need a stack. We use 2 instead of 1 to avoid an
+ * immediate realloc on the next call.
+ */
+ num_to_alloc = 1; /* After all that talk, this was set to 1 anyways... */
+ (yy_buffer_stack) = (struct yy_buffer_state**)yyalloc
+ (num_to_alloc * sizeof(struct yy_buffer_state*)
+ );
+ if ( ! (yy_buffer_stack) )
+ YY_FATAL_ERROR( "out of dynamic memory in yyensure_buffer_stack()" );
+
+ memset((yy_buffer_stack), 0, num_to_alloc * sizeof(struct yy_buffer_state*));
+
+ (yy_buffer_stack_max) = num_to_alloc;
+ (yy_buffer_stack_top) = 0;
+ return;
+ }
+
+ if ((yy_buffer_stack_top) >= ((yy_buffer_stack_max)) - 1){
+
+ /* Increase the buffer to prepare for a possible push. */
+ yy_size_t grow_size = 8 /* arbitrary grow size */;
+
+ num_to_alloc = (yy_buffer_stack_max) + grow_size;
+ (yy_buffer_stack) = (struct yy_buffer_state**)yyrealloc
+ ((yy_buffer_stack),
+ num_to_alloc * sizeof(struct yy_buffer_state*)
+ );
+ if ( ! (yy_buffer_stack) )
+ YY_FATAL_ERROR( "out of dynamic memory in yyensure_buffer_stack()" );
+
+ /* zero only the new slots.*/
+ memset((yy_buffer_stack) + (yy_buffer_stack_max), 0, grow_size * sizeof(struct yy_buffer_state*));
+ (yy_buffer_stack_max) = num_to_alloc;
+ }
+}
+
+/** Setup the input buffer state to scan directly from a user-specified character buffer.
+ * @param base the character buffer
+ * @param size the size in bytes of the character buffer
+ *
+ * @return the newly allocated buffer state object.
+ */
+YY_BUFFER_STATE yy_scan_buffer (char * base, yy_size_t size )
+{
+ YY_BUFFER_STATE b;
+
+ if ( size < 2 ||
+ base[size-2] != YY_END_OF_BUFFER_CHAR ||
+ base[size-1] != YY_END_OF_BUFFER_CHAR )
+ /* They forgot to leave room for the EOB's. */
+ return NULL;
+
+ b = (YY_BUFFER_STATE) yyalloc( sizeof( struct yy_buffer_state ) );
+ if ( ! b )
+ YY_FATAL_ERROR( "out of dynamic memory in yy_scan_buffer()" );
+
+ b->yy_buf_size = (int) (size - 2); /* "- 2" to take care of EOB's */
+ b->yy_buf_pos = b->yy_ch_buf = base;
+ b->yy_is_our_buffer = 0;
+ b->yy_input_file = NULL;
+ b->yy_n_chars = b->yy_buf_size;
+ b->yy_is_interactive = 0;
+ b->yy_at_bol = 1;
+ b->yy_fill_buffer = 0;
+ b->yy_buffer_status = YY_BUFFER_NEW;
+
+ yy_switch_to_buffer( b );
+
+ return b;
+}
+
+/** Setup the input buffer state to scan a string. The next call to yylex() will
+ * scan from a @e copy of @a str.
+ * @param yystr a NUL-terminated string to scan
+ *
+ * @return the newly allocated buffer state object.
+ * @note If you want to scan bytes that may contain NUL values, then use
+ * yy_scan_bytes() instead.
+ */
+YY_BUFFER_STATE yy_scan_string (const char * yystr )
+{
+
+ return yy_scan_bytes( yystr, (int) strlen(yystr) );
+}
+
+/** Setup the input buffer state to scan the given bytes. The next call to yylex() will
+ * scan from a @e copy of @a bytes.
+ * @param yybytes the byte buffer to scan
+ * @param _yybytes_len the number of bytes in the buffer pointed to by @a bytes.
+ *
+ * @return the newly allocated buffer state object.
+ */
+YY_BUFFER_STATE yy_scan_bytes (const char * yybytes, int _yybytes_len )
+{
+ YY_BUFFER_STATE b;
+ char *buf;
+ yy_size_t n;
+ int i;
+
+ /* Get memory for full buffer, including space for trailing EOB's. */
+ n = (yy_size_t) (_yybytes_len + 2);
+ buf = (char *) yyalloc( n );
+ if ( ! buf )
+ YY_FATAL_ERROR( "out of dynamic memory in yy_scan_bytes()" );
+
+ for ( i = 0; i < _yybytes_len; ++i )
+ buf[i] = yybytes[i];
+
+ buf[_yybytes_len] = buf[_yybytes_len+1] = YY_END_OF_BUFFER_CHAR;
+
+ b = yy_scan_buffer( buf, n );
+ if ( ! b )
+ YY_FATAL_ERROR( "bad buffer in yy_scan_bytes()" );
+
+ /* It's okay to grow etc. this buffer, and we should throw it
+ * away when we're done.
+ */
+ b->yy_is_our_buffer = 1;
+
+ return b;
+}
+
+#ifndef YY_EXIT_FAILURE
+#define YY_EXIT_FAILURE 2
+#endif
+
+static void yynoreturn yy_fatal_error (const char* msg YY_ATTRIBUTE_UNUSED)
+{
+ fprintf( stderr, "%s\n", msg );
+ exit( YY_EXIT_FAILURE );
+}
+
+/* Redefine yyless() so it works in section 3 code. */
+
+#undef yyless
+#define yyless(n) \
+ do \
+ { \
+ /* Undo effects of setting up yytext. */ \
+ int yyless_macro_arg = (n); \
+ YY_LESS_LINENO(yyless_macro_arg);\
+ yytext[yyleng] = (yy_hold_char); \
+ (yy_c_buf_p) = yytext + yyless_macro_arg; \
+ (yy_hold_char) = *(yy_c_buf_p); \
+ *(yy_c_buf_p) = '\0'; \
+ yyleng = yyless_macro_arg; \
+ } \
+ while ( 0 )
+
+/* Accessor methods (get/set functions) to struct members. */
+
+/** Get the current line number.
+ *
+ */
+int yyget_lineno (void)
+{
+
+ return yylineno;
+}
+
+/** Get the input stream.
+ *
+ */
+FILE *yyget_in (void)
+{
+ return yyin;
+}
+
+/** Get the output stream.
+ *
+ */
+FILE *yyget_out (void)
+{
+ return yyout;
+}
+
+/** Get the length of the current token.
+ *
+ */
+int yyget_leng (void)
+{
+ return yyleng;
+}
+
+/** Get the current token.
+ *
+ */
+
+char *yyget_text (void)
+{
+ return yytext;
+}
+
+/** Set the current line number.
+ * @param _line_number line number
+ *
+ */
+void yyset_lineno (int _line_number )
+{
+
+ yylineno = _line_number;
+}
+
+/** Set the input stream. This does not discard the current
+ * input buffer.
+ * @param _in_str A readable stream.
+ *
+ * @see yy_switch_to_buffer
+ */
+void yyset_in (FILE * _in_str )
+{
+ yyin = _in_str ;
+}
+
+void yyset_out (FILE * _out_str )
+{
+ yyout = _out_str ;
+}
+
+int yyget_debug (void)
+{
+ return yy_flex_debug;
+}
+
+void yyset_debug (int _bdebug )
+{
+ yy_flex_debug = _bdebug ;
+}
+
+static int yy_init_globals (void)
+{
+ /* Initialization is the same as for the non-reentrant scanner.
+ * This function is called from yylex_destroy(), so don't allocate here.
+ */
+
+ (yy_buffer_stack) = NULL;
+ (yy_buffer_stack_top) = 0;
+ (yy_buffer_stack_max) = 0;
+ (yy_c_buf_p) = NULL;
+ (yy_init) = 0;
+ (yy_start) = 0;
+
+/* Defined in main.c */
+#ifdef YY_STDINIT
+ yyin = stdin;
+ yyout = stdout;
+#else
+ yyin = NULL;
+ yyout = NULL;
+#endif
+
+ /* For future reference: Set errno on error, since we are called by
+ * yylex_init()
+ */
+ return 0;
+}
+
+/* yylex_destroy is for both reentrant and non-reentrant scanners. */
+int yylex_destroy (void)
+{
+
+ /* Pop the buffer stack, destroying each element. */
+ while(YY_CURRENT_BUFFER){
+ yy_delete_buffer( YY_CURRENT_BUFFER );
+ YY_CURRENT_BUFFER_LVALUE = NULL;
+ yypop_buffer_state();
+ }
+
+ /* Destroy the stack itself. */
+ yyfree((yy_buffer_stack) );
+ (yy_buffer_stack) = NULL;
+
+ /* Reset the globals. This is important in a non-reentrant scanner so the next time
+ * yylex() is called, initialization will occur. */
+ yy_init_globals( );
+
+ return 0;
+}
+
+/*
+ * Internal utility routines.
+ */
+
+#ifndef yytext_ptr
+static void yy_flex_strncpy (char* s1, const char * s2, int n YY_ATTRIBUTE_UNUSED)
+{
+ int i;
+ for ( i = 0; i < n; ++i )
+ s1[i] = s2[i];
+}
+#endif
+
+#ifdef YY_NEED_STRLEN
+static int yy_flex_strlen (const char * s YY_ATTRIBUTE_UNUSED)
+{
+ int n;
+ for ( n = 0; s[n]; ++n )
+ ;
+
+ return n;
+}
+#endif
+
+void *yyalloc (yy_size_t size YY_ATTRIBUTE_UNUSED)
+{
+ return malloc(size);
+}
+
+void *yyrealloc (void * ptr, yy_size_t size YY_ATTRIBUTE_UNUSED)
+{
+ /* The cast to (char *) in the following accommodates both
+ * implementations that use char* generic pointers, and those
+ * that use void* generic pointers. It works with the latter
+ * because both ANSI C and C++ allow castless assignment from
+ * any pointer type to void*, and deal with argument conversions
+ * as though doing an assignment.
+ */
+ return realloc(ptr, size);
+}
+
+void yyfree (void * ptr YY_ATTRIBUTE_UNUSED)
+{
+ free( (char *) ptr ); /* see yyrealloc() for (char *) cast */
+}
+
+#line 22 "parse_l.l"
+
+
diff --git a/doc/specs/parse_l.l b/doc/specs/parse_l.l
new file mode 100644
index 0000000..d8400a0
--- /dev/null
+++ b/doc/specs/parse_l.l
@@ -0,0 +1,22 @@
+%{
+#ifdef HAVE_CONFIG_H
+# include <config.h>
+#endif
+
+#include <stdio.h>
+
+#include "parse_y.h"
+%}
+
+%option noyywrap
+%%
+
+\#[\$]+[a-zA-Z]*(\=[0-9]+)? return NEW_COUNTER;
+\#\{[a-zA-Z][a-zA-Z0-9\_]*\} return LABEL;
+\# return NO_INDENT;
+\#\# return RIGHT;
+\\\# return HASH;
+[^\n] return CHAR;
+[\n] return NEWLINE;
+
+%%
diff --git a/doc/specs/parse_y.c b/doc/specs/parse_y.c
new file mode 100644
index 0000000..da163a3
--- /dev/null
+++ b/doc/specs/parse_y.c
@@ -0,0 +1,1790 @@
+/* A Bison parser, made by GNU Bison 3.0.5. */
+
+/* Bison implementation for Yacc-like parsers in C
+
+ Copyright (C) 1984, 1989-1990, 2000-2015, 2018 Free Software Foundation, Inc.
+
+ 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/>. */
+
+/* As a special exception, you may create a larger work that contains
+ part or all of the Bison parser skeleton and distribute that work
+ under terms of your choice, so long as that work isn't itself a
+ parser generator using the skeleton or a modified version thereof
+ as a parser skeleton. Alternatively, if you modify or redistribute
+ the parser skeleton itself, you may (at your option) remove this
+ special exception, which will cause the skeleton and the resulting
+ Bison output files to be licensed under the GNU General Public
+ License without this special exception.
+
+ This special exception was added by the Free Software Foundation in
+ version 2.2 of Bison. */
+
+/* C LALR(1) parser skeleton written by Richard Stallman, by
+ simplifying the original so-called "semantic" parser. */
+
+/* All symbols defined below should begin with yy or YY, to avoid
+ infringing on user name space. This should be done even for local
+ variables, as they might otherwise be expanded by user macros.
+ There are some unavoidable exceptions within include files to
+ define necessary library symbols; they are noted "INFRINGES ON
+ USER NAME SPACE" below. */
+
+/* Identify Bison output. */
+#define YYBISON 1
+
+/* Bison version. */
+#define YYBISON_VERSION "3.0.5"
+
+/* Skeleton name. */
+#define YYSKELETON_NAME "yacc.c"
+
+/* Pure parsers. */
+#define YYPURE 0
+
+/* Push parsers. */
+#define YYPUSH 0
+
+/* Pull parsers. */
+#define YYPULL 1
+
+
+
+
+/* Copy the first part of user declarations. */
+#line 2 "parse_y.y" /* yacc.c:339 */
+
+#ifdef HAVE_CONFIG_H
+# include <config.h>
+#endif
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#define MAXLINE 1000
+#define INDENT_STRING " "
+#define PAPER_WIDTH 74
+
+ int indent=0;
+ int line=1;
+ char *last_label=NULL;
+
+ extern int yylex(void);
+ extern char *yytext;
+ extern void yyerror(const char *x);
+ extern char *get_label(const char *label);
+ extern void set_label(const char *label, const char *target);
+ char *new_counter(const char *key);
+
+#line 91 "parse_y.c" /* yacc.c:339 */
+
+# ifndef YY_NULLPTR
+# if defined __cplusplus && 201103L <= __cplusplus
+# define YY_NULLPTR nullptr
+# else
+# define YY_NULLPTR 0
+# endif
+# endif
+
+/* Enabling verbose error messages. */
+#ifdef YYERROR_VERBOSE
+# undef YYERROR_VERBOSE
+# define YYERROR_VERBOSE 1
+#else
+# define YYERROR_VERBOSE 0
+#endif
+
+/* In a future release of Bison, this section will be replaced
+ by #include "y.tab.h". */
+#ifndef YY_YY_PARSE_Y_H_INCLUDED
+# define YY_YY_PARSE_Y_H_INCLUDED
+/* Debug traces. */
+#ifndef YYDEBUG
+# define YYDEBUG 0
+#endif
+#if YYDEBUG
+extern int yydebug;
+#endif
+
+/* Token type. */
+#ifndef YYTOKENTYPE
+# define YYTOKENTYPE
+ enum yytokentype
+ {
+ NEW_COUNTER = 258,
+ LABEL = 259,
+ HASH = 260,
+ CHAR = 261,
+ NEWLINE = 262,
+ NO_INDENT = 263,
+ RIGHT = 264
+ };
+#endif
+/* Tokens. */
+#define NEW_COUNTER 258
+#define LABEL 259
+#define HASH 260
+#define CHAR 261
+#define NEWLINE 262
+#define NO_INDENT 263
+#define RIGHT 264
+
+/* Value type. */
+#if ! defined YYSTYPE && ! defined YYSTYPE_IS_DECLARED
+
+union YYSTYPE
+{
+#line 27 "parse_y.y" /* yacc.c:355 */
+
+ int def;
+ char *string;
+
+#line 154 "parse_y.c" /* yacc.c:355 */
+};
+
+typedef union YYSTYPE YYSTYPE;
+# define YYSTYPE_IS_TRIVIAL 1
+# define YYSTYPE_IS_DECLARED 1
+#endif
+
+
+extern YYSTYPE yylval;
+
+int yyparse (void);
+
+#endif /* !YY_YY_PARSE_Y_H_INCLUDED */
+
+/* Copy the second part of user declarations. */
+
+#line 171 "parse_y.c" /* yacc.c:358 */
+
+#ifdef short
+# undef short
+#endif
+
+#ifdef YYTYPE_UINT8
+typedef YYTYPE_UINT8 yytype_uint8;
+#else
+typedef unsigned char yytype_uint8;
+#endif
+
+#ifdef YYTYPE_INT8
+typedef YYTYPE_INT8 yytype_int8;
+#else
+typedef signed char yytype_int8;
+#endif
+
+#ifdef YYTYPE_UINT16
+typedef YYTYPE_UINT16 yytype_uint16;
+#else
+typedef unsigned short int yytype_uint16;
+#endif
+
+#ifdef YYTYPE_INT16
+typedef YYTYPE_INT16 yytype_int16;
+#else
+typedef short int yytype_int16;
+#endif
+
+#ifndef YYSIZE_T
+# ifdef __SIZE_TYPE__
+# define YYSIZE_T __SIZE_TYPE__
+# elif defined size_t
+# define YYSIZE_T size_t
+# elif ! defined YYSIZE_T
+# include <stddef.h> /* INFRINGES ON USER NAME SPACE */
+# define YYSIZE_T size_t
+# else
+# define YYSIZE_T unsigned int
+# endif
+#endif
+
+#define YYSIZE_MAXIMUM ((YYSIZE_T) -1)
+
+#ifndef YY_
+# if defined YYENABLE_NLS && YYENABLE_NLS
+# if ENABLE_NLS
+# include <libintl.h> /* INFRINGES ON USER NAME SPACE */
+# define YY_(Msgid) dgettext ("bison-runtime", Msgid)
+# endif
+# endif
+# ifndef YY_
+# define YY_(Msgid) Msgid
+# endif
+#endif
+
+#ifndef YY_ATTRIBUTE
+# if (defined __GNUC__ \
+ && (2 < __GNUC__ || (__GNUC__ == 2 && 96 <= __GNUC_MINOR__))) \
+ || defined __SUNPRO_C && 0x5110 <= __SUNPRO_C
+# define YY_ATTRIBUTE(Spec) __attribute__(Spec)
+# else
+# define YY_ATTRIBUTE(Spec) /* empty */
+# endif
+#endif
+
+#ifndef YY_ATTRIBUTE_PURE
+# define YY_ATTRIBUTE_PURE YY_ATTRIBUTE ((__pure__))
+#endif
+
+#ifndef YY_ATTRIBUTE_UNUSED
+# define YY_ATTRIBUTE_UNUSED YY_ATTRIBUTE ((__unused__))
+#endif
+
+#if !defined _Noreturn \
+ && (!defined __STDC_VERSION__ || __STDC_VERSION__ < 201112)
+# if defined _MSC_VER && 1200 <= _MSC_VER
+# define _Noreturn __declspec (noreturn)
+# else
+# define _Noreturn YY_ATTRIBUTE ((__noreturn__))
+# endif
+#endif
+
+/* Suppress unused-variable warnings by "using" E. */
+#if ! defined lint || defined __GNUC__
+# define YYUSE(E) ((void) (E))
+#else
+# define YYUSE(E) /* empty */
+#endif
+
+#if defined __GNUC__ && 407 <= __GNUC__ * 100 + __GNUC_MINOR__
+/* Suppress an incorrect diagnostic about yylval being uninitialized. */
+# define YY_IGNORE_MAYBE_UNINITIALIZED_BEGIN \
+ _Pragma ("GCC diagnostic push") \
+ _Pragma ("GCC diagnostic ignored \"-Wuninitialized\"")\
+ _Pragma ("GCC diagnostic ignored \"-Wmaybe-uninitialized\"")
+# define YY_IGNORE_MAYBE_UNINITIALIZED_END \
+ _Pragma ("GCC diagnostic pop")
+#else
+# define YY_INITIAL_VALUE(Value) Value
+#endif
+#ifndef YY_IGNORE_MAYBE_UNINITIALIZED_BEGIN
+# define YY_IGNORE_MAYBE_UNINITIALIZED_BEGIN
+# define YY_IGNORE_MAYBE_UNINITIALIZED_END
+#endif
+#ifndef YY_INITIAL_VALUE
+# define YY_INITIAL_VALUE(Value) /* Nothing. */
+#endif
+
+
+#if ! defined yyoverflow || YYERROR_VERBOSE
+
+/* The parser invokes alloca or malloc; define the necessary symbols. */
+
+# ifdef YYSTACK_USE_ALLOCA
+# if YYSTACK_USE_ALLOCA
+# ifdef __GNUC__
+# define YYSTACK_ALLOC __builtin_alloca
+# elif defined __BUILTIN_VA_ARG_INCR
+# include <alloca.h> /* INFRINGES ON USER NAME SPACE */
+# elif defined _AIX
+# define YYSTACK_ALLOC __alloca
+# elif defined _MSC_VER
+# include <malloc.h> /* INFRINGES ON USER NAME SPACE */
+# define alloca _alloca
+# else
+# define YYSTACK_ALLOC alloca
+# if ! defined _ALLOCA_H && ! defined EXIT_SUCCESS
+# include <stdlib.h> /* INFRINGES ON USER NAME SPACE */
+ /* Use EXIT_SUCCESS as a witness for stdlib.h. */
+# ifndef EXIT_SUCCESS
+# define EXIT_SUCCESS 0
+# endif
+# endif
+# endif
+# endif
+# endif
+
+# ifdef YYSTACK_ALLOC
+ /* Pacify GCC's 'empty if-body' warning. */
+# define YYSTACK_FREE(Ptr) do { /* empty */; } while (0)
+# ifndef YYSTACK_ALLOC_MAXIMUM
+ /* The OS might guarantee only one guard page at the bottom of the stack,
+ and a page size can be as small as 4096 bytes. So we cannot safely
+ invoke alloca (N) if N exceeds 4096. Use a slightly smaller number
+ to allow for a few compiler-allocated temporary stack slots. */
+# define YYSTACK_ALLOC_MAXIMUM 4032 /* reasonable circa 2006 */
+# endif
+# else
+# define YYSTACK_ALLOC YYMALLOC
+# define YYSTACK_FREE YYFREE
+# ifndef YYSTACK_ALLOC_MAXIMUM
+# define YYSTACK_ALLOC_MAXIMUM YYSIZE_MAXIMUM
+# endif
+# if (defined __cplusplus && ! defined EXIT_SUCCESS \
+ && ! ((defined YYMALLOC || defined malloc) \
+ && (defined YYFREE || defined free)))
+# include <stdlib.h> /* INFRINGES ON USER NAME SPACE */
+# ifndef EXIT_SUCCESS
+# define EXIT_SUCCESS 0
+# endif
+# endif
+# ifndef YYMALLOC
+# define YYMALLOC malloc
+# if ! defined malloc && ! defined EXIT_SUCCESS
+void *malloc (YYSIZE_T); /* INFRINGES ON USER NAME SPACE */
+# endif
+# endif
+# ifndef YYFREE
+# define YYFREE free
+# if ! defined free && ! defined EXIT_SUCCESS
+void free (void *); /* INFRINGES ON USER NAME SPACE */
+# endif
+# endif
+# endif
+#endif /* ! defined yyoverflow || YYERROR_VERBOSE */
+
+
+#if (! defined yyoverflow \
+ && (! defined __cplusplus \
+ || (defined YYSTYPE_IS_TRIVIAL && YYSTYPE_IS_TRIVIAL)))
+
+/* A type that is properly aligned for any stack member. */
+union yyalloc
+{
+ yytype_int16 yyss_alloc;
+ YYSTYPE yyvs_alloc;
+};
+
+/* The size of the maximum gap between one aligned stack and the next. */
+# define YYSTACK_GAP_MAXIMUM (sizeof (union yyalloc) - 1)
+
+/* The size of an array large to enough to hold all stacks, each with
+ N elements. */
+# define YYSTACK_BYTES(N) \
+ ((N) * (sizeof (yytype_int16) + sizeof (YYSTYPE)) \
+ + YYSTACK_GAP_MAXIMUM)
+
+# define YYCOPY_NEEDED 1
+
+/* Relocate STACK from its old location to the new one. The
+ local variables YYSIZE and YYSTACKSIZE give the old and new number of
+ elements in the stack, and YYPTR gives the new location of the
+ stack. Advance YYPTR to a properly aligned location for the next
+ stack. */
+# define YYSTACK_RELOCATE(Stack_alloc, Stack) \
+ do \
+ { \
+ YYSIZE_T yynewbytes; \
+ YYCOPY (&yyptr->Stack_alloc, Stack, yysize); \
+ Stack = &yyptr->Stack_alloc; \
+ yynewbytes = yystacksize * sizeof (*Stack) + YYSTACK_GAP_MAXIMUM; \
+ yyptr += yynewbytes / sizeof (*yyptr); \
+ } \
+ while (0)
+
+#endif
+
+#if defined YYCOPY_NEEDED && YYCOPY_NEEDED
+/* Copy COUNT objects from SRC to DST. The source and destination do
+ not overlap. */
+# ifndef YYCOPY
+# if defined __GNUC__ && 1 < __GNUC__
+# define YYCOPY(Dst, Src, Count) \
+ __builtin_memcpy (Dst, Src, (Count) * sizeof (*(Src)))
+# else
+# define YYCOPY(Dst, Src, Count) \
+ do \
+ { \
+ YYSIZE_T yyi; \
+ for (yyi = 0; yyi < (Count); yyi++) \
+ (Dst)[yyi] = (Src)[yyi]; \
+ } \
+ while (0)
+# endif
+# endif
+#endif /* !YYCOPY_NEEDED */
+
+/* YYFINAL -- State number of the termination state. */
+#define YYFINAL 2
+/* YYLAST -- Last index in YYTABLE. */
+#define YYLAST 27
+
+/* YYNTOKENS -- Number of terminals. */
+#define YYNTOKENS 10
+/* YYNNTS -- Number of nonterminals. */
+#define YYNNTS 4
+/* YYNRULES -- Number of rules. */
+#define YYNRULES 15
+/* YYNSTATES -- Number of states. */
+#define YYNSTATES 19
+
+/* YYTRANSLATE[YYX] -- Symbol number corresponding to YYX as returned
+ by yylex, with out-of-bounds checking. */
+#define YYUNDEFTOK 2
+#define YYMAXUTOK 264
+
+#define YYTRANSLATE(YYX) \
+ ((unsigned int) (YYX) <= YYMAXUTOK ? yytranslate[YYX] : YYUNDEFTOK)
+
+/* YYTRANSLATE[TOKEN-NUM] -- Symbol number corresponding to TOKEN-NUM
+ as returned by yylex, without out-of-bounds checking. */
+static const yytype_uint8 yytranslate[] =
+{
+ 0, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+ 2, 2, 2, 2, 2, 2, 1, 2, 3, 4,
+ 5, 6, 7, 8, 9
+};
+
+#if YYDEBUG
+ /* YYRLINE[YYN] -- Source line where rule number YYN was defined. */
+static const yytype_uint8 yyrline[] =
+{
+ 0, 39, 39, 40, 44, 53, 72, 99, 128, 131,
+ 139, 142, 147, 151, 154, 160
+};
+#endif
+
+#if YYDEBUG || YYERROR_VERBOSE || 0
+/* YYTNAME[SYMBOL-NUM] -- String name of the symbol SYMBOL-NUM.
+ First, the terminals, then, starting at YYNTOKENS, nonterminals. */
+static const char *const yytname[] =
+{
+ "$end", "error", "$undefined", "NEW_COUNTER", "LABEL", "HASH", "CHAR",
+ "NEWLINE", "NO_INDENT", "RIGHT", "$accept", "doc", "stuff", "text", YY_NULLPTR
+};
+#endif
+
+# ifdef YYPRINT
+/* YYTOKNUM[NUM] -- (External) token number corresponding to the
+ (internal) symbol number NUM (which must be that of a token). */
+static const yytype_uint16 yytoknum[] =
+{
+ 0, 256, 257, 258, 259, 260, 261, 262, 263, 264
+};
+# endif
+
+#define YYPACT_NINF -3
+
+#define yypact_value_is_default(Yystate) \
+ (!!((Yystate) == (-3)))
+
+#define YYTABLE_NINF -1
+
+#define yytable_value_is_error(Yytable_value) \
+ 0
+
+ /* YYPACT[STATE-NUM] -- Index in YYTABLE of the portion describing
+ STATE-NUM. */
+static const yytype_int8 yypact[] =
+{
+ -3, 0, -3, -3, 5, -3, -3, -3, -3, -3,
+ -3, -3, 17, 12, -3, -3, -3, -2, -3
+};
+
+ /* YYDEFACT[STATE-NUM] -- Default reduction number in state STATE-NUM.
+ Performed when YYTABLE does not specify something else to do. Zero
+ means the default is an error. */
+static const yytype_uint8 yydefact[] =
+{
+ 2, 8, 1, 3, 0, 15, 14, 13, 10, 4,
+ 12, 8, 9, 0, 11, 5, 8, 0, 6
+};
+
+ /* YYPGOTO[NTERM-NUM]. */
+static const yytype_int8 yypgoto[] =
+{
+ -3, -3, 11, -3
+};
+
+ /* YYDEFGOTO[NTERM-NUM]. */
+static const yytype_int8 yydefgoto[] =
+{
+ -1, 1, 4, 12
+};
+
+ /* YYTABLE[YYPACT[STATE-NUM]] -- What to do in state STATE-NUM. If
+ positive, shift that token. If negative, reduce the rule whose
+ number is the opposite. If YYTABLE_NINF, syntax error. */
+static const yytype_uint8 yytable[] =
+{
+ 2, 5, 6, 7, 8, 18, 10, 3, 5, 6,
+ 7, 8, 9, 10, 11, 5, 6, 7, 8, 15,
+ 10, 16, 13, 14, 0, 0, 0, 17
+};
+
+static const yytype_int8 yycheck[] =
+{
+ 0, 3, 4, 5, 6, 7, 8, 7, 3, 4,
+ 5, 6, 7, 8, 9, 3, 4, 5, 6, 7,
+ 8, 9, 11, 6, -1, -1, -1, 16
+};
+
+ /* YYSTOS[STATE-NUM] -- The (internal number of the) accessing
+ symbol of state STATE-NUM. */
+static const yytype_uint8 yystos[] =
+{
+ 0, 11, 0, 7, 12, 3, 4, 5, 6, 7,
+ 8, 9, 13, 12, 6, 7, 9, 12, 7
+};
+
+ /* YYR1[YYN] -- Symbol number of symbol that rule YYN derives. */
+static const yytype_uint8 yyr1[] =
+{
+ 0, 10, 11, 11, 11, 11, 11, 11, 12, 12,
+ 13, 13, 13, 13, 13, 13
+};
+
+ /* YYR2[YYN] -- Number of symbols on the right hand side of rule YYN. */
+static const yytype_uint8 yyr2[] =
+{
+ 0, 2, 0, 2, 3, 5, 7, 7, 0, 2,
+ 1, 2, 1, 1, 1, 1
+};
+
+
+#define yyerrok (yyerrstatus = 0)
+#define yyclearin (yychar = YYEMPTY)
+#define YYEMPTY (-2)
+#define YYEOF 0
+
+#define YYACCEPT goto yyacceptlab
+#define YYABORT goto yyabortlab
+#define YYERROR goto yyerrorlab
+
+
+#define YYRECOVERING() (!!yyerrstatus)
+
+#define YYBACKUP(Token, Value) \
+do \
+ if (yychar == YYEMPTY) \
+ { \
+ yychar = (Token); \
+ yylval = (Value); \
+ YYPOPSTACK (yylen); \
+ yystate = *yyssp; \
+ goto yybackup; \
+ } \
+ else \
+ { \
+ yyerror (YY_("syntax error: cannot back up")); \
+ YYERROR; \
+ } \
+while (0)
+
+/* Error token number */
+#define YYTERROR 1
+#define YYERRCODE 256
+
+
+
+/* Enable debugging if requested. */
+#if YYDEBUG
+
+# ifndef YYFPRINTF
+# include <stdio.h> /* INFRINGES ON USER NAME SPACE */
+# define YYFPRINTF fprintf
+# endif
+
+# define YYDPRINTF(Args) \
+do { \
+ if (yydebug) \
+ YYFPRINTF Args; \
+} while (0)
+
+/* This macro is provided for backward compatibility. */
+#ifndef YY_LOCATION_PRINT
+# define YY_LOCATION_PRINT(File, Loc) ((void) 0)
+#endif
+
+
+# define YY_SYMBOL_PRINT(Title, Type, Value, Location) \
+do { \
+ if (yydebug) \
+ { \
+ YYFPRINTF (stderr, "%s ", Title); \
+ yy_symbol_print (stderr, \
+ Type, Value); \
+ YYFPRINTF (stderr, "\n"); \
+ } \
+} while (0)
+
+
+/*----------------------------------------.
+| Print this symbol's value on YYOUTPUT. |
+`----------------------------------------*/
+
+static void
+yy_symbol_value_print (FILE *yyoutput, int yytype, YYSTYPE const * const yyvaluep)
+{
+ FILE *yyo = yyoutput;
+ YYUSE (yyo);
+ if (!yyvaluep)
+ return;
+# ifdef YYPRINT
+ if (yytype < YYNTOKENS)
+ YYPRINT (yyoutput, yytoknum[yytype], *yyvaluep);
+# endif
+ YYUSE (yytype);
+}
+
+
+/*--------------------------------.
+| Print this symbol on YYOUTPUT. |
+`--------------------------------*/
+
+static void
+yy_symbol_print (FILE *yyoutput, int yytype, YYSTYPE const * const yyvaluep)
+{
+ YYFPRINTF (yyoutput, "%s %s (",
+ yytype < YYNTOKENS ? "token" : "nterm", yytname[yytype]);
+
+ yy_symbol_value_print (yyoutput, yytype, yyvaluep);
+ YYFPRINTF (yyoutput, ")");
+}
+
+/*------------------------------------------------------------------.
+| yy_stack_print -- Print the state stack from its BOTTOM up to its |
+| TOP (included). |
+`------------------------------------------------------------------*/
+
+static void
+yy_stack_print (yytype_int16 *yybottom, yytype_int16 *yytop)
+{
+ YYFPRINTF (stderr, "Stack now");
+ for (; yybottom <= yytop; yybottom++)
+ {
+ int yybot = *yybottom;
+ YYFPRINTF (stderr, " %d", yybot);
+ }
+ YYFPRINTF (stderr, "\n");
+}
+
+# define YY_STACK_PRINT(Bottom, Top) \
+do { \
+ if (yydebug) \
+ yy_stack_print ((Bottom), (Top)); \
+} while (0)
+
+
+/*------------------------------------------------.
+| Report that the YYRULE is going to be reduced. |
+`------------------------------------------------*/
+
+static void
+yy_reduce_print (yytype_int16 *yyssp, YYSTYPE *yyvsp, int yyrule)
+{
+ unsigned long int yylno = yyrline[yyrule];
+ int yynrhs = yyr2[yyrule];
+ int yyi;
+ YYFPRINTF (stderr, "Reducing stack by rule %d (line %lu):\n",
+ yyrule - 1, yylno);
+ /* The symbols being reduced. */
+ for (yyi = 0; yyi < yynrhs; yyi++)
+ {
+ YYFPRINTF (stderr, " $%d = ", yyi + 1);
+ yy_symbol_print (stderr,
+ yystos[yyssp[yyi + 1 - yynrhs]],
+ &(yyvsp[(yyi + 1) - (yynrhs)])
+ );
+ YYFPRINTF (stderr, "\n");
+ }
+}
+
+# define YY_REDUCE_PRINT(Rule) \
+do { \
+ if (yydebug) \
+ yy_reduce_print (yyssp, yyvsp, Rule); \
+} while (0)
+
+/* Nonzero means print parse trace. It is left uninitialized so that
+ multiple parsers can coexist. */
+int yydebug;
+#else /* !YYDEBUG */
+# define YYDPRINTF(Args)
+# define YY_SYMBOL_PRINT(Title, Type, Value, Location)
+# define YY_STACK_PRINT(Bottom, Top)
+# define YY_REDUCE_PRINT(Rule)
+#endif /* !YYDEBUG */
+
+
+/* YYINITDEPTH -- initial size of the parser's stacks. */
+#ifndef YYINITDEPTH
+# define YYINITDEPTH 200
+#endif
+
+/* YYMAXDEPTH -- maximum size the stacks can grow to (effective only
+ if the built-in stack extension method is used).
+
+ Do not make this value too large; the results are undefined if
+ YYSTACK_ALLOC_MAXIMUM < YYSTACK_BYTES (YYMAXDEPTH)
+ evaluated with infinite-precision integer arithmetic. */
+
+#ifndef YYMAXDEPTH
+# define YYMAXDEPTH 10000
+#endif
+
+
+#if YYERROR_VERBOSE
+
+# ifndef yystrlen
+# if defined __GLIBC__ && defined _STRING_H
+# define yystrlen strlen
+# else
+/* Return the length of YYSTR. */
+static YYSIZE_T
+yystrlen (const char *yystr)
+{
+ YYSIZE_T yylen;
+ for (yylen = 0; yystr[yylen]; yylen++)
+ continue;
+ return yylen;
+}
+# endif
+# endif
+
+# ifndef yystpcpy
+# if defined __GLIBC__ && defined _STRING_H && defined _GNU_SOURCE
+# define yystpcpy stpcpy
+# else
+/* Copy YYSRC to YYDEST, returning the address of the terminating '\0' in
+ YYDEST. */
+static char *
+yystpcpy (char *yydest, const char *yysrc)
+{
+ char *yyd = yydest;
+ const char *yys = yysrc;
+
+ while ((*yyd++ = *yys++) != '\0')
+ continue;
+
+ return yyd - 1;
+}
+# endif
+# endif
+
+# ifndef yytnamerr
+/* Copy to YYRES the contents of YYSTR after stripping away unnecessary
+ quotes and backslashes, so that it's suitable for yyerror. The
+ heuristic is that double-quoting is unnecessary unless the string
+ contains an apostrophe, a comma, or backslash (other than
+ backslash-backslash). YYSTR is taken from yytname. If YYRES is
+ null, do not copy; instead, return the length of what the result
+ would have been. */
+static YYSIZE_T
+yytnamerr (char *yyres, const char *yystr)
+{
+ if (*yystr == '"')
+ {
+ YYSIZE_T yyn = 0;
+ char const *yyp = yystr;
+
+ for (;;)
+ switch (*++yyp)
+ {
+ case '\'':
+ case ',':
+ goto do_not_strip_quotes;
+
+ case '\\':
+ if (*++yyp != '\\')
+ goto do_not_strip_quotes;
+ /* Fall through. */
+ default:
+ if (yyres)
+ yyres[yyn] = *yyp;
+ yyn++;
+ break;
+
+ case '"':
+ if (yyres)
+ yyres[yyn] = '\0';
+ return yyn;
+ }
+ do_not_strip_quotes: ;
+ }
+
+ if (! yyres)
+ return yystrlen (yystr);
+
+ return yystpcpy (yyres, yystr) - yyres;
+}
+# endif
+
+/* Copy into *YYMSG, which is of size *YYMSG_ALLOC, an error message
+ about the unexpected token YYTOKEN for the state stack whose top is
+ YYSSP.
+
+ Return 0 if *YYMSG was successfully written. Return 1 if *YYMSG is
+ not large enough to hold the message. In that case, also set
+ *YYMSG_ALLOC to the required number of bytes. Return 2 if the
+ required number of bytes is too large to store. */
+static int
+yysyntax_error (YYSIZE_T *yymsg_alloc, char **yymsg,
+ yytype_int16 *yyssp, int yytoken)
+{
+ YYSIZE_T yysize0 = yytnamerr (YY_NULLPTR, yytname[yytoken]);
+ YYSIZE_T yysize = yysize0;
+ enum { YYERROR_VERBOSE_ARGS_MAXIMUM = 5 };
+ /* Internationalized format string. */
+ const char *yyformat = YY_NULLPTR;
+ /* Arguments of yyformat. */
+ char const *yyarg[YYERROR_VERBOSE_ARGS_MAXIMUM];
+ /* Number of reported tokens (one for the "unexpected", one per
+ "expected"). */
+ int yycount = 0;
+
+ /* There are many possibilities here to consider:
+ - If this state is a consistent state with a default action, then
+ the only way this function was invoked is if the default action
+ is an error action. In that case, don't check for expected
+ tokens because there are none.
+ - The only way there can be no lookahead present (in yychar) is if
+ this state is a consistent state with a default action. Thus,
+ detecting the absence of a lookahead is sufficient to determine
+ that there is no unexpected or expected token to report. In that
+ case, just report a simple "syntax error".
+ - Don't assume there isn't a lookahead just because this state is a
+ consistent state with a default action. There might have been a
+ previous inconsistent state, consistent state with a non-default
+ action, or user semantic action that manipulated yychar.
+ - Of course, the expected token list depends on states to have
+ correct lookahead information, and it depends on the parser not
+ to perform extra reductions after fetching a lookahead from the
+ scanner and before detecting a syntax error. Thus, state merging
+ (from LALR or IELR) and default reductions corrupt the expected
+ token list. However, the list is correct for canonical LR with
+ one exception: it will still contain any token that will not be
+ accepted due to an error action in a later state.
+ */
+ if (yytoken != YYEMPTY)
+ {
+ int yyn = yypact[*yyssp];
+ yyarg[yycount++] = yytname[yytoken];
+ if (!yypact_value_is_default (yyn))
+ {
+ /* Start YYX at -YYN if negative to avoid negative indexes in
+ YYCHECK. In other words, skip the first -YYN actions for
+ this state because they are default actions. */
+ int yyxbegin = yyn < 0 ? -yyn : 0;
+ /* Stay within bounds of both yycheck and yytname. */
+ int yychecklim = YYLAST - yyn + 1;
+ int yyxend = yychecklim < YYNTOKENS ? yychecklim : YYNTOKENS;
+ int yyx;
+
+ for (yyx = yyxbegin; yyx < yyxend; ++yyx)
+ if (yycheck[yyx + yyn] == yyx && yyx != YYTERROR
+ && !yytable_value_is_error (yytable[yyx + yyn]))
+ {
+ if (yycount == YYERROR_VERBOSE_ARGS_MAXIMUM)
+ {
+ yycount = 1;
+ yysize = yysize0;
+ break;
+ }
+ yyarg[yycount++] = yytname[yyx];
+ {
+ YYSIZE_T yysize1 = yysize + yytnamerr (YY_NULLPTR, yytname[yyx]);
+ if (! (yysize <= yysize1
+ && yysize1 <= YYSTACK_ALLOC_MAXIMUM))
+ return 2;
+ yysize = yysize1;
+ }
+ }
+ }
+ }
+
+ switch (yycount)
+ {
+# define YYCASE_(N, S) \
+ case N: \
+ yyformat = S; \
+ break
+ default: /* Avoid compiler warnings. */
+ YYCASE_(0, YY_("syntax error"));
+ YYCASE_(1, YY_("syntax error, unexpected %s"));
+ YYCASE_(2, YY_("syntax error, unexpected %s, expecting %s"));
+ YYCASE_(3, YY_("syntax error, unexpected %s, expecting %s or %s"));
+ YYCASE_(4, YY_("syntax error, unexpected %s, expecting %s or %s or %s"));
+ YYCASE_(5, YY_("syntax error, unexpected %s, expecting %s or %s or %s or %s"));
+# undef YYCASE_
+ }
+
+ {
+ YYSIZE_T yysize1 = yysize + yystrlen (yyformat);
+ if (! (yysize <= yysize1 && yysize1 <= YYSTACK_ALLOC_MAXIMUM))
+ return 2;
+ yysize = yysize1;
+ }
+
+ if (*yymsg_alloc < yysize)
+ {
+ *yymsg_alloc = 2 * yysize;
+ if (! (yysize <= *yymsg_alloc
+ && *yymsg_alloc <= YYSTACK_ALLOC_MAXIMUM))
+ *yymsg_alloc = YYSTACK_ALLOC_MAXIMUM;
+ return 1;
+ }
+
+ /* Avoid sprintf, as that infringes on the user's name space.
+ Don't have undefined behavior even if the translation
+ produced a string with the wrong number of "%s"s. */
+ {
+ char *yyp = *yymsg;
+ int yyi = 0;
+ while ((*yyp = *yyformat) != '\0')
+ if (*yyp == '%' && yyformat[1] == 's' && yyi < yycount)
+ {
+ yyp += yytnamerr (yyp, yyarg[yyi++]);
+ yyformat += 2;
+ }
+ else
+ {
+ yyp++;
+ yyformat++;
+ }
+ }
+ return 0;
+}
+#endif /* YYERROR_VERBOSE */
+
+/*-----------------------------------------------.
+| Release the memory associated to this symbol. |
+`-----------------------------------------------*/
+
+static void
+yydestruct (const char *yymsg, int yytype, YYSTYPE *yyvaluep)
+{
+ YYUSE (yyvaluep);
+ if (!yymsg)
+ yymsg = "Deleting";
+ YY_SYMBOL_PRINT (yymsg, yytype, yyvaluep, yylocationp);
+
+ YY_IGNORE_MAYBE_UNINITIALIZED_BEGIN
+ YYUSE (yytype);
+ YY_IGNORE_MAYBE_UNINITIALIZED_END
+}
+
+
+
+
+/* The lookahead symbol. */
+int yychar;
+
+/* The semantic value of the lookahead symbol. */
+YYSTYPE yylval;
+/* Number of syntax errors so far. */
+int yynerrs;
+
+
+/*----------.
+| yyparse. |
+`----------*/
+
+int
+yyparse (void)
+{
+ int yystate;
+ /* Number of tokens to shift before error messages enabled. */
+ int yyerrstatus;
+
+ /* The stacks and their tools:
+ 'yyss': related to states.
+ 'yyvs': related to semantic values.
+
+ Refer to the stacks through separate pointers, to allow yyoverflow
+ to reallocate them elsewhere. */
+
+ /* The state stack. */
+ yytype_int16 yyssa[YYINITDEPTH];
+ yytype_int16 *yyss;
+ yytype_int16 *yyssp;
+
+ /* The semantic value stack. */
+ YYSTYPE yyvsa[YYINITDEPTH];
+ YYSTYPE *yyvs;
+ YYSTYPE *yyvsp;
+
+ YYSIZE_T yystacksize;
+
+ int yyn;
+ int yyresult;
+ /* Lookahead token as an internal (translated) token number. */
+ int yytoken = 0;
+ /* The variables used to return semantic value and location from the
+ action routines. */
+ YYSTYPE yyval;
+
+#if YYERROR_VERBOSE
+ /* Buffer for error messages, and its allocated size. */
+ char yymsgbuf[128];
+ char *yymsg = yymsgbuf;
+ YYSIZE_T yymsg_alloc = sizeof yymsgbuf;
+#endif
+
+#define YYPOPSTACK(N) (yyvsp -= (N), yyssp -= (N))
+
+ /* The number of symbols on the RHS of the reduced rule.
+ Keep to zero when no symbol should be popped. */
+ int yylen = 0;
+
+ yyssp = yyss = yyssa;
+ yyvsp = yyvs = yyvsa;
+ yystacksize = YYINITDEPTH;
+
+ YYDPRINTF ((stderr, "Starting parse\n"));
+
+ yystate = 0;
+ yyerrstatus = 0;
+ yynerrs = 0;
+ yychar = YYEMPTY; /* Cause a token to be read. */
+ goto yysetstate;
+
+/*------------------------------------------------------------.
+| yynewstate -- Push a new state, which is found in yystate. |
+`------------------------------------------------------------*/
+ yynewstate:
+ /* In all cases, when you get here, the value and location stacks
+ have just been pushed. So pushing a state here evens the stacks. */
+ yyssp++;
+
+ yysetstate:
+ *yyssp = yystate;
+
+ if (yyss + yystacksize - 1 <= yyssp)
+ {
+ /* Get the current used size of the three stacks, in elements. */
+ YYSIZE_T yysize = yyssp - yyss + 1;
+
+#ifdef yyoverflow
+ {
+ /* Give user a chance to reallocate the stack. Use copies of
+ these so that the &'s don't force the real ones into
+ memory. */
+ YYSTYPE *yyvs1 = yyvs;
+ yytype_int16 *yyss1 = yyss;
+
+ /* Each stack pointer address is followed by the size of the
+ data in use in that stack, in bytes. This used to be a
+ conditional around just the two extra args, but that might
+ be undefined if yyoverflow is a macro. */
+ yyoverflow (YY_("memory exhausted"),
+ &yyss1, yysize * sizeof (*yyssp),
+ &yyvs1, yysize * sizeof (*yyvsp),
+ &yystacksize);
+
+ yyss = yyss1;
+ yyvs = yyvs1;
+ }
+#else /* no yyoverflow */
+# ifndef YYSTACK_RELOCATE
+ goto yyexhaustedlab;
+# else
+ /* Extend the stack our own way. */
+ if (YYMAXDEPTH <= yystacksize)
+ goto yyexhaustedlab;
+ yystacksize *= 2;
+ if (YYMAXDEPTH < yystacksize)
+ yystacksize = YYMAXDEPTH;
+
+ {
+ yytype_int16 *yyss1 = yyss;
+ union yyalloc *yyptr =
+ (union yyalloc *) YYSTACK_ALLOC (YYSTACK_BYTES (yystacksize));
+ if (! yyptr)
+ goto yyexhaustedlab;
+ YYSTACK_RELOCATE (yyss_alloc, yyss);
+ YYSTACK_RELOCATE (yyvs_alloc, yyvs);
+# undef YYSTACK_RELOCATE
+ if (yyss1 != yyssa)
+ YYSTACK_FREE (yyss1);
+ }
+# endif
+#endif /* no yyoverflow */
+
+ yyssp = yyss + yysize - 1;
+ yyvsp = yyvs + yysize - 1;
+
+ YYDPRINTF ((stderr, "Stack size increased to %lu\n",
+ (unsigned long int) yystacksize));
+
+ if (yyss + yystacksize - 1 <= yyssp)
+ YYABORT;
+ }
+
+ YYDPRINTF ((stderr, "Entering state %d\n", yystate));
+
+ if (yystate == YYFINAL)
+ YYACCEPT;
+
+ goto yybackup;
+
+/*-----------.
+| yybackup. |
+`-----------*/
+yybackup:
+
+ /* Do appropriate processing given the current state. Read a
+ lookahead token if we need one and don't already have one. */
+
+ /* First try to decide what to do without reference to lookahead token. */
+ yyn = yypact[yystate];
+ if (yypact_value_is_default (yyn))
+ goto yydefault;
+
+ /* Not known => get a lookahead token if don't already have one. */
+
+ /* YYCHAR is either YYEMPTY or YYEOF or a valid lookahead symbol. */
+ if (yychar == YYEMPTY)
+ {
+ YYDPRINTF ((stderr, "Reading a token: "));
+ yychar = yylex ();
+ }
+
+ if (yychar <= YYEOF)
+ {
+ yychar = yytoken = YYEOF;
+ YYDPRINTF ((stderr, "Now at end of input.\n"));
+ }
+ else
+ {
+ yytoken = YYTRANSLATE (yychar);
+ YY_SYMBOL_PRINT ("Next token is", yytoken, &yylval, &yylloc);
+ }
+
+ /* If the proper action on seeing token YYTOKEN is to reduce or to
+ detect an error, take that action. */
+ yyn += yytoken;
+ if (yyn < 0 || YYLAST < yyn || yycheck[yyn] != yytoken)
+ goto yydefault;
+ yyn = yytable[yyn];
+ if (yyn <= 0)
+ {
+ if (yytable_value_is_error (yyn))
+ goto yyerrlab;
+ yyn = -yyn;
+ goto yyreduce;
+ }
+
+ /* Count tokens shifted since error; after three, turn off error
+ status. */
+ if (yyerrstatus)
+ yyerrstatus--;
+
+ /* Shift the lookahead token. */
+ YY_SYMBOL_PRINT ("Shifting", yytoken, &yylval, &yylloc);
+
+ /* Discard the shifted token. */
+ yychar = YYEMPTY;
+
+ yystate = yyn;
+ YY_IGNORE_MAYBE_UNINITIALIZED_BEGIN
+ *++yyvsp = yylval;
+ YY_IGNORE_MAYBE_UNINITIALIZED_END
+
+ goto yynewstate;
+
+
+/*-----------------------------------------------------------.
+| yydefault -- do the default action for the current state. |
+`-----------------------------------------------------------*/
+yydefault:
+ yyn = yydefact[yystate];
+ if (yyn == 0)
+ goto yyerrlab;
+ goto yyreduce;
+
+
+/*-----------------------------.
+| yyreduce -- Do a reduction. |
+`-----------------------------*/
+yyreduce:
+ /* yyn is the number of a rule to reduce with. */
+ yylen = yyr2[yyn];
+
+ /* If YYLEN is nonzero, implement the default value of the action:
+ '$$ = $1'.
+
+ Otherwise, the following line sets YYVAL to garbage.
+ This behavior is undocumented and Bison
+ users should not rely upon it. Assigning to YYVAL
+ unconditionally makes the parser a bit smaller, and it avoids a
+ GCC warning that YYVAL may be used uninitialized. */
+ yyval = yyvsp[1-yylen];
+
+
+ YY_REDUCE_PRINT (yyn);
+ switch (yyn)
+ {
+ case 3:
+#line 40 "parse_y.y" /* yacc.c:1648 */
+ {
+ printf("\n");
+ ++line;
+}
+#line 1251 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 4:
+#line 44 "parse_y.y" /* yacc.c:1648 */
+ {
+ if (strlen((yyvsp[-1].string)) > (PAPER_WIDTH-(indent ? strlen(INDENT_STRING):0))) {
+ yyerror("line too long");
+ }
+ printf("%s%s\n", indent ? INDENT_STRING:"", (yyvsp[-1].string));
+ free((yyvsp[-1].string));
+ indent = 1;
+ ++line;
+}
+#line 1265 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 5:
+#line 53 "parse_y.y" /* yacc.c:1648 */
+ {
+ char fixed[PAPER_WIDTH+1];
+ int len;
+
+ len = PAPER_WIDTH-(strlen((yyvsp[-3].string))+strlen((yyvsp[-1].string)));
+
+ if (len >= 0) {
+ memset(fixed, ' ', len);
+ fixed[len] = '\0';
+ } else {
+ yyerror("line too wide");
+ fixed[0] = '\0';
+ }
+ printf("%s%s%s\n", (yyvsp[-3].string), fixed, (yyvsp[-1].string));
+ free((yyvsp[-3].string));
+ free((yyvsp[-1].string));
+ indent = 1;
+ ++line;
+}
+#line 1289 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 6:
+#line 72 "parse_y.y" /* yacc.c:1648 */
+ {
+ char fixed[PAPER_WIDTH+1];
+ int len, l;
+
+ len = PAPER_WIDTH-(strlen((yyvsp[-5].string))+strlen((yyvsp[-3].string)));
+
+ if (len < 0) {
+ len = 0;
+ yyerror("line too wide");
+ }
+
+ l = len/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s%s", (yyvsp[-5].string), fixed, (yyvsp[-3].string));
+ free((yyvsp[-5].string));
+ free((yyvsp[-3].string));
+
+ l = (len+1)/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s\n", fixed, (yyvsp[-1].string));
+ free((yyvsp[-1].string));
+
+ indent = 1;
+ ++line;
+}
+#line 1321 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 7:
+#line 99 "parse_y.y" /* yacc.c:1648 */
+ {
+ char fixed[PAPER_WIDTH+1];
+ int len, l;
+
+ len = PAPER_WIDTH-(strlen((yyvsp[-5].string))+strlen((yyvsp[-3].string)));
+
+ if (len < 0) {
+ len = 0;
+ yyerror("line too wide");
+ }
+
+ l = len/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s%s", (yyvsp[-5].string), fixed, (yyvsp[-3].string));
+ free((yyvsp[-5].string));
+ free((yyvsp[-3].string));
+
+ l = (len+1)/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s\n", fixed, (yyvsp[-1].string));
+ free((yyvsp[-1].string));
+
+ indent = 1;
+ ++line;
+}
+#line 1353 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 8:
+#line 128 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = strdup("");
+}
+#line 1361 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 9:
+#line 131 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = malloc(strlen((yyvsp[-1].string))+strlen((yyvsp[0].string))+1);
+ sprintf((yyval.string),"%s%s", (yyvsp[-1].string), (yyvsp[0].string));
+ free((yyvsp[-1].string));
+ free((yyvsp[0].string));
+}
+#line 1372 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 10:
+#line 139 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = strdup(yytext);
+}
+#line 1380 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 11:
+#line 142 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = malloc(strlen((yyvsp[-1].string))+2);
+ sprintf((yyval.string),"%s%s", (yyvsp[-1].string), yytext);
+ free((yyvsp[-1].string));
+}
+#line 1390 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 12:
+#line 147 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = strdup("");
+ indent = 0;
+}
+#line 1399 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 13:
+#line 151 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = strdup("#");
+}
+#line 1407 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 14:
+#line 154 "parse_y.y" /* yacc.c:1648 */
+ {
+ if (((yyval.string) = get_label(yytext)) == NULL) {
+ set_label(yytext, last_label);
+ (yyval.string) = strdup("");
+ }
+}
+#line 1418 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+ case 15:
+#line 160 "parse_y.y" /* yacc.c:1648 */
+ {
+ (yyval.string) = new_counter(yytext);
+}
+#line 1426 "parse_y.c" /* yacc.c:1648 */
+ break;
+
+
+#line 1430 "parse_y.c" /* yacc.c:1648 */
+ default: break;
+ }
+ /* User semantic actions sometimes alter yychar, and that requires
+ that yytoken be updated with the new translation. We take the
+ approach of translating immediately before every use of yytoken.
+ One alternative is translating here after every semantic action,
+ but that translation would be missed if the semantic action invokes
+ YYABORT, YYACCEPT, or YYERROR immediately after altering yychar or
+ if it invokes YYBACKUP. In the case of YYABORT or YYACCEPT, an
+ incorrect destructor might then be invoked immediately. In the
+ case of YYERROR or YYBACKUP, subsequent parser actions might lead
+ to an incorrect destructor call or verbose syntax error message
+ before the lookahead is translated. */
+ YY_SYMBOL_PRINT ("-> $$ =", yyr1[yyn], &yyval, &yyloc);
+
+ YYPOPSTACK (yylen);
+ yylen = 0;
+ YY_STACK_PRINT (yyss, yyssp);
+
+ *++yyvsp = yyval;
+
+ /* Now 'shift' the result of the reduction. Determine what state
+ that goes to, based on the state we popped back to and the rule
+ number reduced by. */
+
+ yyn = yyr1[yyn];
+
+ yystate = yypgoto[yyn - YYNTOKENS] + *yyssp;
+ if (0 <= yystate && yystate <= YYLAST && yycheck[yystate] == *yyssp)
+ yystate = yytable[yystate];
+ else
+ yystate = yydefgoto[yyn - YYNTOKENS];
+
+ goto yynewstate;
+
+
+/*--------------------------------------.
+| yyerrlab -- here on detecting error. |
+`--------------------------------------*/
+yyerrlab:
+ /* Make sure we have latest lookahead translation. See comments at
+ user semantic actions for why this is necessary. */
+ yytoken = yychar == YYEMPTY ? YYEMPTY : YYTRANSLATE (yychar);
+
+ /* If not already recovering from an error, report this error. */
+ if (!yyerrstatus)
+ {
+ ++yynerrs;
+#if ! YYERROR_VERBOSE
+ yyerror (YY_("syntax error"));
+#else
+# define YYSYNTAX_ERROR yysyntax_error (&yymsg_alloc, &yymsg, \
+ yyssp, yytoken)
+ {
+ char const *yymsgp = YY_("syntax error");
+ int yysyntax_error_status;
+ yysyntax_error_status = YYSYNTAX_ERROR;
+ if (yysyntax_error_status == 0)
+ yymsgp = yymsg;
+ else if (yysyntax_error_status == 1)
+ {
+ if (yymsg != yymsgbuf)
+ YYSTACK_FREE (yymsg);
+ yymsg = (char *) YYSTACK_ALLOC (yymsg_alloc);
+ if (!yymsg)
+ {
+ yymsg = yymsgbuf;
+ yymsg_alloc = sizeof yymsgbuf;
+ yysyntax_error_status = 2;
+ }
+ else
+ {
+ yysyntax_error_status = YYSYNTAX_ERROR;
+ yymsgp = yymsg;
+ }
+ }
+ yyerror (yymsgp);
+ if (yysyntax_error_status == 2)
+ goto yyexhaustedlab;
+ }
+# undef YYSYNTAX_ERROR
+#endif
+ }
+
+
+
+ if (yyerrstatus == 3)
+ {
+ /* If just tried and failed to reuse lookahead token after an
+ error, discard it. */
+
+ if (yychar <= YYEOF)
+ {
+ /* Return failure if at end of input. */
+ if (yychar == YYEOF)
+ YYABORT;
+ }
+ else
+ {
+ yydestruct ("Error: discarding",
+ yytoken, &yylval);
+ yychar = YYEMPTY;
+ }
+ }
+
+ /* Else will try to reuse lookahead token after shifting the error
+ token. */
+ goto yyerrlab1;
+
+
+/*---------------------------------------------------.
+| yyerrorlab -- error raised explicitly by YYERROR. |
+`---------------------------------------------------*/
+yyerrorlab:
+
+ /* Pacify compilers like GCC when the user code never invokes
+ YYERROR and the label yyerrorlab therefore never appears in user
+ code. */
+ if (/*CONSTCOND*/ 0)
+ goto yyerrorlab;
+
+ /* Do not reclaim the symbols of the rule whose action triggered
+ this YYERROR. */
+ YYPOPSTACK (yylen);
+ yylen = 0;
+ YY_STACK_PRINT (yyss, yyssp);
+ yystate = *yyssp;
+ goto yyerrlab1;
+
+
+/*-------------------------------------------------------------.
+| yyerrlab1 -- common code for both syntax error and YYERROR. |
+`-------------------------------------------------------------*/
+yyerrlab1:
+ yyerrstatus = 3; /* Each real token shifted decrements this. */
+
+ for (;;)
+ {
+ yyn = yypact[yystate];
+ if (!yypact_value_is_default (yyn))
+ {
+ yyn += YYTERROR;
+ if (0 <= yyn && yyn <= YYLAST && yycheck[yyn] == YYTERROR)
+ {
+ yyn = yytable[yyn];
+ if (0 < yyn)
+ break;
+ }
+ }
+
+ /* Pop the current state because it cannot handle the error token. */
+ if (yyssp == yyss)
+ YYABORT;
+
+
+ yydestruct ("Error: popping",
+ yystos[yystate], yyvsp);
+ YYPOPSTACK (1);
+ yystate = *yyssp;
+ YY_STACK_PRINT (yyss, yyssp);
+ }
+
+ YY_IGNORE_MAYBE_UNINITIALIZED_BEGIN
+ *++yyvsp = yylval;
+ YY_IGNORE_MAYBE_UNINITIALIZED_END
+
+
+ /* Shift the error token. */
+ YY_SYMBOL_PRINT ("Shifting", yystos[yyn], yyvsp, yylsp);
+
+ yystate = yyn;
+ goto yynewstate;
+
+
+/*-------------------------------------.
+| yyacceptlab -- YYACCEPT comes here. |
+`-------------------------------------*/
+yyacceptlab:
+ yyresult = 0;
+ goto yyreturn;
+
+/*-----------------------------------.
+| yyabortlab -- YYABORT comes here. |
+`-----------------------------------*/
+yyabortlab:
+ yyresult = 1;
+ goto yyreturn;
+
+#if !defined yyoverflow || YYERROR_VERBOSE
+/*-------------------------------------------------.
+| yyexhaustedlab -- memory exhaustion comes here. |
+`-------------------------------------------------*/
+yyexhaustedlab:
+ yyerror (YY_("memory exhausted"));
+ yyresult = 2;
+ /* Fall through. */
+#endif
+
+yyreturn:
+ if (yychar != YYEMPTY)
+ {
+ /* Make sure we have latest lookahead translation. See comments at
+ user semantic actions for why this is necessary. */
+ yytoken = YYTRANSLATE (yychar);
+ yydestruct ("Cleanup: discarding lookahead",
+ yytoken, &yylval);
+ }
+ /* Do not reclaim the symbols of the rule whose action triggered
+ this YYABORT or YYACCEPT. */
+ YYPOPSTACK (yylen);
+ YY_STACK_PRINT (yyss, yyssp);
+ while (yyssp != yyss)
+ {
+ yydestruct ("Cleanup: popping",
+ yystos[*yyssp], yyvsp);
+ YYPOPSTACK (1);
+ }
+#ifndef yyoverflow
+ if (yyss != yyssa)
+ YYSTACK_FREE (yyss);
+#endif
+#if YYERROR_VERBOSE
+ if (yymsg != yymsgbuf)
+ YYSTACK_FREE (yymsg);
+#endif
+ return yyresult;
+}
+#line 165 "parse_y.y" /* yacc.c:1907 */
+
+
+typedef struct node_s {
+ struct node_s *left, *right;
+ const char *key;
+ char *value;
+} *node_t;
+
+node_t label_root = NULL;
+node_t counter_root = NULL;
+
+static const char *find_key(node_t root, const char *key)
+{
+ while (root) {
+ int cmp = strcmp(key, root->key);
+
+ if (cmp > 0) {
+ root = root->right;
+ } else if (cmp) {
+ root = root->left;
+ } else {
+ return root->value;
+ }
+ }
+ return NULL;
+}
+
+static node_t set_key(node_t root, const char *key, const char *value)
+{
+ if (root) {
+ int cmp = strcmp(key, root->key);
+ if (cmp > 0) {
+ root->right = set_key(root->right, key, value);
+ } else if (cmp) {
+ root->left = set_key(root->left, key, value);
+ } else {
+ free(root->value);
+ root->value = strdup(value);
+ }
+ } else {
+ root = malloc(sizeof(struct node_s));
+ root->right = root->left = NULL;
+ root->key = strdup(key);
+ root->value = strdup(value);
+ }
+ return root;
+}
+
+void yyerror(const char *x)
+{
+ fprintf(stderr, "line %d: %s\n", line, x);
+}
+
+char *get_label(const char *label)
+{
+ const char *found = find_key(label_root, label);
+
+ if (found) {
+ return strdup(found);
+ }
+ return NULL;
+}
+
+void set_label(const char *label, const char *target)
+{
+ if (target == NULL) {
+ yyerror("no hanging value for label");
+ target = "<??" ">"; /* avoid trigraph warning */
+ }
+ label_root = set_key(label_root, label, target);
+}
+
+char *new_counter(const char *key)
+{
+ int i=0, j, ndollars = 0;
+ const char *old;
+ char *new;
+
+ if (key[i++] != '#') {
+ yyerror("bad index");
+ return strdup("<???" ">"); /* avoid trigraph warning */
+ }
+
+ while (key[i] == '$') {
+ ++ndollars;
+ ++i;
+ }
+
+ key += i;
+ old = find_key(counter_root, key);
+ new = malloc(20*ndollars);
+
+ if (old) {
+ for (j=0; ndollars > 1 && old[j]; ) {
+ if (old[j++] == '.' && --ndollars <= 0) {
+ break;
+ }
+ }
+ if (j) {
+ strncpy(new, old, j);
+ }
+ if (old[j]) {
+ i = atoi(old+j);
+ } else {
+ new[j++] = '.';
+ i = 0;
+ }
+ } else {
+ j=0;
+ while (--ndollars > 0) {
+ new[j++] = '0';
+ new[j++] = '.';
+ }
+ i = 0;
+ }
+ new[j] = '\0';
+ sprintf(new+j, "%d", ++i);
+
+ counter_root = set_key(counter_root, key, new);
+
+ if (last_label) {
+ free(last_label);
+ }
+ last_label = strdup(new);
+
+ return new;
+}
+
+int
+main(void)
+{
+ return yyparse();
+}
diff --git a/doc/specs/parse_y.h b/doc/specs/parse_y.h
new file mode 100644
index 0000000..125010f
--- /dev/null
+++ b/doc/specs/parse_y.h
@@ -0,0 +1,89 @@
+/* A Bison parser, made by GNU Bison 3.0.5. */
+
+/* Bison interface for Yacc-like parsers in C
+
+ Copyright (C) 1984, 1989-1990, 2000-2015, 2018 Free Software Foundation, Inc.
+
+ 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/>. */
+
+/* As a special exception, you may create a larger work that contains
+ part or all of the Bison parser skeleton and distribute that work
+ under terms of your choice, so long as that work isn't itself a
+ parser generator using the skeleton or a modified version thereof
+ as a parser skeleton. Alternatively, if you modify or redistribute
+ the parser skeleton itself, you may (at your option) remove this
+ special exception, which will cause the skeleton and the resulting
+ Bison output files to be licensed under the GNU General Public
+ License without this special exception.
+
+ This special exception was added by the Free Software Foundation in
+ version 2.2 of Bison. */
+
+#ifndef YY_YY_PARSE_Y_H_INCLUDED
+# define YY_YY_PARSE_Y_H_INCLUDED
+/* Debug traces. */
+#ifndef YYDEBUG
+# define YYDEBUG 0
+#endif
+#if YYDEBUG
+extern int yydebug;
+#endif
+
+/* Token type. */
+#ifndef YYTOKENTYPE
+# define YYTOKENTYPE
+ enum yytokentype
+ {
+ NEW_COUNTER = 258,
+ LABEL = 259,
+ HASH = 260,
+ CHAR = 261,
+ NEWLINE = 262,
+ NO_INDENT = 263,
+ RIGHT = 264
+ };
+#endif
+/* Tokens. */
+#define NEW_COUNTER 258
+#define LABEL 259
+#define HASH 260
+#define CHAR 261
+#define NEWLINE 262
+#define NO_INDENT 263
+#define RIGHT 264
+
+/* Value type. */
+#if ! defined YYSTYPE && ! defined YYSTYPE_IS_DECLARED
+
+union YYSTYPE
+{
+#line 27 "parse_y.y" /* yacc.c:1910 */
+
+ int def;
+ char *string;
+
+#line 77 "parse_y.h" /* yacc.c:1910 */
+};
+
+typedef union YYSTYPE YYSTYPE;
+# define YYSTYPE_IS_TRIVIAL 1
+# define YYSTYPE_IS_DECLARED 1
+#endif
+
+
+extern YYSTYPE yylval;
+
+int yyparse (void);
+
+#endif /* !YY_YY_PARSE_Y_H_INCLUDED */
diff --git a/doc/specs/parse_y.y b/doc/specs/parse_y.y
new file mode 100644
index 0000000..b195f5d
--- /dev/null
+++ b/doc/specs/parse_y.y
@@ -0,0 +1,297 @@
+
+%{
+#ifdef HAVE_CONFIG_H
+# include <config.h>
+#endif
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#define MAXLINE 1000
+#define INDENT_STRING " "
+#define PAPER_WIDTH 74
+
+ int indent=0;
+ int line=1;
+ char *last_label=NULL;
+
+ extern int yylex(void);
+ extern char *yytext;
+ extern void yyerror(const char *x);
+ extern char *get_label(const char *label);
+ extern void set_label(const char *label, const char *target);
+ char *new_counter(const char *key);
+%}
+
+%union {
+ int def;
+ char *string;
+}
+
+%token NEW_COUNTER LABEL HASH CHAR NEWLINE NO_INDENT RIGHT
+%type <string> stuff text
+
+%start doc
+
+%%
+
+doc:
+| doc NEWLINE {
+ printf("\n");
+ ++line;
+}
+| doc stuff NEWLINE {
+ if (strlen($2) > (PAPER_WIDTH-(indent ? strlen(INDENT_STRING):0))) {
+ yyerror("line too long");
+ }
+ printf("%s%s\n", indent ? INDENT_STRING:"", $2);
+ free($2);
+ indent = 1;
+ ++line;
+}
+| doc stuff RIGHT stuff NEWLINE {
+ char fixed[PAPER_WIDTH+1];
+ int len;
+
+ len = PAPER_WIDTH-(strlen($2)+strlen($4));
+
+ if (len >= 0) {
+ memset(fixed, ' ', len);
+ fixed[len] = '\0';
+ } else {
+ yyerror("line too wide");
+ fixed[0] = '\0';
+ }
+ printf("%s%s%s\n", $2, fixed, $4);
+ free($2);
+ free($4);
+ indent = 1;
+ ++line;
+}
+| doc stuff RIGHT stuff RIGHT stuff NEWLINE {
+ char fixed[PAPER_WIDTH+1];
+ int len, l;
+
+ len = PAPER_WIDTH-(strlen($2)+strlen($4));
+
+ if (len < 0) {
+ len = 0;
+ yyerror("line too wide");
+ }
+
+ l = len/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s%s", $2, fixed, $4);
+ free($2);
+ free($4);
+
+ l = (len+1)/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s\n", fixed, $6);
+ free($6);
+
+ indent = 1;
+ ++line;
+}
+| doc stuff RIGHT stuff RIGHT stuff NEWLINE {
+ char fixed[PAPER_WIDTH+1];
+ int len, l;
+
+ len = PAPER_WIDTH-(strlen($2)+strlen($4));
+
+ if (len < 0) {
+ len = 0;
+ yyerror("line too wide");
+ }
+
+ l = len/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s%s", $2, fixed, $4);
+ free($2);
+ free($4);
+
+ l = (len+1)/2;
+ memset(fixed, ' ', l);
+ fixed[l] = '\0';
+ printf("%s%s\n", fixed, $6);
+ free($6);
+
+ indent = 1;
+ ++line;
+}
+;
+
+stuff: {
+ $$ = strdup("");
+}
+| stuff text {
+ $$ = malloc(strlen($1)+strlen($2)+1);
+ sprintf($$,"%s%s", $1, $2);
+ free($1);
+ free($2);
+}
+;
+
+text: CHAR {
+ $$ = strdup(yytext);
+}
+| text CHAR {
+ $$ = malloc(strlen($1)+2);
+ sprintf($$,"%s%s", $1, yytext);
+ free($1);
+}
+| NO_INDENT {
+ $$ = strdup("");
+ indent = 0;
+}
+| HASH {
+ $$ = strdup("#");
+}
+| LABEL {
+ if (($$ = get_label(yytext)) == NULL) {
+ set_label(yytext, last_label);
+ $$ = strdup("");
+ }
+}
+| NEW_COUNTER {
+ $$ = new_counter(yytext);
+}
+;
+
+%%
+
+typedef struct node_s {
+ struct node_s *left, *right;
+ const char *key;
+ char *value;
+} *node_t;
+
+node_t label_root = NULL;
+node_t counter_root = NULL;
+
+static const char *find_key(node_t root, const char *key)
+{
+ while (root) {
+ int cmp = strcmp(key, root->key);
+
+ if (cmp > 0) {
+ root = root->right;
+ } else if (cmp) {
+ root = root->left;
+ } else {
+ return root->value;
+ }
+ }
+ return NULL;
+}
+
+static node_t set_key(node_t root, const char *key, const char *value)
+{
+ if (root) {
+ int cmp = strcmp(key, root->key);
+ if (cmp > 0) {
+ root->right = set_key(root->right, key, value);
+ } else if (cmp) {
+ root->left = set_key(root->left, key, value);
+ } else {
+ free(root->value);
+ root->value = strdup(value);
+ }
+ } else {
+ root = malloc(sizeof(struct node_s));
+ root->right = root->left = NULL;
+ root->key = strdup(key);
+ root->value = strdup(value);
+ }
+ return root;
+}
+
+void yyerror(const char *x)
+{
+ fprintf(stderr, "line %d: %s\n", line, x);
+}
+
+char *get_label(const char *label)
+{
+ const char *found = find_key(label_root, label);
+
+ if (found) {
+ return strdup(found);
+ }
+ return NULL;
+}
+
+void set_label(const char *label, const char *target)
+{
+ if (target == NULL) {
+ yyerror("no hanging value for label");
+ target = "<??" ">"; /* avoid trigraph warning */
+ }
+ label_root = set_key(label_root, label, target);
+}
+
+char *new_counter(const char *key)
+{
+ int i=0, j, ndollars = 0;
+ const char *old;
+ char *new;
+
+ if (key[i++] != '#') {
+ yyerror("bad index");
+ return strdup("<???" ">"); /* avoid trigraph warning */
+ }
+
+ while (key[i] == '$') {
+ ++ndollars;
+ ++i;
+ }
+
+ key += i;
+ old = find_key(counter_root, key);
+ new = malloc(20*ndollars);
+
+ if (old) {
+ for (j=0; ndollars > 1 && old[j]; ) {
+ if (old[j++] == '.' && --ndollars <= 0) {
+ break;
+ }
+ }
+ if (j) {
+ strncpy(new, old, j);
+ }
+ if (old[j]) {
+ i = atoi(old+j);
+ } else {
+ new[j++] = '.';
+ i = 0;
+ }
+ } else {
+ j=0;
+ while (--ndollars > 0) {
+ new[j++] = '0';
+ new[j++] = '.';
+ }
+ i = 0;
+ }
+ new[j] = '\0';
+ sprintf(new+j, "%d", ++i);
+
+ counter_root = set_key(counter_root, key, new);
+
+ if (last_label) {
+ free(last_label);
+ }
+ last_label = strdup(new);
+
+ return new;
+}
+
+int
+main(void)
+{
+ return yyparse();
+}
diff --git a/doc/specs/rfc86.0.txt b/doc/specs/rfc86.0.txt
new file mode 100644
index 0000000..b8c635a
--- /dev/null
+++ b/doc/specs/rfc86.0.txt
@@ -0,0 +1,1845 @@
+
+
+
+
+
+
+
+
+ Open Software Foundation V. Samar (SunSoft)
+ Request For Comments: 86.0 R. Schemers (SunSoft)
+ October 1995
+
+
+
+ UNIFIED LOGIN WITH
+ PLUGGABLE AUTHENTICATION MODULES (PAM)
+
+
+ 1. INTRODUCTION
+
+ Since low-level authentication mechanisms constantly evolve, it is
+ important to shield the high-level consumers of these mechanisms
+ (system-entry services and users) from such low-level changes. With
+ the Pluggable Authentication Module (PAM) framework, we can provide
+ pluggability for a variety of system-entry services -- not just
+ system authentication _per se_, but also for account, session and
+ password management. PAM's ability to _stack_ authentication modules
+ can be used to integrate `login' with different authentication
+ mechanisms such as RSA, DCE, and Kerberos, and thus unify login
+ mechanisms. The PAM framework can also provide easy integration of
+ smart cards into the system.
+
+ Modular design and pluggability have become important for users who
+ want ease of use. In the PC hardware arena, no one wants to set the
+ interrupt vector numbers or resolve the addressing conflict between
+ various devices. In the software arena, people also want to be able
+ to replace components easily for easy customization, maintenance, and
+ upgrades.
+
+ Authentication software deserves special attention because
+ authentication forms a very critical component of any secure computer
+ system. The authentication infrastructure and its components may
+ have to be modified or replaced either because some deficiencies have
+ been found in the current algorithms, or because sites want to
+ enforce a different security policy than what was provided by the
+ system vendor. The replacement and modification should be done in
+ such a way that the user is not affected by these changes.
+
+ The solution has to address not just how the applications use the new
+ authentication mechanisms in a generic fashion, but also how the user
+ will be authenticated to these mechanisms in a generic way. The
+ former is addressed by GSS-API [Linn 93], while this RFC addresses
+ the later; these two efforts are complementary to each other.
+
+ Since most system-entry services (for example, `login', `dtlogin',
+ `rlogin', `ftp', `rsh') may want to be independent of the specific
+ authentication mechanisms used by the machine, it is important that
+ there be a framework for _plugging_ in various mechanisms. This
+ requires that the system applications use a standard API to interact
+
+
+
+ Samar, Schemers Page 1
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ with the authentication services. If these system-entry services
+ remain independent of the actual mechanism used on that machine, the
+ system administrator can install suitable authentication modules
+ without requiring changes to these applications.
+
+ For any security system to be successful, it has to be easy to use.
+ In the case of authentication, the single most important ease-of-use
+ characteristic is that the user should not be required to learn about
+ various ways of authentication and remember multiple passwords.
+ Ideally, there should be one all-encompassing authentication system
+ where there is only one password, but for heterogeneous sites,
+ multiple authentication mechanisms have to co-exist. The problem of
+ integrating multiple authentication mechanisms such as Kerberos
+ [Steiner 88], RSA [Rivest 78], and Diffie-Hellman [Diffie 76, Taylor
+ 88], is also referred to as _integrated login_, or _unified login_
+ problem. Even if the user has to use multiple authentication
+ mechanisms, the user should not be forced to type multiple passwords.
+ Furthermore, the user should be able to use the new network identity
+ without taking any further actions. The key here is in modular
+ integration of the network authentication technologies with `login'
+ and other system-entry services.
+
+ In this RFC we discuss the architecture and design of pluggable
+ authentication modules. This design gives the capability to use
+ field-replaceable authentication modules along with unified login
+ capability. It thus provides for both _pluggability_ and _ease-of-
+ use_.
+
+ The RFC is organized as follows. We first motivate the need for a
+ generic way to authenticate the user by various system-entry services
+ within the operating system. We describe the goals and constraints
+ of the design. This leads to the architecture, description of the
+ interfaces, and _stacking_ of modules to get unified login
+ functionality. We then describe our experience with the design, and
+ end with a description of future work.
+
+
+ 2. OVERVIEW OF IDENTIFICATION AND AUTHENTICATION MECHANISMS
+
+ An identification and authentication ("I&A") mechanism is used to
+ establish a user's identity the system (i.e., to a local machine's
+ operating system) and to other principals on the network. On a
+ typical UNIX system, there are various ports of entry into the
+ system, such as `login', `dtlogin', `rlogin', `ftp', `rsh', `su', and
+ `telnet'. In all cases, the user has to be identified and
+ authenticated before granting appropriate access rights to the user.
+ The user identification and authentication for all these entry points
+ needs to be coordinated to ensure a secure system.
+
+ In most of the current UNIX systems, the login mechanism is based
+ upon verification of the password using the modified DES algorithm.
+
+
+
+ Samar, Schemers Page 2
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ The security of the implementation assumes that the password cannot
+ be guessed, and that the password does not go over the wire in the
+ clear. These assumptions, however, are not universally valid.
+ Various programs are now available freely on the Internet that can
+ run dictionary attack against the encrypted password. Further, some
+ of the network services (for example, `rlogin', `ftp', `telnet') send
+ the password over in clear, and there are "sniffer" programs freely
+ available to steal these passwords. The classical assumptions may be
+ acceptable on a trusted network, but in an open environment there is
+ a need to use more restrictive and stronger authentication
+ mechanisms. Examples of such mechanisms include Kerberos, RSA,
+ Diffie-Hellman, one-time password [Skey 94], and challenge-response
+ based smart card authentication systems. Since this list will
+ continue to evolve, it is important that the system-entry services do
+ not have hard-coded dependencies on any of these authentication
+ mechanisms.
+
+
+ 3. DESIGN GOALS
+
+ The goals of the PAM framework are as follows:
+
+ (a) The system administrator should be able to choose the default
+ authentication mechanism for the machine. This can range from
+ a simple password-based mechanism to a biometric or a smart
+ card based system.
+
+ (b) It should be possible to configure the user authentication
+ mechanism on a per application basis. For example, a site may
+ require S/Key password authentication for `telnet' access,
+ while allowing machine `login' sessions with just UNIX password
+ authentication.
+
+ (c) The framework should support the display requirements of the
+ applications. For example, for a graphical login session such
+ as `dtlogin', the user name and the password may have to be
+ entered in a new window. For networking system-entry
+ applications such as `ftp' and `telnet', the user name and
+ password has to be transmitted over the network to the client
+ machine.
+
+ (d) It should be possible to configure multiple authentication
+ protocols for each of those applications. For example, one may
+ want the users to get authenticated by both Kerberos and RSA
+ authentication systems.
+
+ (e) The system administrator should be able to _stack_ multiple
+ user authentication mechanisms such that the user is
+ authenticated with all authentication protocols without
+ retyping the password.
+
+
+
+
+ Samar, Schemers Page 3
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ (f) The architecture should allow for multiple passwords if
+ necessary to achieve higher security for users with specific
+ security requirements.
+
+ (g) The system-entry services should not be required to change when
+ the underlying mechanism changes. This can be very useful for
+ third-party developers because they often do not have the
+ source code for these services.
+
+ (h) The architecture should provide for a _pluggable_ model for
+ system authentication, as well as for other related tasks such
+ as password, account, and session management.
+
+ (i) For backward-compatibility reasons, the PAM API should support
+ the authentication requirements of the current system-entry
+ services.
+
+ There are certain issues that the PAM framework does not specifically
+ address:
+
+ (a) We focus only on providing a generic scheme through which users
+ use passwords to establish their identities to the machine.
+ Once the identity is established, how the identity is
+ communicated to other interested parties is outside the scope
+ of this design. There are efforts underway at IETF [Linn 93]
+ to develop a Generic Security Services Application Interface
+ (GSSAPI) that can be used by applications for secure and
+ authenticated communication without knowing the underlying
+ mechanism.
+
+ (b) The _single-signon_ problem of securely transferring the
+ identity of the caller to a remote site is not addressed. For
+ example, the problem of delegating credentials from the
+ `rlogin' client to the other machine without typing the
+ password is not addressed by our work. We also do not address
+ the problem of sending the passwords over the network in the
+ clear.
+
+ (c) We do not address the source of information obtained from the
+ "`getXbyY()'" family of calls (e.g., `getpwnam()'). Different
+ operating systems address this problem differently. For
+ example, Solaris uses the name service switch (NSS) to
+ determine the source of information for the "`getXbyY()'"
+ calls. It is expected that data which is stored in multiple
+ sources (such as passwd entries in NIS+ and the DCE registry)
+ is kept in sync using the appropriate commands (such as
+ `passwd_export').
+
+
+
+
+
+
+
+ Samar, Schemers Page 4
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ 4. OVERVIEW OF THE PAM FRAMEWORK
+
+ We propose that the goals listed above can be met through a framework
+ in which authentication modules can be _plugged_ independently of the
+ application. We call this the _Pluggable Authentication Modules_
+ (PAM) framework.
+
+ The core components of the PAM framework are the authentication
+ library API (the front end) and the authentication mechanism-specific
+ modules (the back end), connected through the Service Provider
+ Interface (SPI). Applications write to the PAM API, while the
+ authentication-system providers write to the PAM SPI and supply the
+ back end modules that are independent of the application.
+
+ ftp telnet login (Applications)
+ | | |
+ | | |
+ +--------+--------+
+ |
+ +-----+-----+
+ | PAM API | <-- pam.conf file
+ +-----+-----+
+ |
+ +--------+--------+
+ UNIX Kerberos Smart Cards (Mechanisms)
+
+ Figure 1: The Basic PAM Architecture
+
+ Figure 1 illustrates the relationship between the application, the
+ PAM library, and the authentication modules. Three applications
+ (`login', `telnet' and `ftp') are shown which use the PAM
+ authentication interfaces. When an application makes a call to the
+ PAM API, it loads the appropriate authentication module as determined
+ by the configuration file, `pam.conf'. The request is forwarded to
+ the underlying authentication module (for example, UNIX password,
+ Kerberos, smart cards) to perform the specified operation. The PAM
+ layer then returns the response from the authentication module to the
+ application.
+
+ PAM unifies system authentication and access control for the system,
+ and allows plugging of associated authentication modules through well
+ defined interfaces. The plugging can be defined through various
+ means, one of which uses a configuration file, such as the one in
+ Table 1. For each of the system applications, the file specifies the
+ authentication module that should be loaded. In the example below,
+ `login' uses the UNIX password module, while `ftp' and `telnet' use
+ the S/Key module.
+
+
+
+
+
+
+
+ Samar, Schemers Page 5
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ Table 1: A Simplified View of a Sample PAM Configuration File.
+
+ service module_path
+ ------- -----------
+ login pam_unix.so
+ ftp pam_skey.so
+ telnet pam_skey.so
+
+ Authentication configuration is only one aspect of this interface.
+ Other critical components include account management, session
+ management, and password management. For example, the `login'
+ program may want to verify not only the password but also whether the
+ account has aged or expired. Generic interfaces also need to be
+ provided so that the password can be changed according to the
+ requirements of the module. Furthermore, the application may want to
+ log information about the current session as determined by the
+ module.
+
+ Not all applications or services may need all of the above
+ components, and not each authentication module may need to provide
+ support for all of the interfaces. For example, while `login' may
+ need access to all four components, `su' may need access to just the
+ authentication component. Some applications may use some specific
+ authentication and password management modules but share the account
+ and session management modules with others.
+
+ This reasoning leads to a partitioning of the entire set of
+ interfaces into four areas of functionality: (1) authentication, (2)
+ account, (3) session, and (4) password. The concept of PAM was
+ extended to these functional areas by implementing each of them as a
+ separate pluggable module.
+
+ Breaking the functionality into four modules helps the module
+ providers because they can use the system-provided libraries for the
+ modules that they are not changing. For example, if a supplier wants
+ to provide a better version of Kerberos, they can just provide that
+ new authentication and password module, and reuse the existing ones
+ for account and session.
+
+ 4.1. Module Description
+
+ More details on specific API's are described in Appendix A. A brief
+ description of four modules follows:
+
+ (a) Authentication management: This set includes the
+ `pam_authenticate()' function to authenticate the user, and the
+ `pam_setcred()' interface to set, refresh or destroy the user
+ credentials.
+
+ (b) Account management: This set includes the `pam_acct_mgmt()'
+ function to check whether the authenticated user should be
+
+
+
+ Samar, Schemers Page 6
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ given access to his/her account. This function can implement
+ account expiration and access hour restrictions.
+
+ (c) Session management: This set includes the `pam_open_session()'
+ and `pam_close_session()' functions for session management and
+ accounting. For example, the system may want to store the
+ total time for the session.
+
+ (d) Password management: This set includes a function,
+ `pam_chauthtok()', to change the password.
+
+
+ 5. FRAMEWORK INTERFACES
+
+ The PAM framework further provides a set of administrative interfaces
+ to support the above modules and to provide for application-module
+ communication. There is no corresponding service provider interface
+ (SPI) for such functions.
+
+ 5.1. Administrative Interfaces
+
+ Each set of PAM transactions starts with `pam_start()' and ends with
+ the `pam_end()' function. The interfaces `pam_get_item()' and
+ `pam_set_item()' are used to read and write the state information
+ associated with the PAM transaction.
+
+ If there is any error with any of the PAM interfaces, the error
+ message can be printed with `pam_strerror()'.
+
+ 5.2. Application-Module Communication
+
+ During application initialization, certain data such as the user name
+ is saved in the PAM framework layer through `pam_start()' so that it
+ can be used by the underlying modules. The application can also pass
+ opaque data to the module which the modules will pass back while
+ communicating with the user.
+
+ 5.3. User-Module Communication
+
+ The `pam_start()' function also passes conversation function that has
+ to be used by the underlying modules to read and write module
+ specific authentication information. For example, these functions
+ can be used to prompt the user for the password in a way determined
+ by the application. PAM can thus be used by graphical, non-
+ graphical, or networked applications.
+
+
+
+
+
+
+
+
+
+ Samar, Schemers Page 7
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ 5.4. Inter-Module Communication
+
+ Though the modules are independent, they can share certain common
+ information about the authentication session such as user name,
+ service name, password, and conversation function through the
+ `pam_get_item()' and `pam_set_item()' interfaces. These API's can
+ also be used by the application to change the state information after
+ having called `pam_start()' once.
+
+ 5.5. Module State Information
+
+ The PAM service modules may want to keep certain module-specific
+ state information about the session. The interfaces `pam_get_data()'
+ and `pam_set_data()' can be used by the service modules to access and
+ update module-specific information as needed from the PAM handle.
+ The modules can also attach a cleanup function with the data. The
+ cleanup function is executed when `pam_end()' is called to indicate
+ the end of the current authentication activity.
+
+ Since the PAM modules are loaded upon demand, there is no direct
+ module initialization support in the PAM framework. If there are
+ certain initialization tasks that the PAM service modules have to do,
+ they should be done upon the first invocation. However, if there are
+ certain clean-up tasks to be done when the authentication session
+ ends, the modules should use `pam_set_data()' to specify the clean-up
+ functions, which would be called when `pam_end()' is called by the
+ application.
+
+
+ 6. MODULE CONFIGURATION MANAGEMENT
+
+ Table 2 shows an example of a configuration file `pam.conf' with
+ support for authentication, session, account, and password management
+ modules. `login' has three entries: one each for authentication
+ processing, session management and account management. Each entry
+ specifies the module name that should be loaded for the given module
+ type. In this example, the `ftp' service uses the authentication and
+ session modules. Note that all services here share the same session
+ management module, while having different authentication modules.
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+ Samar, Schemers Page 8
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ Table 2: Configuration File (pam.conf) with Different Modules
+ and Control Flow
+
+ service module_type control_flag module_path options
+ ------- ----------- ------------ ----------- -------
+ login auth required pam_unix_auth.so nowarn
+ login session required pam_unix_session.so
+ login account required pam_unix_account.so
+ ftp auth required pam_skey_auth.so debug
+ ftp session required pam_unix_session.so
+ telnet session required pam_unix_session.so
+ login password required pam_unix_passwd.so
+ passwd password required pam_unix_passwd.so
+ OTHER auth required pam_unix_auth.so
+ OTHER session required pam_unix_session.so
+ OTHER account required pam_unix_account.so
+
+ The first field, _service_, denotes the service (for example,
+ `login', `passwd', `rlogin'). The name `OTHER' indicates the module
+ used by all other applications that have not been specified in this
+ file. This name can also be used if all services have the same
+ requirements. In the example, since all the services use the same
+ session module, we could have replaced those lines with a single
+ `OTHER' line.
+
+ The second field, _module_type_, indicates the type of the PAM
+ functional module. It can be one of `auth', `account', `session', or
+ `password' modules.
+
+ The third field, _control_flag_ determines the behavior of stacking
+ multiple modules by specifying whether any particular module is
+ _required_, _sufficient_, or _optional_. The next section describes
+ stacking in more detail.
+
+ The fourth field, _module_path_, specifies the location of the
+ module. The PAM framework loads this module upon demand to invoke
+ the required function.
+
+ The fifth field, _options_, is used by the PAM framework layer to
+ pass module specific options to the modules. It is up to the module
+ to parse and interpret the options. This field can be used by the
+ modules to turn on debugging or to pass any module specific
+ parameters such as a timeout value. It is also used to support
+ unified login as described below. The options field can be used by
+ the system administrator to fine-tune the PAM modules.
+
+ If any of the fields are invalid, or if a module is not found, that
+ line is ignored and the error is logged as a critical error via
+ `syslog(3)'. If no entries are found for the given module type, then
+ the PAM framework returns an error to the application.
+
+
+
+
+ Samar, Schemers Page 9
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ 7. INTEGRATING MULTIPLE AUTHENTICATION SERVICES WITH STACKING
+
+ In the world of heterogeneous systems, the system administrator often
+ has to deal with the problem of integrating multiple authentication
+ mechanisms. The user is often required to know about the
+ authentication command of the new authentication module (for example,
+ `kinit', `dce_login') after logging into the system. This is not
+ user-friendly because it forces people to remember to type the new
+ command and enter the new password. This functionality should be
+ invisible instead of burdening the user with it.
+
+ There are two problems to be addressed here:
+
+ (a) Supporting multiple authentication mechanisms.
+
+ (b) Providing unified login in the presence of multiple mechanisms.
+
+ In the previous section, we described how one could replace the
+ default authentication module with any other module of choice. Now
+ we demonstrate how the same model can be extended to provide support
+ for multiple modules.
+
+ 7.1. Design for Stacked Modules
+
+ One possibility was to provide hard-coded rules in `login' or other
+ applications requiring authentication services [Adamson 95]. But
+ this becomes very specific to the particular combination of
+ authentication protocols, and also requires the source code of the
+ application. Digital's Security Integration Architecture [SIA 95]
+ addresses this problem by specifying the same list of authentication
+ modules for all applications. Since requirements for various
+ applications can vary, it is essential that the configuration be on a
+ per-application basis.
+
+ To support multiple authentication mechanisms, the PAM framework was
+ extended to support _stacking_. When any API is called, the back
+ ends for the stacked modules are invoked in the order listed, and the
+ result returned to the caller. In Figure 2, the authentication
+ service of `login' is stacked and the user is authenticated by UNIX,
+ Kerberos, and RSA authentication mechanisms. Note that in this
+ example, there is no stacking for session or account management
+ modules.
+
+
+
+
+
+
+
+
+
+
+
+
+ Samar, Schemers Page 10
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ login
+ |
+ +--------+--------+
+ | | |
+ session auth account
+ | | |
+ +--+--+ +--+--+ +--+--+
+ | PAM | | PAM | | PAM |
+ +--+--+ +--+--+ +--+--+
+ | | |
+ UNIX UNIX UNIX
+ session auth account
+ |
+ Kerberos
+ auth
+ |
+ RSA
+ auth
+
+ Figure 2: Stacking With the PAM Architecture
+
+ Stacking is specified through additional entries in the configuration
+ file shown earlier. As shown in Table 2, for each application (such
+ as `login') the configuration file can specify multiple mechanisms
+ that have to be invoked in the specified order. When mechanisms
+ fail, the _control_flag_ decides which error should be returned to
+ the application. Since the user should not know which authentication
+ module failed when a bad password was typed, the PAM framework
+ continues to call other authentication modules on the stack even on
+ failure. The semantics of the control flag are as follows:
+
+ (a) `required': With this flag, the module failure results in the
+ PAM framework returning the error to the caller _after_
+ executing all other modules on the stack. For the function to
+ be able to return success to the application all `required'
+ modules have to report success. This flag is normally set when
+ authentication by this module is a _must_.
+
+ (b) `optional': With this flag, the PAM framework ignores the
+ module failure and continues with the processing of the next
+ module in sequence. This flag is used when the user is allowed
+ to login even if that particular module has failed.
+
+ (c) `sufficient': With this flag, if the module succeeds the PAM
+ framework returns success to the application immediately
+ without trying any other modules. For failure cases, the
+ _sufficient_ modules are treated as `optional'.
+
+ Table 3 shows a sample configuration file that stacks the `login'
+ command. Here the user is authenticated by UNIX, Kerberos, and RSA
+ authentication services. The `required' key word for _control_flag_
+
+
+
+ Samar, Schemers Page 11
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ enforces that the user is allowed to login only if he/she is
+ authenticated by _both_ UNIX and Kerberos services. RSA
+ authentication is optional by virtue of the `optional' key word in
+ the _control_flag_ field. The user can still log in even if RSA
+ authentication fails.
+
+ Table 3: PAM Configuration File with Support for Stacking
+
+ service module_type control_flag module_path options
+ ------- ----------- ------------ ----------- -------
+ login auth required pam_unix.so debug
+ login auth required pam_kerb.so use_mapped_pass
+ login auth optional pam_rsa.so use_first_pass
+
+ Table 4 illustrates the use of the sufficient flag for the `rlogin'
+ service. The Berkeley `rlogin' protocol specifies that if the remote
+ host is trusted (as specified in the `/etc/hosts.equiv' file or in
+ the `.rhosts' file in the home directory of the user), then the
+ `rlogin' daemon should not require the user to type the password. If
+ this is not the case, then the user is required to type the password.
+ Instead of hard coding this policy in the `rlogin' daemon, this can
+ be expressed with the `pam.conf' file in Table 4. The PAM module
+ `pam_rhosts_auth.so.1' implements the `.rhosts' policy described
+ above. If a site administrator wants to enable remote login with
+ only passwords, then the first line should be deleted.
+
+ Table 4: PAM Configuration File for the rlogin service
+
+ service module_type control_flag module_path options
+ ------- ----------- ------------ ----------- -------
+ rlogin auth sufficient pam_rhosts_auth.so
+ rlogin auth required pam_unix.so
+
+ 7.2. Password-Mapping
+
+ Multiple authentication mechanisms on a machine can lead to multiple
+ passwords that users have to remember. One attractive solution from
+ the ease-of-use viewpoint is to use the same password for all
+ mechanisms. This, however, can also weaken the security because if
+ that password were to be compromised in any of the multiple
+ mechanisms, all mechanisms would be compromised at the same time.
+ Furthermore, different authentication mechanisms may have their own
+ distinctive password requirements in regards to its length, allowed
+ characters, time interval between updates, aging, locking, and so
+ forth. These requirements make it problematic to use the same
+ password for multiple authentication mechanisms.
+
+ The solution we propose, while not precluding use of the same
+ password for every mechanism, allows for a different password for
+ each mechanism through what we call _password-mapping_. This
+ basically means using the user's _primary_ password to encrypt the
+
+
+
+ Samar, Schemers Page 12
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ user's other (_secondary_) passwords, and storing these encrypted
+ passwords in a place where they are available to the user. Once the
+ primary password is verified, the authentication modules would obtain
+ the other passwords for their own mechanisms by decrypting the
+ mechanism-specific encrypted password with the primary password, and
+ passing it to the authentication service. The security of this
+ design for password-mapping assumes that the primary password is the
+ user's strongest password, in terms of its unguessability (length,
+ type and mix of characters used, etc.).
+
+ If there is any error in password-mapping, or if the mapping does not
+ exist, the user will be prompted for the password by each
+ authentication module.
+
+ To support password-mapping, the PAM framework saves the primary
+ password and provides it to stacked authentication modules. The
+ password is cleared out before the `pam_authenticate' function
+ returns.
+
+ How the password is encrypted depends completely on the module
+ implementation. The encrypted secondary password (also called a
+ "mapped password") can be stored in a trusted or untrusted place,
+ such as a smart card, a local file, or a directory service. If the
+ encrypted passwords are stored in an untrusted publicly accessible
+ place, this does provide an intruder with opportunities for potential
+ dictionary attack.
+
+ Though password-mapping is voluntary, it is recommended that all
+ module providers add support for the following four mapping options:
+
+ (a) `use_first_pass': Use the same password used by the first
+ mechanism that asked for a password. The module should not ask
+ for the password if the user cannot be authenticated by the
+ first password. This option is normally used when the system
+ administrator wants to enforce the same password across
+ multiple modules.
+
+ (b) `try_first_pass': This is the same as `use_first_pass', except
+ that if the primary password is not valid, it should prompt the
+ user for the password.
+
+ (c) `use_mapped_pass': Use the password-mapping scheme to get the
+ actual password for this module. One possible implementation
+ is to get the mapped-password using the XFN API [XFN 94], and
+ decrypt it with the primary password to get the module-specific
+ password. The module should not ask for the password if the
+ user cannot be authenticated by the first password. The XFN
+ API allows user-defined attributes (such as _mapped-password_)
+ to be stored in the _user-context_. Using the XFN API is
+ particularly attractive because support for the XFN may be
+ found on many systems in the future.
+
+
+
+ Samar, Schemers Page 13
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ (d) `try_mapped_pass': This is the same as `use_mapped_pass',
+ except that if the primary password is not valid, it should
+ prompt the user for the password.
+
+ When passwords get updated, the PAM framework stores both the old as
+ well as the new password to be able to inform other dependent
+ authentication modules about the change. Other modules can use this
+ information to update the encrypted password without forcing the user
+ to type the sequence of passwords again. The PAM framework clears
+ out the passwords before returning to the application.
+
+ Table 3 illustrates how the same password can be used by `login' for
+ authenticating to the standard UNIX login, Kerberos and RSA services.
+ Once the user has been authenticated to the primary authentication
+ service (UNIX `login' in this example) with the primary password, the
+ option `use_mapped_pass' indicates to the Kerberos module that it
+ should use the primary password to decrypt the stored Kerberos
+ password and then use the Kerberos password to get the ticket for the
+ ticket-granting-service. After that succeeds, the option
+ `use_first_pass' indicates to the RSA module that instead of
+ prompting the user for a password, it should use the primary password
+ typed earlier for authenticating the user. Note that in this
+ scenario, the user has to enter the password just once.
+
+ Note that if a one-time password scheme (e.g., S/Key) is used,
+ password mapping cannot apply.
+
+ 7.3. Implications of Stacking on the PAM Design
+
+ Because of the stacking capability of PAM, we have designed the PAM
+ API's to not return any data to the application, except status. If
+ this were not the case, it would be difficult for the PAM framework
+ to decide which module should return data to the application. When
+ there is any error, the application does not know which of the
+ modules failed. This behavior enables (even requires) the
+ application to be completely independent from the modules.
+
+ Another design decision we have made is that PAM gives only the user
+ name to all the underlying PAM modules, hence it is the
+ responsibility of the PAM modules to convert the name to their own
+ internal format. For example, the Kerberos module may have to
+ convert the UNIX user name to a Kerberos principal name.
+
+ Stacking also forces the modules to be designed such that they can
+ occur anywhere in the stack without any side-effects.
+
+ Since modules such as the authentication and the password module are
+ very closely related, it is important they be configured in the same
+ order and with compatible options.
+
+
+
+
+
+ Samar, Schemers Page 14
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ 8. INTEGRATION WITH SMART CARDS
+
+ Many networking authentication protocols require possession of a long
+ key to establish the user identity. For ease-of-use reasons, that
+ long key is normally encrypted with the user's password so that the
+ user is not required to memorize it. However, weak passwords can be
+ compromised through a dictionary attack and thus undermine the
+ stronger network authentication mechanism. Furthermore, the
+ encrypted data is normally stored in a centrally accessible service
+ whose availability depends upon the reliability of the associated
+ service. Solutions have been proposed to use a pass-phrase or one-
+ time-password, but those are much longer than the regular eight
+ character passwords traditionally used with UNIX `login'. This makes
+ the solution user-unfriendly because it requires longer strings to be
+ remembered and typed.
+
+ For most authentication protocol implementations, the trust boundary
+ is the local machine. This assumption may not be valid in cases
+ where the user is mobile and has to use publicly available networked
+ computers. In such cases, it is required that the clear text of the
+ key or the password never be made available to the machine.
+
+ Smart cards solve the above problems by reducing password exposure by
+ supporting a _two factor_ authentication mechanism: the first with
+ the possession of the card, and the second with the knowledge of the
+ PIN associated with the card. Not only can the smart cards be a
+ secure repository of multiple passwords, they can also provide the
+ encryption and authentication functions such that the long (private)
+ key is never exposed outside the card.
+
+ The PAM framework allows for integrating smart cards to the system by
+ providing a smart card specific module for authentication.
+ Furthermore, the unified login problem is simplified because the
+ multiple passwords for various authentication mechanisms can be
+ stored on the smart card itself. This can be enabled by adding a
+ suitable key-word such as `use_smart_card' in the _options_ field.
+
+
+ 9. SECURITY ISSUES
+
+ It is important to understand the impact of PAM on the security of
+ any system so that the site-administrator can make an informed
+ decision.
+
+ (a) Sharing of passwords with multiple authentication mechanisms.
+
+ If there are multiple authentication modules, one possibility
+ is to use the same password for all of them. If the password
+ for any of the multiple authentication system is compromised,
+ the user's password in all systems would be compromised. If
+ this is a concern, then multiple passwords might be considered
+
+
+
+ Samar, Schemers Page 15
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ at the cost of ease-of-use.
+
+ (b) Password-mapping.
+
+ This technique of encrypting all other passwords with the
+ primary password assumes that it is lot more difficult to crack
+ the primary password and that reasonable steps have been taken
+ to ensure limited availability of the encrypted primary
+ password. If this is not done, an intruder could target the
+ primary password as the first point of dictionary attack. If
+ one of the other modules provide stronger security than the
+ password based security, the site would be negating the strong
+ security by using password-mapping. If this is a concern, then
+ multiple passwords might be considered at the cost of ease-of-
+ use. If smart cards are used, they obviate the need for
+ password-mapping completely.
+
+ (c) Security of the configuration file.
+
+ Since the policy file dictates how the user is authenticated,
+ this file should be protected from unauthorized modifications.
+
+ (d) Stacking various PAM modules.
+
+ The system administrator should fully understand the
+ implications of stacking various modules that will be installed
+ on the system and their respective orders and interactions.
+ The composition of various authentication modules should be
+ carefully examined. The trusted computing base of the machine
+ now includes the PAM modules.
+
+
+ 10. EXPERIENCE WITH PAM
+
+ The PAM framework was first added in Solaris 2.3 release as a private
+ internal interface. PAM is currently being used by several system
+ entry applications such as `login', `passwd', `su', `dtlogin',
+ `rlogind', `rshd', `telnetd', `ftpd', `in.rexecd', `uucpd', `init',
+ `sac', and `ttymon'. We have found that PAM provides an excellent
+ framework to encapsulate the authentication-related tasks for the
+ entire system. The Solaris 2.3 PAM API's were hence enhanced and
+ simplified to support stacking.
+
+ PAM modules have been developed for UNIX, DCE, Kerberos, S/Key,
+ remote user authentication, and dialpass authentication. Other PAM
+ modules are under development, and integration with smart cards is
+ being planned.
+
+ Some third parties have used the PAM interface to extend the security
+ mechanisms offered by the Solaris environment.
+
+
+
+
+ Samar, Schemers Page 16
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ The PAM API has been accepted by Common Desktop Environment (CDE)
+ vendors as the API to be used for integrating the graphical interface
+ for login, `dtlogin' with multiple authentication mechanisms.
+
+
+ 11. FUTURE WORK
+
+ Amongst the various components of PAM, the password component needs
+ to be carefully examined to see whether the stacking semantics are
+ particularly applicable, and how PAM should deal with partial
+ failures when changing passwords.
+
+ The _control_flag_ of the configuration file can be extended to
+ include other semantics. For example, if the error is "name service
+ not available", one may want to retry. It is also possible to offer
+ semantics of "return success if any of the modules return success".
+
+ In an earlier section, we had mentioned integration of smart cards
+ with PAM. Though we feel that integration should be straight forward
+ from the PAM architecture point of view, there may be some issues
+ with implementation because the interfaces to the smart cards have
+ not yet been standardized.
+
+ One possible extension to PAM is to allow the passing of module-
+ specific data between applications and PAM modules. For example, the
+ `login' program likes to build its new environment from a select list
+ of variables, yet the DCE module needs the `KRB5CCNAME' variable to
+ be exported to the child process. For now we have modified the
+ `login' program to explicitly export the `KRB5CCNAME' variable.
+
+ Administrative tools are needed to help system administrators modify
+ `pam.conf', and perform sanity checks on it (i.e., a `pam_check'
+ utility).
+
+
+ 12. CONCLUSION
+
+ The PAM framework and the module interfaces provide pluggability for
+ user authentication, as well as for account, session and password
+ management. The PAM architecture can be used by `login' and by all
+ other system-entry services, and thus ensure that all entry points
+ for the system have been secured. This architecture enables
+ replacement and modification of authentication modules in the field
+ to secure the system against the newly found weaknesses without
+ changing any of the system services.
+
+ The PAM framework can be used to integrate `login' and `dtlogin' with
+ different authentication mechanisms such as RSA and Kerberos.
+ Multiple authentication systems can be accessed with the same
+ password. The PAM framework also provides easy integration of smart
+ cards into the system.
+
+
+
+ Samar, Schemers Page 17
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ PAM provides complementary functionality to GSS-API, in that it
+ provides mechanisms through which the user gets authenticated to any
+ new system-level authentication service on the machine. GSS-API then
+ uses the credentials for authenticated and secure communications with
+ other application-level service entities on the network.
+
+
+ 13. ACKNOWLEDGEMENTS
+
+ PAM development has spanned several release cycles at SunSoft.
+ Shau-Ping Lo, Chuck Hickey, and Alex Choy did the first design and
+ implementation. Bill Shannon and Don Stephenson helped with the PAM
+ architecture. Rocky Wu prototyped stacking of multiple modules.
+ Paul Fronberg, Charlie Lai, and Roland Schemers made very significant
+ enhancements to the PAM interfaces and took the project to completion
+ within a very short time. Kathy Slattery wrote the PAM
+ documentation. John Perry integrated PAM within the CDE framework.
+
+
+ APPENDIX A. PAM API'S
+
+ This appendix gives an informal description of the various interfaces
+ of PAM. Since the goal here is just for the reader to get a working
+ knowledge about the PAM interfaces, not all flags and options have
+ been fully defined and explained. The API's described here are
+ subject to change.
+
+ The PAM Service Provider Interface is very similar to the PAM API,
+ except for one extra parameter to pass module-specific options to the
+ underlying modules.
+
+ A.1. Framework Layer API's
+
+ int
+ pam_start(
+ char *service_name,
+ char *user,
+ struct pam_conv *pam_conversation,
+ pam_handle_t **pamh
+ );
+
+ `pam_start()' is called to initiate an authentication transaction.
+ `pam_start()' takes as arguments the name of the service, the name of
+ the user to be authenticated, the address of the conversation
+ structure. `pamh' is later used as a handle for subsequent calls to
+ the PAM library.
+
+ The PAM modules do not communicate directly with the user; instead
+ they rely on the application to perform all such interaction. The
+ application needs to provide the conversation functions, `conv()',
+ and associated application data pointers through a `pam_conv'
+
+
+
+ Samar, Schemers Page 18
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ structure when it initiates an authentication transaction. The
+ module uses the `conv()' function to prompt the user for data,
+ display error messages, or text information.
+
+ int
+ pam_end(
+ pam_handle_t *pamh,
+ int pam_status
+ );
+
+ `pam_end()' is called to terminate the PAM transaction as specified
+ by `pamh', and to free any storage area allocated by the PAM modules
+ with `pam_set_item()'.
+
+ int
+ pam_set_item(
+ pam_handle_t *pamh,
+ int item_type,
+ void *item
+ );
+
+ int
+ pam_get_item(
+ pam_handle_t *pamh,
+ int item_type,
+ void **item);
+
+ `pam_get_item()' and `pam_set_item()' allow the parameters specified
+ in the initial call to `pam_start()' to be read and updated. This is
+ useful when a particular parameter is not available when
+ `pam_start()' is called or must be modified after the initial call to
+ `pam_start()'. `pam_set_item()' is passed a pointer to the object,
+ `item', and its type, `item_type'. `pam_get_item()' is passed the
+ address of the pointer, `item', which is assigned the address of the
+ requested object.
+
+ The `item_type' is one of the following:
+
+ Table 5: Possible Values for Item_type
+
+ Item Name Description
+ --------- -----------
+ PAM_SERVICE The service name
+ PAM_USER The user name
+ PAM_TTY The tty name
+ PAM_RHOST The remote host name
+ PAM_CONV The pam_conv structure
+ PAM_AUTHTOK The authentication token (password)
+ PAM_OLDAUTHTOK The old authentication token
+ PAM_RUSER The remote user name
+
+
+
+
+ Samar, Schemers Page 19
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ Note that the values of `PAM_AUTHTOK' and `PAM_OLDAUTHTOK' are only
+ available to PAM modules and not to the applications. They are
+ explicitly cleared out by the framework before returning to the
+ application.
+
+ char *
+ pam_strerror(
+ int errnum
+ );
+
+ `pam_strerror()' maps the error number to a PAM error message string,
+ and returns a pointer to that string.
+
+ int
+ pam_set_data(
+ pam_handle_t *pamh,
+ char *module_data_name,
+ char *data,
+ (*cleanup)(pam_handle_t *pamh, char *data,
+ int error_status)
+ );
+
+ The `pam_set_data()' function stores module specific data within the
+ PAM handle. The `module_data_name' uniquely specifies the name to
+ which some data and cleanup callback function can be attached. The
+ cleanup function is called when `pam_end()' is invoked.
+
+ int
+ pam_get_data(
+ pam_handle_t *pamh,
+ char *module_data_name,
+ void **datap
+ );
+
+ The `pam_get_data()' function obtains module-specific data from the
+ PAM handle stored previously by the `pam_get_data()' function. The
+ `module_data_name' uniquely specifies the name for which data has to
+ be obtained. This function is normally used to retrieve module
+ specific state information.
+
+ A.2. Authentication API's
+
+ int
+ pam_authenticate(
+ pam_handle_t *pamh,
+ int flags
+ );
+
+ The `pam_authenticate()' function is called to verify the identity of
+ the current user. The user is usually required to enter a password
+ or similar authentication token, depending upon the authentication
+
+
+
+ Samar, Schemers Page 20
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ module configured with the system. The user in question is specified
+ by a prior call to `pam_start()', and is referenced by the
+ authentication handle, `pamh'.
+
+ int
+ pam_setcred(
+ pam_handle_t *pamh,
+ int flags
+ );
+
+ The `pam_setcred()' function is called to set the credentials of the
+ current process associated with the authentication handle, `pamh'.
+ The actions that can be denoted through `flags' include credential
+ initialization, refresh, reinitialization and deletion.
+
+ A.3. Account Management API
+
+ int
+ pam_acct_mgmt(
+ pam_handle_t *pamh,
+ int flags
+ );
+
+ The function `pam_acct_mgmt()' is called to determine whether the
+ current user's account and password are valid. This typically
+ includes checking for password and account expiration, valid login
+ times, etc. The user in question is specified by a prior call to
+ `pam_start()', and is referenced by the authentication handle,
+ `pamh'.
+
+ A.4. Session Management API's
+
+ int
+ pam_open_session(
+ pam_handle_t *pamh,
+ int flags
+ );
+
+ `pam_open_session()' is called to inform the session modules that a
+ new session has been initialized. All programs which use PAM should
+ invoke `pam_open_session()' when beginning a new session.
+
+ int
+ pam_close_session(
+ pam_handle_t *pamh,
+ int flags
+ );
+
+ Upon termination of this session, the `pam_close_session()' function
+ should be invoked to inform the underlying modules that the session
+ has terminated.
+
+
+
+ Samar, Schemers Page 21
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ A.5. Password Management API's
+
+ int
+ pam_chauthtok(
+ pam_handle_t *pamh,
+ int flags
+ );
+
+ `pam_chauthtok()' is called to change the authentication token
+ associated with the user referenced by the authentication handle
+ `pamh'. After the call, the authentication token of the user will be
+ changed in accordance with the authentication module configured on
+ the system.
+
+
+ APPENDIX B. SAMPLE PAM APPLICATION
+
+ This appendix shows a sample `login' application which uses the PAM
+ API's. It is not meant to be a fully functional login program, as
+ some functionality has been left out in order to emphasize the use of
+ PAM API's.
+
+ #include <security/pam_appl.h>
+
+ static int login_conv(int num_msg, struct pam_message **msg,
+ struct pam_response **response, void *appdata_ptr);
+
+ static struct pam_conv pam_conv = {login_conv, NULL};
+
+ static pam_handle_t *pamh; /* Authentication handle */
+
+ void
+ main(int argc, char *argv[], char **renvp)
+ {
+
+ /*
+ * Call pam_start to initiate a PAM authentication operation
+ */
+
+ if ((pam_start("login", user_name, &pam_conv, &pamh))
+ != PAM_SUCCESS)
+ login_exit(1);
+
+ pam_set_item(pamh, PAM_TTY, ttyn);
+ pam_set_item(pamh, PAM_RHOST, remote_host);
+
+ while (!authenticated && retry < MAX_RETRIES) {
+ status = pam_authenticate(pamh, 0);
+ authenticated = (status == PAM_SUCCESS);
+ }
+
+
+
+
+ Samar, Schemers Page 22
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ if (status != PAM_SUCCESS) {
+ fprintf(stderr,"error: %s\n", pam_strerror(status));
+ login_exit(1);
+ }
+
+ /* now check if the authenticated user is allowed to login. */
+
+ if ((status = pam_acct_mgmt(pamh, 0)) != PAM_SUCCESS) {
+ if (status == PAM_AUTHTOK_EXPIRED) {
+ status = pam_chauthtok(pamh, 0);
+ if (status != PAM_SUCCESS)
+ login_exit(1);
+ } else {
+ login_exit(1);
+ }
+ }
+
+ /*
+ * call pam_open_session to open the authenticated session
+ * pam_close_session gets called by the process that
+ * cleans up the utmp entry (i.e., init)
+ */
+ if (status = pam_open_session(pamh, 0) != PAM_SUCCESS) {
+ login_exit(status);
+ }
+
+ /* set up the process credentials */
+ setgid(pwd->pw_gid);
+
+ /*
+ * Initialize the supplementary group access list.
+ * This should be done before pam_setcred because
+ * the PAM modules might add groups during the pam_setcred call
+ */
+ initgroups(user_name, pwd->pw_gid);
+
+ status = pam_setcred(pamh, PAM_ESTABLISH_CRED);
+ if (status != PAM_SUCCESS) {
+ login_exit(status);
+ }
+
+ /* set the real (and effective) UID */
+ setuid(pwd->pw_uid);
+
+ pam_end(pamh, PAM_SUCCESS); /* Done using PAM */
+
+ /*
+ * Add DCE/Kerberos cred name, if any.
+ * XXX - The module specific stuff should be removed from login
+ * program eventually. This is better placed in DCE module and
+ * will be once PAM has routines for "exporting" environment
+
+
+
+ Samar, Schemers Page 23
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ * variables.
+ */
+ krb5p = getenv("KRB5CCNAME");
+ if (krb5p != NULL) {
+ ENVSTRNCAT(krb5ccname, krb5p);
+ envinit[basicenv++] = krb5ccname;
+ }
+ environ = envinit; /* Switch to the new environment. */
+ exec_the_shell();
+
+ /* All done */
+ }
+
+ /*
+ * login_exit - Call exit() and terminate.
+ * This function is here for PAM so cleanup can
+ * be done before the process exits.
+ */
+ static void
+ login_exit(int exit_code)
+ {
+ if (pamh)
+ pam_end(pamh, PAM_ABORT);
+ exit(exit_code);
+ /*NOTREACHED*/
+ }
+
+ /*
+ * login_conv():
+ * This is the conv (conversation) function called from
+ * a PAM authentication module to print error messages
+ * or garner information from the user.
+ */
+
+ static int
+ login_conv(int num_msg, struct pam_message **msg,
+ struct pam_response **response, void *appdata_ptr)
+ {
+
+ while (num_msg--) {
+ switch (m->msg_style) {
+
+ case PAM_PROMPT_ECHO_OFF:
+ r->resp = strdup(getpass(m->msg));
+ break;
+
+ case PAM_PROMPT_ECHO_ON:
+ (void) fputs(m->msg, stdout);
+ r->resp = malloc(PAM_MAX_RESP_SIZE);
+ fgets(r->resp, PAM_MAX_RESP_SIZE, stdin);
+ /* add code here to remove \n from fputs */
+
+
+
+ Samar, Schemers Page 24
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ break;
+
+ case PAM_ERROR_MSG:
+ (void) fputs(m->msg, stderr);
+ break;
+
+ case PAM_TEXT_INFO:
+ (void) fputs(m->msg, stdout);
+ break;
+
+ default:
+ /* add code here to log error message, etc */
+ break;
+ }
+ }
+ return (PAM_SUCCESS);
+ }
+
+
+ APPENDIX C. DCE MODULE
+
+ This appendix describes a sample implementation of a DCE PAM module.
+ In order to simplify the description, we do not address the issues
+ raised by password-mapping or stacking. The intent is to show which
+ DCE calls are being made by the DCE module.
+
+ The `pam_sm_*()' functions implement the PAM SPI functions which are
+ called from the PAM API functions.
+
+ C.1. DCE Authentication Management
+
+ The algorithm for authenticating with DCE (not including error
+ checking, prompting for passwords, etc.) is as follows:
+
+ pam_sm_authenticate()
+ {
+ sec_login_setup_identity(...);
+ pam_set_data(...);
+ sec_login_valid_and_cert_ident(...);
+ }
+
+ pam_sm_setcred()
+ {
+ pam_get_data(...);
+ sec_login_set_context(...);
+ }
+
+ The `pam_sm_authenticate()' function for DCE uses the
+ `pam_set_data()' and `pam_get_data()' functions to keep state (like
+ the `sec_login_handle_t' context) between calls. The following
+ cleanup function is also registered and gets called when `pam_end()'
+
+
+
+ Samar, Schemers Page 25
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ is called:
+
+ dce_cleanup()
+ {
+ if (/* PAM_SUCCESS and
+ sec_login_valid_and_cert_ident success */) {
+ sec_login_release_context(...);
+ } else {
+ sec_login_purge_context(...);
+ }
+ }
+
+ If everything was successful we release the login context, but leave
+ the credentials file intact. If the status passed to `pam_end()' was
+ not `PAM_SUCCESS' (i.e., a required module failed) we purge the login
+ context which also removes the credentials file.
+
+ C.2. DCE Account Management
+
+ The algorithm for DCE account management is as follows:
+
+ pam_sm_acct_mgmt()
+ {
+ pam_get_data(...);
+ sec_login_inquire_net_info(...);
+ /* check for expired password and account */
+ sec_login_free_net_info(...);
+ }
+
+ The `sec_login_inquire_net_info()' function is called to obtain
+ information about when the user's account and/or password are going
+ to expire. A warning message is displayed (using the conversation
+ function) if the user's account or password is going to expire in the
+ near future, or has expired. These warning messages can be disabled
+ using the `nowarn' option in the `pam.conf' file.
+
+ C.3. DCE Session Management
+
+ The DCE session management functions are currently empty. They could
+ be modified to optionally remove the DCE credentials file upon
+ logout, etc.
+
+ C.4. DCE Password Management
+
+ The algorithm for DCE password management is as follows:
+
+
+
+
+
+
+
+
+
+ Samar, Schemers Page 26
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ pam_sm_chauthtok
+ {
+ sec_rgy_site_open(...);
+ sec_rgy_acct_lookup(...);
+ sec_rgy_acct_passwd(...);
+ sec_rgy_site_close(...);
+ }
+
+ The `sec_rgy_acct_passwd()' function is called to change the user's
+ password in the DCE registry.
+
+
+ REFERENCES
+
+ [Adamson 95] W. A. Adamson, J. Rees, and P. Honeyman, "Joining
+ Security Realms: A Single Login for Netware and
+ Kerberos", CITI Technical Report 95-1, Center for
+ Information Technology Integration, University of
+ Michigan, Ann Arbor, MI, February 1995.
+
+ [Diffie 76] W. Diffie and M. E. Hellman, "New Directions in
+ Cryptography", IEEE Transactions on Information
+ Theory, November 1976.
+
+ [Linn 93] J. Linn, "Generic Security Service Application
+ Programming Interface", Internet RFC 1508, 1509, 1993.
+
+ [Rivest 78] R. L. Rivest, A. Shamir, and L. Adleman., "A Method
+ for Obtaining Digital Signatures and Pubic-key
+ Cryptosystems", Communications of the ACM, 21(2),
+ 1978.
+
+ [SIA 95] "Digital UNIX Security", Digital Equipment
+ Corporation, Order Number AA-Q0R2C-TE, July 1995.
+
+ [Skey 94] N. M. Haller, "The S/Key One-Time Password System",
+ ISOC Symposium on Network and Distributed Security,
+ 1994.
+
+ [Steiner 88] J.G. Steiner, B. C. Neuman, and J. I. Schiller,
+ "Kerberos, An Authentication Service for Open Network
+ Systems", in Proceedings of the Winter USENIX
+ Conference, Dallas, Jan 1988.
+
+ [Taylor 88] B. Taylor and D. Goldberg, "Secure Networking in the
+ Sun Environment", Sun Microsystems Technical Paper,
+ 1988.
+
+ [XFN 94] "Federated Naming: the XFN Specifications", X/Open
+ Preliminary Specification, X/Open Document #P403,
+ ISBN:1-85912-045-8, X/Open Co. Ltd., July 1994.
+
+
+
+ Samar, Schemers Page 27
+
+
+
+
+
+
+
+ OSF-RFC 86.0 PAM October 1995
+
+
+
+ AUTHOR'S ADDRESS
+
+ Vipin Samar Internet email: vipin@eng.sun.com
+ SunSoft, Inc. Telephone: +1-415-336-1002
+ 2550 Garcia Avenue
+ Mountain View, CA 94043
+ USA
+
+ Roland J. Schemers III Internet email: schemers@eng.sun.com
+ SunSoft, Inc. Telephone: +1-415-336-1035
+ 2550 Garcia Avenue
+ Mountain View, CA 94043
+ USA
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+ Samar, Schemers Page 28
diff --git a/doc/specs/std-agent-id.raw b/doc/specs/std-agent-id.raw
new file mode 100644
index 0000000..d5fbdd5
--- /dev/null
+++ b/doc/specs/std-agent-id.raw
@@ -0,0 +1,95 @@
+PAM working group ## A.G. Morgan
+
+## $Id$ ##
+
+## Pluggable Authentication Modules ##
+
+## REGISTERED AGENTS AND THEIR AGENT-ID'S ##
+
+#$ Purpose of this document
+
+#$$#{definition} Definition of an agent-id
+
+The most complete version of a "PAM agent-id" is contained in this
+reference [#$R#{PAM_RFC2}]. A copy of a recent definition is
+reproduced here for convenience. The reader is recommended to consult
+reference [#{PAM_RFC2}] for definitions of other terms that are
+used in this document.
+
+## -------------- ##
+
+The agent_id is a sequence of characters satisfying the following
+regexp:
+
+ /^[a-z0-9\_]+(@[a-z0-9\_.]+)?$/
+
+and has a specific form for each independent agent.
+
+o Agent_ids that do not contain an at-sign (@) are to be considered as
+ representing some authentication mode that is a "public
+ standard". Registered names MUST NOT contain an at-sign (@).
+
+o Anyone can define additional agents by using names in the format
+ name@domainname, e.g. "ouragent@example.com". The part following
+ the at-sign MUST be a valid fully qualified internet domain name
+ [RFC-1034] controlled by the person or organization defining the
+ name. (Said another way, if you control the email address that
+ your agent has as an identifier, they you are entitled to use
+ this identifier.) It is up to each domain how it manages its local
+ namespace.
+
+## -------------- ##
+
+#$ Registered agent-id's
+
+The structure of this section is a single subsection for each
+registered agent-id. This section includes a full definition of binary
+prompts accepted by the agent and example responses of said
+agent. Using the defining section alone, it should be possible for a
+third party to create a conforming agent and modules that can
+interoperate with other implementations of these objects.
+
+*$ "userpass" - the user+password agent
+
+Many legacy authentication systems are hardcoded to support one and
+only one authentication method. Namely,
+
+ username: joe
+ password: <secret>
+
+Indeed, this authentication method is often embedded into parts of the
+transport protocol. The "user+password" agent with PAM agent-id:
+
+ "userpass"
+
+Is intended to support this legacy authentication scheme. The protocol
+for binary prompt exchange with this 'standard agent' is as follows:
+
+Case 1: module does not know the username, but expects the agent to
+ obtain this information and also the user's password:
+
+ module: {LENGTH;PAM_BP_SELECT;userpass;'/'}
+ agent: {}
+
+Case 2: module has suggested username, but would like agent to confirm
+ it and gather password:
+
+ module: {}
+ agent: {}
+
+Case 3: module knows username and will not permit the agent to change it:
+
+ module: {}
+ agent: {}
+
+#$ References
+
+[#{PAM_RFC2}] Internet draft, "Pluggable Authentication Modules
+ (PAM)", available here:
+
+# http://linux.kernel.org/pub/linux/libs/pam/pre/doc/current-draft.txt #
+
+#$ Author's Address
+
+Andrew G. Morgan
+Email: morgan@kernel.org